Your search keyword '"Gelpi, E"' showing total 58 results

1. Neuropathological spectrum of anti-IgLON5 disease and stages of brainstem tau pathology: updated neuropathological research criteria of the disease-related tauopathy.

Author

Gelpi, E. and Gelpi, E.

Subjects

Neurology - Radboud University Medical Center - DCMN., Pathology - Radboud University Medical Center - DCMN.

Published

2024

2. Genome wide association study of clinical duration and age at onset of sporadic CJD

Author

Zanusso, G, Hummerich, H, Speedy, H, Campbell, T, Darwent, L, Hill, E, Collins, S, Stehmann, C, Kovacs, GG, Geschwind, MD, Frontzek, K, Budka, H, Gelpi, E, Aguzzi, A, van der Lee, SJ, van Duijn, CM, Liberski, PP, Calero, M, Sanchez-Juan, P, Bouaziz-Amar, E, Laplanche, J-L, Haik, S, Brandel, J-P, Mammana, A, Capellari, S, Poleggi, A, Ladogana, A, Pocchiari, M, Zafar, S, Booth, S, Jansen, GH, Areskeviciute, A, Lobner Lund, E, Glisic, K, Parchi, P, Hermann, P, Zerr, I, Appleby, BS, Safar, J, Gambetti, P, Collinge, J, Mead, S, Zanusso, G, Hummerich, H, Speedy, H, Campbell, T, Darwent, L, Hill, E, Collins, S, Stehmann, C, Kovacs, GG, Geschwind, MD, Frontzek, K, Budka, H, Gelpi, E, Aguzzi, A, van der Lee, SJ, van Duijn, CM, Liberski, PP, Calero, M, Sanchez-Juan, P, Bouaziz-Amar, E, Laplanche, J-L, Haik, S, Brandel, J-P, Mammana, A, Capellari, S, Poleggi, A, Ladogana, A, Pocchiari, M, Zafar, S, Booth, S, Jansen, GH, Areskeviciute, A, Lobner Lund, E, Glisic, K, Parchi, P, Hermann, P, Zerr, I, Appleby, BS, Safar, J, Gambetti, P, Collinge, J, and Mead, S

Abstract

Human prion diseases are rare, transmissible and often rapidly progressive dementias. The most common type, sporadic Creutzfeldt-Jakob disease (sCJD), is highly variable in clinical duration and age at onset. Genetic determinants of late onset or slower progression might suggest new targets for research and therapeutics. We assembled and array genotyped sCJD cases diagnosed in life or at autopsy. Clinical duration (median:4, interquartile range (IQR):2.5-9 (months)) was available in 3,773 and age at onset (median:67, IQR:61-73 (years)) in 3,767 cases. Phenotypes were successfully transformed to approximate normal distributions allowing genome-wide analysis without statistical inflation. 53 SNPs achieved genome-wide significance for the clinical duration phenotype; all of which were located at chromosome 20 (top SNP rs1799990, pvalue = 3.45x10-36, beta = 0.34 for an additive model; rs1799990, pvalue = 9.92x10-67, beta = 0.84 for a heterozygous model). Fine mapping, conditional and expression analysis suggests that the well-known non-synonymous variant at codon 129 is the obvious outstanding genome-wide determinant of clinical duration. Pathway analysis and suggestive loci are described. No genome-wide significant SNP determinants of age at onset were found, but the HS6ST3 gene was significant (pvalue = 1.93 x 10-6) in a gene-based test. We found no evidence of genome-wide genetic correlation between case-control (disease risk factors) and case-only (determinants of phenotypes) studies. Relative to other common genetic variants, PRNP codon 129 is by far the outstanding modifier of CJD survival suggesting only modest or rare variant effects at other genetic loci.

Published

2024

3. Author Correction: Common variants in Alzheimer’s disease and risk stratification by polygenic risk scores (Nature Communications, (2021), 12, 1, (3417), 10.1038/s41467-021-22491-8)

Author

de Rojas I., de Rojas, I, Moreno-Grau, S, Tesi, N, Grenier-Boley, B, Andrade, V, Jansen, I, Pedersen, N, Stringa, N, Zettergren, A, Hernandez, I, Montrreal, L, Antunez, C, Antonell, A, Tankard, R, Bis, J, Sims, R, Bellenguez, C, Quintela, I, Gonzalez-Perez, A, Calero, M, Franco-Macias, E, Macias, J, Blesa, R, Cervera-Carles, L, Menendez-Gonzalez, M, Frank-Garcia, A, Royo, J, Moreno, F, Huerto Vilas, R, Baquero, M, Diez-Fairen, M, Lage, C, Garcia-Madrona, S, Garcia-Gonzalez, P, Alarcon-Martin, E, Valero, S, Sotolongo-Grau, O, Ullgren, A, Naj, A, Lemstra, A, Benaque, A, Perez-Cordon, A, Benussi, A, Rabano, A, Padovani, A, Squassina, A, de Mendonca, A, Arias Pastor, A, Kok, A, Meggy, A, Pastor, A, Espinosa, A, Corma-Gomez, A, Martin Montes, A, Sanabria, A, Destefano, A, Schneider, A, Haapasalo, A, Kinhult Stahlbom, A, Tybjaerg-Hansen, A, Hartmann, A, Spottke, A, Corbaton-Anchuelo, A, Rongve, A, Borroni, B, Arosio, B, Nacmias, B, Nordestgaard, B, Kunkle, B, Charbonnier, C, Abdelnour, C, Masullo, C, Martinez Rodriguez, C, Munoz-Fernandez, C, Dufouil, C, Graff, C, Ferreira, C, Chillotti, C, Reynolds, C, Fenoglio, C, Van Broeckhoven, C, Clark, C, Pisanu, C, Satizabal, C, Holmes, C, Buiza-Rueda, D, Aarsland, D, Rujescu, D, Alcolea, D, Galimberti, D, Wallon, D, Seripa, D, Grunblatt, E, Dardiotis, E, Duzel, E, Scarpini, E, Conti, E, Rubino, E, Gelpi, E, Rodriguez-Rodriguez, E, Duron, E, Boerwinkle, E, Ferri, E, Tagliavini, F, Kucukali, F, Pasquier, F, Sanchez-Garcia, F, Mangialasche, F, Jessen, F, Nicolas, G, Selbaek, G, Ortega, G, Chene, G, Hadjigeorgiou, G, Rossi, G, Spalletta, G, Giaccone, G, Grande, G, Binetti, G, Papenberg, G, Hampel, H, Bailly, H, Zetterberg, H, Soininen, H, Karlsson, I, Alvarez, I, Appollonio, I, Giegling, I, Skoog, I, Saltvedt, I, Rainero, I, Rosas Allende, I, Hort, J, Diehl-Schmid, J, Van Dongen, J, Vidal, J, Lehtisalo, J, Wiltfang, J, Thomassen, J, Kornhuber, J, Haines, J, Vogelgsang, J, Pineda, J, Fortea, J, Popp, J, Deckert, J, Buerger, K, Morgan, K, Fliessbach, K, Sleegers, K, Molina-Porcel, L, Kilander, L, Weinhold, L, Farrer, L, Wang, L, Kleineidam, L, Farotti, L, Parnetti, L, Tremolizzo, L, Hausner, L, Benussi, L, Froelich, L, Ikram, M, Deniz-Naranjo, M, Tsolaki, M, Rosende-Roca, M, Lowenmark, M, Hulsman, M, Spallazzi, M, Pericak-Vance, M, Esiri, M, Bernal Sanchez-Arjona, M, Dalmasso, M, Martinez-Larrad, M, Arcaro, M, Nothen, M, Fernandez-Fuertes, M, Dichgans, M, Ingelsson, M, Herrmann, M, Scherer, M, Vyhnalek, M, Kosmidis, M, Yannakoulia, M, Schmid, M, Ewers, M, Heneka, M, Wagner, M, Scamosci, M, Kivipelto, M, Hiltunen, M, Zulaica, M, Alegret, M, Fornage, M, Roberto, N, van Schoor, N, Seidu, N, Banaj, N, Armstrong, N, Scarmeas, N, Scherbaum, N, Goldhardt, O, Hanon, O, Peters, O, Skrobot, O, Quenez, O, Lerch, O, Bossu, P, Caffarra, P, Dionigi Rossi, P, Sakka, P, Mecocci, P, Hoffmann, P, Holmans, P, Fischer, P, Riederer, P, Yang, Q, Marshall, R, Kalaria, R, Mayeux, R, Vandenberghe, R, Cecchetti, R, Ghidoni, R, Frikke-Schmidt, R, Sorbi, S, Hagg, S, Engelborghs, S, Helisalmi, S, Botne Sando, S, Kern, S, Archetti, S, Boschi, S, Fostinelli, S, Gil, S, Mendoza, S, Mead, S, Ciccone, S, Djurovic, S, Heilmann-Heimbach, S, Riedel-Heller, S, Kuulasmaa, T, del Ser, T, Lebouvier, T, Polak, T, Ngandu, T, Grimmer, T, Bessi, V, Escott-Price, V, Giedraitis, V, Deramecourt, V, Maier, W, Jian, X, Pijnenburg, Y, Smith, A, Saenz, A, Bizzarro, A, Lauria, A, Vacca, A, Solomon, A, Anastasiou, A, Richardson, A, Boland, A, Koivisto, A, Daniele, A, Greco, A, Marianthi, A, Mcguinness, B, Fin, B, Ferrari, C, Custodero, C, Ferrarese, C, Ingino, C, Mangone, C, Reyes Toso, C, Martinez, C, Cuesta, C, Muchnik, C, Joachim, C, Ortiz, C, Besse, C, Johansson, C, Zoia, C, Laske, C, Anastasiou, C, Palacio, D, Politis, D, Janowitz, D, Craig, D, Mann, D, Neary, D, Jurgen, D, Daian, D, Belezhanska, D, Kohler, E, Castano, E, Koutsouraki, E, Chipi, E, De Roeck, E, Costantini, E, Vardy, E, Piras, F, Roveta, F, Prestia, F, Assogna, F, Salani, F, Sala, G, Lacidogna, G, Novack, G, Wilcock, G, Thonberg, H, Kolsch, H, Weber, H, Boecker, H, Etchepareborda, I, Piaceri, I, Tuomilehto, J, Lindstrom, J, Laczo, J, Johnston, J, Deleuze, J, Harris, J, Schott, J, Priller, J, Bacha, J, Snowden, J, Lisso, J, Mihova, K, Traykov, L, Morelli, L, Brusco, L, Rainer, M, Takalo, M, Bjerke, M, Del Zompo, M, Serpente, M, Sanchez Abalos, M, Rios, M, Peltonen, M, Herrman, M, Kohler, M, Rojo, M, Jones, M, Orsini, M, Medel, N, Olivar, N, Fox, N, Salvadori, N, Hooper, N, Galeano, P, Solis, P, Bastiani, P, Passmore, P, Heun, R, Antikainen, R, Olaso, R, Perneczky, R, Germani, S, Lopez-Garcia, S, Love, S, Mehrabian, S, Bagnoli, S, Kochen, S, Andreoni, S, Teipel, S, Todd, S, Pickering-Brown, S, Natunen, T, Tegos, T, Laatikainen, T, Strandberg, T, Polvikoski, T, Matoska, V, Ciullo, V, Cores, V, Solfrizzi, V, Lisetti, V, Sevillano, Z, Aguilera, N, Alarcon, E, Boada, M, Buendia, M, Canabate, P, Carracedo, A, Diego, S, Gailhajenet, A, Guitart, M, Ibarria, M, Lafuente, A, Maronas, O, Martin, E, Martinez, M, Marquie, M, Mauleon, A, Moreno, M, Orellana, A, Pancho, A, Peleja, E, Preckler, S, Real, L, Ruiz, A, Saez, M, Serrano-Rios, M, Tarraga, L, Vargas, L, Adarmes-Gomez, A, Alonso, M, Alvarez, V, Amer-Ferrer, G, Antequera, M, Bernal, M, Bullido, M, Burguera, J, Carrillo, F, Carrion-Claro, M, Casajeros, M, Clarimon, J, Cruz-Gamero, J, de Pancorbo, M, Escuela, R, Garrote-Espina, L, Garcia-Alberca, J, Garcia Madrona, S, Garcia-Ribas, G, Gomez-Garre, P, Hevilla, S, Jesus, S, Labrador Espinosa, M, Legaz, A, Lleo, A, Lopez de Munain, A, Macias-Garcia, D, Manzanares, S, Marin, M, Marin-Munoz, J, Marin, T, Martinez, B, Martinez, V, Martinez-Lage Alvarez, P, Medina, M, Mendioroz Iriarte, M, Mir, P, Molinuevo, J, Pastor, P, Perez Tur, J, Perinan-Tocino, T, Pineda-Sanchez, R, Pinol-Ripoll, G, Real de Asua, D, Rodrigo, S, Sanchez del Valle Diaz, R, Sanchez-Juan, P, Sastre, I, Vicente, M, Vigo-Ortega, R, Vivancos, L, Macleod, C, Mccracken, C, Brayne, C, Bresner, C, Grozeva, D, Bellou, E, Sommerville, E, Matthews, F, Leonenko, G, Menzies, G, Windle, G, Harwood, J, Phillips, J, Bennett, K, Luckuck, L, Clare, L, Woods, R, Saad, S, Burholt, V, Kehoe, P, Scheltens, P, Holstege, H, Amouyel, P, Schellenberg, G, Williams, J, Seshadri, S, van Duijn, C, Mather, K, Sanchez-Valle, R, Blennow, K, Huisman, M, Andreassen, O, Posthuma, D, van der Flier, W, Ramirez, A, Lambert, J, van der Lee, S, de Rojas I., Moreno-Grau S., Tesi N., Grenier-Boley B., Andrade V., Jansen I. E., Pedersen N. L., Stringa N., Zettergren A., Hernandez I., Montrreal L., Antunez C., Antonell A., Tankard R. M., Bis J. C., Sims R., Bellenguez C., Quintela I., Gonzalez-Perez A., Calero M., Franco-Macias E., Macias J., Blesa R., Cervera-Carles L., Menendez-Gonzalez M., Frank-Garcia A., Royo J. L., Moreno F., Huerto Vilas R., Baquero M., Diez-Fairen M., Lage C., Garcia-Madrona S., Garcia-Gonzalez P., Alarcon-Martin E., Valero S., Sotolongo-Grau O., Ullgren A., Naj A. C., Lemstra A. W., Benaque A., Perez-Cordon A., Benussi A., Rabano A., Padovani A., Squassina A., de Mendonca A., Arias Pastor A., Kok A. A. L., Meggy A., Pastor A. B., Espinosa A., Corma-Gomez A., Martin Montes A., Sanabria A., DeStefano A. L., Schneider A., Haapasalo A., Kinhult Stahlbom A., Tybjaerg-Hansen A., Hartmann A. M., Spottke A., Corbaton-Anchuelo A., Rongve A., Borroni B., Arosio B., Nacmias B., Nordestgaard B. G., Kunkle B. W., Charbonnier C., Abdelnour C., Masullo C., Martinez Rodriguez C., Munoz-Fernandez C., Dufouil C., Graff C., Ferreira C. B., Chillotti C., Reynolds C. A., Fenoglio C., Van Broeckhoven C., Clark C., Pisanu C., Satizabal C. L., Holmes C., Buiza-Rueda D., Aarsland D., Rujescu D., Alcolea D., Galimberti D., Wallon D., Seripa D., Grunblatt E., Dardiotis E., Duzel E., Scarpini E., Conti E., Rubino E., Gelpi E., Rodriguez-Rodriguez E., Duron E., Boerwinkle E., Ferri E., Tagliavini F., Kucukali F., Pasquier F., Sanchez-Garcia F., Mangialasche F., Jessen F., Nicolas G., Selbaek G., Ortega G., Chene G., Hadjigeorgiou G., Rossi G., Spalletta G., Giaccone G., Grande G., Binetti G., Papenberg G., Hampel H., Bailly H., Zetterberg H., Soininen H., Karlsson I. K., Alvarez I., Appollonio I., Giegling I., Skoog I., Saltvedt I., Rainero I., Rosas Allende I., Hort J., Diehl-Schmid J., Van Dongen J., Vidal J. -S., Lehtisalo J., Wiltfang J., Thomassen J. Q., Kornhuber J., Haines J. L., Vogelgsang J., Pineda J. A., Fortea J., Popp J., Deckert J., Buerger K., Morgan K., Fliessbach K., Sleegers K., Molina-Porcel L., Kilander L., Weinhold L., Farrer L. A., Wang L. -S., Kleineidam L., Farotti L., Parnetti L., Tremolizzo L., Hausner L., Benussi L., Froelich L., Ikram M. A., Deniz-Naranjo M. C., Tsolaki M., Rosende-Roca M., Lowenmark M., Hulsman M., Spallazzi M., Pericak-Vance M. A., Esiri M., Bernal Sanchez-Arjona M., Dalmasso M. C., Martinez-Larrad M. T., Arcaro M., Nothen M. M., Fernandez-Fuertes M., Dichgans M., Ingelsson M., Herrmann M. J., Scherer M., Vyhnalek M., Kosmidis M. H., Yannakoulia M., Schmid M., Ewers M., Heneka M. T., Wagner M., Scamosci M., Kivipelto M., Hiltunen M., Zulaica M., Alegret M., Fornage M., Roberto N., van Schoor N. M., Seidu N. M., Banaj N., Armstrong N. J., Scarmeas N., Scherbaum N., Goldhardt O., Hanon O., Peters O., Skrobot O. A., Quenez O., Lerch O., Bossu P., Caffarra P., Dionigi Rossi P., Sakka P., Mecocci P., Hoffmann P., Holmans P. A., Fischer P., Riederer P., Yang Q., Marshall R., Kalaria R. N., Mayeux R., Vandenberghe R., Cecchetti R., Ghidoni R., Frikke-Schmidt R., Sorbi S., Hagg S., Engelborghs S., Helisalmi S., Botne Sando S., Kern S., Archetti S., Boschi S., Fostinelli S., Gil S., Mendoza S., Mead S., Ciccone S., Djurovic S., Heilmann-Heimbach S., Riedel-Heller S., Kuulasmaa T., del Ser T., Lebouvier T., Polak T., Ngandu T., Grimmer T., Bessi V., Escott-Price V., Giedraitis V., Deramecourt V., Maier W., Jian X., Pijnenburg Y. A. L., Smith A. D., Saenz A., Bizzarro A., Lauria A., Vacca A., Solomon A., Anastasiou A., Richardson A., Boland A., Koivisto A., Daniele A., Greco A., Marianthi A., McGuinness B., Fin B., Ferrari C., Custodero C., Ferrarese C., Ingino C., Mangone C., Reyes Toso C., Martinez C., Cuesta C., Muchnik C., Joachim C., Ortiz C., Besse C., Johansson C., Zoia C. P., Laske C., Anastasiou C., Palacio D. L., Politis D. G., Janowitz D., Craig D., Mann D. M., Neary D., Jurgen D., Daian D., Belezhanska D., Kohler E., Castano E. M., Koutsouraki E., Chipi E., De Roeck E., Costantini E., Vardy E. R. L. C., Piras F., Roveta F., Prestia F. A., Assogna F., Salani F., Sala G., Lacidogna G., Novack G., Wilcock G., Thonberg H., Kolsch H., Weber H., Boecker H., Etchepareborda I., Piaceri I., Tuomilehto J., Lindstrom J., Laczo J., Johnston J., Deleuze J. -F., Harris J., Schott J. M., Priller J., Bacha J. I., Snowden J., Lisso J., Mihova K. Y., Traykov L., Morelli L., Brusco L. I., Rainer M., Takalo M., Bjerke M., Del Zompo M., Serpente M., Sanchez Abalos M., Rios M., Peltonen M., Herrman M. J., Kohler M., Rojo M., Jones M., Orsini M., Medel N., Olivar N., Fox N. C., Salvadori N., Hooper N. M., Galeano P., Solis P., Bastiani P., Passmore P., Heun R., Antikainen R., Olaso R., Perneczky R., Germani S., Lopez-Garcia S., Love S., Mehrabian S., Bagnoli S., Kochen S., Andreoni S., Teipel S., Todd S., Pickering-Brown S., Natunen T., Tegos T., Laatikainen T., Strandberg T., Polvikoski T. M., Matoska V., Ciullo V., Cores V., Solfrizzi V., Lisetti V., Sevillano Z., Aguilera N., Alarcon E., Boada M., Buendia M., Canabate P., Carracedo A., Diego S., Gailhajenet A., Guitart M., Ibarria M., Lafuente A., Maronas O., Martin E., Martinez M. T., Marquie M., Mauleon A., Moreno M., Orellana A., Pancho A., Peleja E., Preckler S., Real L. M., Ruiz A., Saez M. E., Serrano-Rios M., Tarraga L., Vargas L., Adarmes-Gomez A. D., Alonso M. D., Alvarez V., Amer-Ferrer G., Antequera M., Bernal M., Bullido M. J., Burguera J. A., Carrillo F., Carrion-Claro M., Casajeros M. J., Clarimon J., Cruz-Gamero J. M., de Pancorbo M. M., Escuela R., Garrote-Espina L., Garcia-Alberca J. M., Garcia Madrona S., Garcia-Ribas G., Gomez-Garre P., Hevilla S., Jesus S., Labrador Espinosa M. A., Legaz A., Lleo A., Lopez de Munain A., Macias-Garcia D., Manzanares S., Marin M., Marin-Munoz J., Marin T., Martinez B., Martinez V., Martinez-Lage Alvarez P., Medina M., Mendioroz Iriarte M., Mir P., Molinuevo J. L., Pastor P., Perez Tur J., Perinan-Tocino T., Pineda-Sanchez R., Pinol-Ripoll G., Real de Asua D., Rodrigo S., Sanchez del Valle Diaz R., Sanchez-Juan P., Sastre I., Vicente M. P., Vigo-Ortega R., Vivancos L., Macleod C., McCracken C., Brayne C., Bresner C., Grozeva D., Bellou E., Sommerville E. W., Matthews F., Leonenko G., Menzies G., Windle G., Harwood J., Phillips J., Bennett K., Luckuck L., Clare L., Woods R., Saad S., Burholt V., Kehoe P. G., Scheltens P., Holstege H., Amouyel P., Schellenberg G. D., Williams J., Seshadri S., van Duijn C. M., Mather K. A., Sanchez-Valle R., Blennow K., Huisman M., Andreassen O. A., Posthuma D., van der Flier W. M., Ramirez A., Lambert J. -C., van der Lee S. J., de Rojas I., de Rojas, I, Moreno-Grau, S, Tesi, N, Grenier-Boley, B, Andrade, V, Jansen, I, Pedersen, N, Stringa, N, Zettergren, A, Hernandez, I, Montrreal, L, Antunez, C, Antonell, A, Tankard, R, Bis, J, Sims, R, Bellenguez, C, Quintela, I, Gonzalez-Perez, A, Calero, M, Franco-Macias, E, Macias, J, Blesa, R, Cervera-Carles, L, Menendez-Gonzalez, M, Frank-Garcia, A, Royo, J, Moreno, F, Huerto Vilas, R, Baquero, M, Diez-Fairen, M, Lage, C, Garcia-Madrona, S, Garcia-Gonzalez, P, Alarcon-Martin, E, Valero, S, Sotolongo-Grau, O, Ullgren, A, Naj, A, Lemstra, A, Benaque, A, Perez-Cordon, A, Benussi, A, Rabano, A, Padovani, A, Squassina, A, de Mendonca, A, Arias Pastor, A, Kok, A, Meggy, A, Pastor, A, Espinosa, A, Corma-Gomez, A, Martin Montes, A, Sanabria, A, Destefano, A, Schneider, A, Haapasalo, A, Kinhult Stahlbom, A, Tybjaerg-Hansen, A, Hartmann, A, Spottke, A, Corbaton-Anchuelo, A, Rongve, A, Borroni, B, Arosio, B, Nacmias, B, Nordestgaard, B, Kunkle, B, Charbonnier, C, Abdelnour, C, Masullo, C, Martinez Rodriguez, C, Munoz-Fernandez, C, Dufouil, C, Graff, C, Ferreira, C, Chillotti, C, Reynolds, C, Fenoglio, C, Van Broeckhoven, C, Clark, C, Pisanu, C, Satizabal, C, Holmes, C, Buiza-Rueda, D, Aarsland, D, Rujescu, D, Alcolea, D, Galimberti, D, Wallon, D, Seripa, D, Grunblatt, E, Dardiotis, E, Duzel, E, Scarpini, E, Conti, E, Rubino, E, Gelpi, E, Rodriguez-Rodriguez, E, Duron, E, Boerwinkle, E, Ferri, E, Tagliavini, F, Kucukali, F, Pasquier, F, Sanchez-Garcia, F, Mangialasche, F, Jessen, F, Nicolas, G, Selbaek, G, Ortega, G, Chene, G, Hadjigeorgiou, G, Rossi, G, Spalletta, G, Giaccone, G, Grande, G, Binetti, G, Papenberg, G, Hampel, H, Bailly, H, Zetterberg, H, Soininen, H, Karlsson, I, Alvarez, I, Appollonio, I, Giegling, I, Skoog, I, Saltvedt, I, Rainero, I, Rosas Allende, I, Hort, J, Diehl-Schmid, J, Van Dongen, J, Vidal, J, Lehtisalo, J, Wiltfang, J, Thomassen, J, Kornhuber, J, Haines, J, Vogelgsang, J, Pineda, J, Fortea, J, Popp, J, Deckert, J, Buerger, K, Morgan, K, Fliessbach, K, Sleegers, K, Molina-Porcel, L, Kilander, L, Weinhold, L, Farrer, L, Wang, L, Kleineidam, L, Farotti, L, Parnetti, L, Tremolizzo, L, Hausner, L, Benussi, L, Froelich, L, Ikram, M, Deniz-Naranjo, M, Tsolaki, M, Rosende-Roca, M, Lowenmark, M, Hulsman, M, Spallazzi, M, Pericak-Vance, M, Esiri, M, Bernal Sanchez-Arjona, M, Dalmasso, M, Martinez-Larrad, M, Arcaro, M, Nothen, M, Fernandez-Fuertes, M, Dichgans, M, Ingelsson, M, Herrmann, M, Scherer, M, Vyhnalek, M, Kosmidis, M, Yannakoulia, M, Schmid, M, Ewers, M, Heneka, M, Wagner, M, Scamosci, M, Kivipelto, M, Hiltunen, M, Zulaica, M, Alegret, M, Fornage, M, Roberto, N, van Schoor, N, Seidu, N, Banaj, N, Armstrong, N, Scarmeas, N, Scherbaum, N, Goldhardt, O, Hanon, O, Peters, O, Skrobot, O, Quenez, O, Lerch, O, Bossu, P, Caffarra, P, Dionigi Rossi, P, Sakka, P, Mecocci, P, Hoffmann, P, Holmans, P, Fischer, P, Riederer, P, Yang, Q, Marshall, R, Kalaria, R, Mayeux, R, Vandenberghe, R, Cecchetti, R, Ghidoni, R, Frikke-Schmidt, R, Sorbi, S, Hagg, S, Engelborghs, S, Helisalmi, S, Botne Sando, S, Kern, S, Archetti, S, Boschi, S, Fostinelli, S, Gil, S, Mendoza, S, Mead, S, Ciccone, S, Djurovic, S, Heilmann-Heimbach, S, Riedel-Heller, S, Kuulasmaa, T, del Ser, T, Lebouvier, T, Polak, T, Ngandu, T, Grimmer, T, Bessi, V, Escott-Price, V, Giedraitis, V, Deramecourt, V, Maier, W, Jian, X, Pijnenburg, Y, Smith, A, Saenz, A, Bizzarro, A, Lauria, A, Vacca, A, Solomon, A, Anastasiou, A, Richardson, A, Boland, A, Koivisto, A, Daniele, A, Greco, A, Marianthi, A, Mcguinness, B, Fin, B, Ferrari, C, Custodero, C, Ferrarese, C, Ingino, C, Mangone, C, Reyes Toso, C, Martinez, C, Cuesta, C, Muchnik, C, Joachim, C, Ortiz, C, Besse, C, Johansson, C, Zoia, C, Laske, C, Anastasiou, C, Palacio, D, Politis, D, Janowitz, D, Craig, D, Mann, D, Neary, D, Jurgen, D, Daian, D, Belezhanska, D, Kohler, E, Castano, E, Koutsouraki, E, Chipi, E, De Roeck, E, Costantini, E, Vardy, E, Piras, F, Roveta, F, Prestia, F, Assogna, F, Salani, F, Sala, G, Lacidogna, G, Novack, G, Wilcock, G, Thonberg, H, Kolsch, H, Weber, H, Boecker, H, Etchepareborda, I, Piaceri, I, Tuomilehto, J, Lindstrom, J, Laczo, J, Johnston, J, Deleuze, J, Harris, J, Schott, J, Priller, J, Bacha, J, Snowden, J, Lisso, J, Mihova, K, Traykov, L, Morelli, L, Brusco, L, Rainer, M, Takalo, M, Bjerke, M, Del Zompo, M, Serpente, M, Sanchez Abalos, M, Rios, M, Peltonen, M, Herrman, M, Kohler, M, Rojo, M, Jones, M, Orsini, M, Medel, N, Olivar, N, Fox, N, Salvadori, N, Hooper, N, Galeano, P, Solis, P, Bastiani, P, Passmore, P, Heun, R, Antikainen, R, Olaso, R, Perneczky, R, Germani, S, Lopez-Garcia, S, Love, S, Mehrabian, S, Bagnoli, S, Kochen, S, Andreoni, S, Teipel, S, Todd, S, Pickering-Brown, S, Natunen, T, Tegos, T, Laatikainen, T, Strandberg, T, Polvikoski, T, Matoska, V, Ciullo, V, Cores, V, Solfrizzi, V, Lisetti, V, Sevillano, Z, Aguilera, N, Alarcon, E, Boada, M, Buendia, M, Canabate, P, Carracedo, A, Diego, S, Gailhajenet, A, Guitart, M, Ibarria, M, Lafuente, A, Maronas, O, Martin, E, Martinez, M, Marquie, M, Mauleon, A, Moreno, M, Orellana, A, Pancho, A, Peleja, E, Preckler, S, Real, L, Ruiz, A, Saez, M, Serrano-Rios, M, Tarraga, L, Vargas, L, Adarmes-Gomez, A, Alonso, M, Alvarez, V, Amer-Ferrer, G, Antequera, M, Bernal, M, Bullido, M, Burguera, J, Carrillo, F, Carrion-Claro, M, Casajeros, M, Clarimon, J, Cruz-Gamero, J, de Pancorbo, M, Escuela, R, Garrote-Espina, L, Garcia-Alberca, J, Garcia Madrona, S, Garcia-Ribas, G, Gomez-Garre, P, Hevilla, S, Jesus, S, Labrador Espinosa, M, Legaz, A, Lleo, A, Lopez de Munain, A, Macias-Garcia, D, Manzanares, S, Marin, M, Marin-Munoz, J, Marin, T, Martinez, B, Martinez, V, Martinez-Lage Alvarez, P, Medina, M, Mendioroz Iriarte, M, Mir, P, Molinuevo, J, Pastor, P, Perez Tur, J, Perinan-Tocino, T, Pineda-Sanchez, R, Pinol-Ripoll, G, Real de Asua, D, Rodrigo, S, Sanchez del Valle Diaz, R, Sanchez-Juan, P, Sastre, I, Vicente, M, Vigo-Ortega, R, Vivancos, L, Macleod, C, Mccracken, C, Brayne, C, Bresner, C, Grozeva, D, Bellou, E, Sommerville, E, Matthews, F, Leonenko, G, Menzies, G, Windle, G, Harwood, J, Phillips, J, Bennett, K, Luckuck, L, Clare, L, Woods, R, Saad, S, Burholt, V, Kehoe, P, Scheltens, P, Holstege, H, Amouyel, P, Schellenberg, G, Williams, J, Seshadri, S, van Duijn, C, Mather, K, Sanchez-Valle, R, Blennow, K, Huisman, M, Andreassen, O, Posthuma, D, van der Flier, W, Ramirez, A, Lambert, J, van der Lee, S, de Rojas I., Moreno-Grau S., Tesi N., Grenier-Boley B., Andrade V., Jansen I. E., Pedersen N. L., Stringa N., Zettergren A., Hernandez I., Montrreal L., Antunez C., Antonell A., Tankard R. M., Bis J. C., Sims R., Bellenguez C., Quintela I., Gonzalez-Perez A., Calero M., Franco-Macias E., Macias J., Blesa R., Cervera-Carles L., Menendez-Gonzalez M., Frank-Garcia A., Royo J. L., Moreno F., Huerto Vilas R., Baquero M., Diez-Fairen M., Lage C., Garcia-Madrona S., Garcia-Gonzalez P., Alarcon-Martin E., Valero S., Sotolongo-Grau O., Ullgren A., Naj A. C., Lemstra A. W., Benaque A., Perez-Cordon A., Benussi A., Rabano A., Padovani A., Squassina A., de Mendonca A., Arias Pastor A., Kok A. A. L., Meggy A., Pastor A. B., Espinosa A., Corma-Gomez A., Martin Montes A., Sanabria A., DeStefano A. L., Schneider A., Haapasalo A., Kinhult Stahlbom A., Tybjaerg-Hansen A., Hartmann A. M., Spottke A., Corbaton-Anchuelo A., Rongve A., Borroni B., Arosio B., Nacmias B., Nordestgaard B. G., Kunkle B. W., Charbonnier C., Abdelnour C., Masullo C., Martinez Rodriguez C., Munoz-Fernandez C., Dufouil C., Graff C., Ferreira C. B., Chillotti C., Reynolds C. A., Fenoglio C., Van Broeckhoven C., Clark C., Pisanu C., Satizabal C. L., Holmes C., Buiza-Rueda D., Aarsland D., Rujescu D., Alcolea D., Galimberti D., Wallon D., Seripa D., Grunblatt E., Dardiotis E., Duzel E., Scarpini E., Conti E., Rubino E., Gelpi E., Rodriguez-Rodriguez E., Duron E., Boerwinkle E., Ferri E., Tagliavini F., Kucukali F., Pasquier F., Sanchez-Garcia F., Mangialasche F., Jessen F., Nicolas G., Selbaek G., Ortega G., Chene G., Hadjigeorgiou G., Rossi G., Spalletta G., Giaccone G., Grande G., Binetti G., Papenberg G., Hampel H., Bailly H., Zetterberg H., Soininen H., Karlsson I. K., Alvarez I., Appollonio I., Giegling I., Skoog I., Saltvedt I., Rainero I., Rosas Allende I., Hort J., Diehl-Schmid J., Van Dongen J., Vidal J. -S., Lehtisalo J., Wiltfang J., Thomassen J. Q., Kornhuber J., Haines J. L., Vogelgsang J., Pineda J. A., Fortea J., Popp J., Deckert J., Buerger K., Morgan K., Fliessbach K., Sleegers K., Molina-Porcel L., Kilander L., Weinhold L., Farrer L. A., Wang L. -S., Kleineidam L., Farotti L., Parnetti L., Tremolizzo L., Hausner L., Benussi L., Froelich L., Ikram M. A., Deniz-Naranjo M. C., Tsolaki M., Rosende-Roca M., Lowenmark M., Hulsman M., Spallazzi M., Pericak-Vance M. A., Esiri M., Bernal Sanchez-Arjona M., Dalmasso M. C., Martinez-Larrad M. T., Arcaro M., Nothen M. M., Fernandez-Fuertes M., Dichgans M., Ingelsson M., Herrmann M. J., Scherer M., Vyhnalek M., Kosmidis M. H., Yannakoulia M., Schmid M., Ewers M., Heneka M. T., Wagner M., Scamosci M., Kivipelto M., Hiltunen M., Zulaica M., Alegret M., Fornage M., Roberto N., van Schoor N. M., Seidu N. M., Banaj N., Armstrong N. J., Scarmeas N., Scherbaum N., Goldhardt O., Hanon O., Peters O., Skrobot O. A., Quenez O., Lerch O., Bossu P., Caffarra P., Dionigi Rossi P., Sakka P., Mecocci P., Hoffmann P., Holmans P. A., Fischer P., Riederer P., Yang Q., Marshall R., Kalaria R. N., Mayeux R., Vandenberghe R., Cecchetti R., Ghidoni R., Frikke-Schmidt R., Sorbi S., Hagg S., Engelborghs S., Helisalmi S., Botne Sando S., Kern S., Archetti S., Boschi S., Fostinelli S., Gil S., Mendoza S., Mead S., Ciccone S., Djurovic S., Heilmann-Heimbach S., Riedel-Heller S., Kuulasmaa T., del Ser T., Lebouvier T., Polak T., Ngandu T., Grimmer T., Bessi V., Escott-Price V., Giedraitis V., Deramecourt V., Maier W., Jian X., Pijnenburg Y. A. L., Smith A. D., Saenz A., Bizzarro A., Lauria A., Vacca A., Solomon A., Anastasiou A., Richardson A., Boland A., Koivisto A., Daniele A., Greco A., Marianthi A., McGuinness B., Fin B., Ferrari C., Custodero C., Ferrarese C., Ingino C., Mangone C., Reyes Toso C., Martinez C., Cuesta C., Muchnik C., Joachim C., Ortiz C., Besse C., Johansson C., Zoia C. P., Laske C., Anastasiou C., Palacio D. L., Politis D. G., Janowitz D., Craig D., Mann D. M., Neary D., Jurgen D., Daian D., Belezhanska D., Kohler E., Castano E. M., Koutsouraki E., Chipi E., De Roeck E., Costantini E., Vardy E. R. L. C., Piras F., Roveta F., Prestia F. A., Assogna F., Salani F., Sala G., Lacidogna G., Novack G., Wilcock G., Thonberg H., Kolsch H., Weber H., Boecker H., Etchepareborda I., Piaceri I., Tuomilehto J., Lindstrom J., Laczo J., Johnston J., Deleuze J. -F., Harris J., Schott J. M., Priller J., Bacha J. I., Snowden J., Lisso J., Mihova K. Y., Traykov L., Morelli L., Brusco L. I., Rainer M., Takalo M., Bjerke M., Del Zompo M., Serpente M., Sanchez Abalos M., Rios M., Peltonen M., Herrman M. J., Kohler M., Rojo M., Jones M., Orsini M., Medel N., Olivar N., Fox N. C., Salvadori N., Hooper N. M., Galeano P., Solis P., Bastiani P., Passmore P., Heun R., Antikainen R., Olaso R., Perneczky R., Germani S., Lopez-Garcia S., Love S., Mehrabian S., Bagnoli S., Kochen S., Andreoni S., Teipel S., Todd S., Pickering-Brown S., Natunen T., Tegos T., Laatikainen T., Strandberg T., Polvikoski T. M., Matoska V., Ciullo V., Cores V., Solfrizzi V., Lisetti V., Sevillano Z., Aguilera N., Alarcon E., Boada M., Buendia M., Canabate P., Carracedo A., Diego S., Gailhajenet A., Guitart M., Ibarria M., Lafuente A., Maronas O., Martin E., Martinez M. T., Marquie M., Mauleon A., Moreno M., Orellana A., Pancho A., Peleja E., Preckler S., Real L. M., Ruiz A., Saez M. E., Serrano-Rios M., Tarraga L., Vargas L., Adarmes-Gomez A. D., Alonso M. D., Alvarez V., Amer-Ferrer G., Antequera M., Bernal M., Bullido M. J., Burguera J. A., Carrillo F., Carrion-Claro M., Casajeros M. J., Clarimon J., Cruz-Gamero J. M., de Pancorbo M. M., Escuela R., Garrote-Espina L., Garcia-Alberca J. M., Garcia Madrona S., Garcia-Ribas G., Gomez-Garre P., Hevilla S., Jesus S., Labrador Espinosa M. A., Legaz A., Lleo A., Lopez de Munain A., Macias-Garcia D., Manzanares S., Marin M., Marin-Munoz J., Marin T., Martinez B., Martinez V., Martinez-Lage Alvarez P., Medina M., Mendioroz Iriarte M., Mir P., Molinuevo J. L., Pastor P., Perez Tur J., Perinan-Tocino T., Pineda-Sanchez R., Pinol-Ripoll G., Real de Asua D., Rodrigo S., Sanchez del Valle Diaz R., Sanchez-Juan P., Sastre I., Vicente M. P., Vigo-Ortega R., Vivancos L., Macleod C., McCracken C., Brayne C., Bresner C., Grozeva D., Bellou E., Sommerville E. W., Matthews F., Leonenko G., Menzies G., Windle G., Harwood J., Phillips J., Bennett K., Luckuck L., Clare L., Woods R., Saad S., Burholt V., Kehoe P. G., Scheltens P., Holstege H., Amouyel P., Schellenberg G. D., Williams J., Seshadri S., van Duijn C. M., Mather K. A., Sanchez-Valle R., Blennow K., Huisman M., Andreassen O. A., Posthuma D., van der Flier W. M., Ramirez A., Lambert J. -C., and van der Lee S. J.

Abstract

The original version of this Article omitted from the author list the 212th author Patrizia Mecocci, who is from the Institute of Gerontology and Geriatrics, Department of Medicine, University of Perugia, Perugia, Italy. Consequently, the “Sample Contribution” section of Author Contributions was updated to add “P.M” between “P.D.” and “R.C.”. Additionally, the original version of this Article contained the incorrect affiliation for author Patrick Gavin Kehoe, which incorrectly read “German Center for Neurodegenerative Diseases (DZNE), Berlin, Germany”. The correct version replaces this affiliation with “Bristol Medical School (THS), University of Bristol, Southmead Hospital, Bristol, UK”. This has been corrected in both the PDF and HTML versions of the Article.

Published

2023

4. P156 Muscle biopsy findings in a large cohort of patients affected by valosin containing protein disease: preliminary analysis of the international multicentric VCP study

Author

Schiava, M., primary, Nishino, I., additional, Inoue, M., additional, Nishimori, Y., additional, Saito, Y., additional, Polvikoski, T., additional, Charlton, R., additional, Parkhurst, Y., additional, Henderson, M., additional, Marini-Bettolo, C., additional, Guglieri, M., additional, Straub, V., additional, Weihl, C., additional, Stojkovic, T., additional, Villar-Quiles, R., additional, Romero, N., additional, Evangelista, T., additional, Pegoraro, E., additional, De Bleecker, J., additional, Monforte, M., additional, Malfatti, E., additional, Souvannanorath, S., additional, Severa, G., additional, Alonso-Jiménez, A., additional, Baets, J., additional, De Ridder, W., additional, De Jonghe, P., additional, Kierdaszuk, B., additional, Claeys, K., additional, Muelas, N., additional, Oldfors, A., additional, Rodolico, C., additional, Quin, C., additional, Dominguez, C., additional, Lain, A Herández, additional, Pál, E., additional, Papadimas, G., additional, Kushlaf, H., additional, Alfano, L., additional, Alonso-Pérez, J., additional, Luo, S., additional, Badrising, U., additional, Bevilacqua, J., additional, Nedkova-Hristova, V., additional, Cetin, H., additional, Gelpi, E., additional, Klotz, S., additional, and Plana, M Olivé, additional

Published

2023

5. Author Correction: Common variants in Alzheimer’s disease and risk stratification by polygenic risk scores (Nature Communications, (2021), 12, 1, (3417), 10.1038/s41467-021-22491-8)

Author

de Rojas, I. Moreno-Grau, S. Tesi, N. Grenier-Boley, B. Andrade, V. Jansen, I.E. Pedersen, N.L. Stringa, N. Zettergren, A. Hernández, I. Montrreal, L. Antúnez, C. Antonell, A. Tankard, R.M. Bis, J.C. Sims, R. Bellenguez, C. Quintela, I. González-Perez, A. Calero, M. Franco-Macías, E. Macías, J. Blesa, R. Cervera-Carles, L. Menéndez-González, M. Frank-García, A. Royo, J.L. Moreno, F. Huerto Vilas, R. Baquero, M. Diez-Fairen, M. Lage, C. García-Madrona, S. García-González, P. Alarcón-Martín, E. Valero, S. Sotolongo-Grau, O. Ullgren, A. Naj, A.C. Lemstra, A.W. Benaque, A. Pérez-Cordón, A. Benussi, A. Rábano, A. Padovani, A. Squassina, A. de Mendonça, A. Arias Pastor, A. Kok, A.A.L. Meggy, A. Pastor, A.B. Espinosa, A. Corma-Gómez, A. Martín Montes, A. Sanabria, Á. DeStefano, A.L. Schneider, A. Haapasalo, A. Kinhult Ståhlbom, A. Tybjærg-Hansen, A. Hartmann, A.M. Spottke, A. Corbatón-Anchuelo, A. Rongve, A. Borroni, B. Arosio, B. Nacmias, B. Nordestgaard, B.G. Kunkle, B.W. Charbonnier, C. Abdelnour, C. Masullo, C. Martínez Rodríguez, C. Muñoz-Fernandez, C. Dufouil, C. Graff, C. Ferreira, C.B. Chillotti, C. Reynolds, C.A. Fenoglio, C. Van Broeckhoven, C. Clark, C. Pisanu, C. Satizabal, C.L. Holmes, C. Buiza-Rueda, D. Aarsland, D. Rujescu, D. Alcolea, D. Galimberti, D. Wallon, D. Seripa, D. Grünblatt, E. Dardiotis, E. Düzel, E. Scarpini, E. Conti, E. Rubino, E. Gelpi, E. Rodriguez-Rodriguez, E. Duron, E. Boerwinkle, E. Ferri, E. Tagliavini, F. Küçükali, F. Pasquier, F. Sanchez-Garcia, F. Mangialasche, F. Jessen, F. Nicolas, G. Selbæk, G. Ortega, G. Chêne, G. Hadjigeorgiou, G. Rossi, G. Spalletta, G. Giaccone, G. Grande, G. Binetti, G. Papenberg, G. Hampel, H. Bailly, H. Zetterberg, H. Soininen, H. Karlsson, I.K. Alvarez, I. Appollonio, I. Giegling, I. Skoog, I. Saltvedt, I. Rainero, I. Rosas Allende, I. Hort, J. Diehl-Schmid, J. Van Dongen, J. Vidal, J.-S. Lehtisalo, J. Wiltfang, J. Thomassen, J.Q. Kornhuber, J. Haines, J.L. Vogelgsang, J. Pineda, J.A. Fortea, J. Popp, J. D and de Rojas, I. Moreno-Grau, S. Tesi, N. Grenier-Boley, B. Andrade, V. Jansen, I.E. Pedersen, N.L. Stringa, N. Zettergren, A. Hernández, I. Montrreal, L. Antúnez, C. Antonell, A. Tankard, R.M. Bis, J.C. Sims, R. Bellenguez, C. Quintela, I. González-Perez, A. Calero, M. Franco-Macías, E. Macías, J. Blesa, R. Cervera-Carles, L. Menéndez-González, M. Frank-García, A. Royo, J.L. Moreno, F. Huerto Vilas, R. Baquero, M. Diez-Fairen, M. Lage, C. García-Madrona, S. García-González, P. Alarcón-Martín, E. Valero, S. Sotolongo-Grau, O. Ullgren, A. Naj, A.C. Lemstra, A.W. Benaque, A. Pérez-Cordón, A. Benussi, A. Rábano, A. Padovani, A. Squassina, A. de Mendonça, A. Arias Pastor, A. Kok, A.A.L. Meggy, A. Pastor, A.B. Espinosa, A. Corma-Gómez, A. Martín Montes, A. Sanabria, Á. DeStefano, A.L. Schneider, A. Haapasalo, A. Kinhult Ståhlbom, A. Tybjærg-Hansen, A. Hartmann, A.M. Spottke, A. Corbatón-Anchuelo, A. Rongve, A. Borroni, B. Arosio, B. Nacmias, B. Nordestgaard, B.G. Kunkle, B.W. Charbonnier, C. Abdelnour, C. Masullo, C. Martínez Rodríguez, C. Muñoz-Fernandez, C. Dufouil, C. Graff, C. Ferreira, C.B. Chillotti, C. Reynolds, C.A. Fenoglio, C. Van Broeckhoven, C. Clark, C. Pisanu, C. Satizabal, C.L. Holmes, C. Buiza-Rueda, D. Aarsland, D. Rujescu, D. Alcolea, D. Galimberti, D. Wallon, D. Seripa, D. Grünblatt, E. Dardiotis, E. Düzel, E. Scarpini, E. Conti, E. Rubino, E. Gelpi, E. Rodriguez-Rodriguez, E. Duron, E. Boerwinkle, E. Ferri, E. Tagliavini, F. Küçükali, F. Pasquier, F. Sanchez-Garcia, F. Mangialasche, F. Jessen, F. Nicolas, G. Selbæk, G. Ortega, G. Chêne, G. Hadjigeorgiou, G. Rossi, G. Spalletta, G. Giaccone, G. Grande, G. Binetti, G. Papenberg, G. Hampel, H. Bailly, H. Zetterberg, H. Soininen, H. Karlsson, I.K. Alvarez, I. Appollonio, I. Giegling, I. Skoog, I. Saltvedt, I. Rainero, I. Rosas Allende, I. Hort, J. Diehl-Schmid, J. Van Dongen, J. Vidal, J.-S. Lehtisalo, J. Wiltfang, J. Thomassen, J.Q. Kornhuber, J. Haines, J.L. Vogelgsang, J. Pineda, J.A. Fortea, J. Popp, J. D

Abstract

The original version of this Article omitted from the author list the 212th author Patrizia Mecocci, who is from the Institute of Gerontology and Geriatrics, Department of Medicine, University of Perugia, Perugia, Italy. Consequently, the “Sample Contribution” section of Author Contributions was updated to add “P.M” between “P.D.” and “R.C.”. Additionally, the original version of this Article contained the incorrect affiliation for author Patrick Gavin Kehoe, which incorrectly read “German Center for Neurodegenerative Diseases (DZNE), Berlin, Germany”. The correct version replaces this affiliation with “Bristol Medical School (THS), University of Bristol, Southmead Hospital, Bristol, UK”. This has been corrected in both the PDF and HTML versions of the Article. © The Author(s) 2023.

Published

2023

6. 111. ATAXIA CEREBELOSA DE INICIO TARDÍO APARENTEMENTE GENÉTICA. PERO NO ESE GEN

Author

Caballero, G., Alemany-Perna, B., Rodríguez-Revenga, L., Álvarez- Mora, M., Molina-Porcel, L., Aldecoa, I., Gelpi, E., and Genís, D.

Published

2024

7. 20769. IDENTIFICACIÓN DE UNA MUTACIÓN PATOGÉNICA EN ARPP21 EN PACIENTES CON ESCLEROSIS LATERAL AMIOTRÓFICA

Author

Carbayo Viejo, Á., Dols Icardo, O., Jericó Pascual, I., Blasco Martínez, O., López Pérez, M., Bernal Noguera, S., Rodríguez Santiago, B., Cusco, I., Turon Sans, J., Vesperinas Castro, A., Llansó Caldentey, L., Caballero Álvarez, M., Cabezas Torres, M., Pagoda Lorz, I., Torné, L., Illán Gala, I., Rubio Guerra, S., Álvarez Sánchez, E., Muñoz Llahuna, L., Valle Tamayo, N., Gelpi, E., Cortés Vicente, E., and Rojas García, R.

Published

2024

8. 20072. FENOTIPO CLINICOPATOLÓGICO DE LA DEMENCIA FRONTOTEMPORAL CAUSADA POR LA MUTACIÓN P.P397S MAPT

Author

Borrego Écija, S., Bartolomé, I., Aldecoa, I., Juncà Parella, J., Molina Porcel, L., Antonell, A., Balasa, M., Lladó, A., Herrero, A., Villarejo, A., Alquezar, C., Gelpi, E., Rademakers, R., and Sánchez del Valle, R.

Published

2024

9. POS0911 DIAGNOSTIC VALUE AND CLINICAL RELEVANCE OF MUSCLE BIOPSY IN PATIENTS WITH SUSPECTED MYOSITIS

Author

Kastrati, K., primary, Nakhost Lotfi, N., additional, Tawfik, M., additional, Gelpi, E., additional, Hoeftberger, R., additional, Kiener, H., additional, Aletaha, D., additional, Bonelli, M., additional, and Radner, H., additional

Published

2022

10. Sporadic Creutzfeldt-Jakob disease VM1: phenotypic and molecular characterization of a novel subtype of human prion disease

Author

Ellen Gelpi, Simone Baiardi, Carlos Nos, Sofia Dellavalle, Iban Aldecoa, Raquel Ruiz-Garcia, Lourdes Ispierto, Domingo Escudero, Virgina Casado, Elena Barranco, Anuncia Boltes, Laura Molina-Porcel, Nuria Bargalló, Marcello Rossi, Angela Mammana, Dorina Tiple, Luana Vaianella, Elisabeth Stoegmann, Ingrid Simonitsch-Klupp, Gregor Kasprian, Sigrid Klotz, Romana Höftberger, Herbert Budka, Gabor G. Kovacs, Isidre Ferrer, Sabina Capellari, Raquel Sanchez-Valle, Piero Parchi, [Gelpi E] Division of Neuropathology and Neurochemistry, Department of Neurology, Medical University of Vienna and Austrian Reference Center for Human Prion Diseases (ÖRPE), AKH Leitstelle 4J, Vienna, Austria. Neurological Tissue Bank of the Biobank-Hospital Clinic-IDIBAPS, Barcelona, Spain. [Baiardi S] IRCCS Istituto delle Scienze Neurologiche di Bologna, Bologna, Italy. Department of Biomedical and Neuromotor Sciences (DIBINEM), University of Bologna, Bologna, Italy. [Nos C] General Subdirectorate of Surveillance and Response to Emergencies in Public Health, Department of Public Health in Catalonia, Barcelona, Spain. [Dellavalle S] IRCCS Istituto delle Scienze Neurologiche di Bologna, Bologna, Italy. [Aldecoa I] Neurological Tissue Bank of the Biobank-Hospital Clinic-IDIBAPS, Barcelona, Spain. Neurological Tissue Bank of the Biobank-Hospital Clinic-IDIBAPS, Barcelona, Spain. [Ruiz-Garcia R] Department of Pathology, Center for Biomedical Diagnosis, Hospital Clinic de Barcelona, University of Barcelona, Barcelona, Spain. [Barranco E] Department of Geriatrics, Hospital General de Granollers, Granollers, Spain. [Boltes A] Department of Neurology, Hospital General de Granollers, Granollers, Spain, Hospital General de Granollers, and info:eu-repo/semantics/publishedVersion

Subjects

Prion diseases, Prions, Nucleic Acids, Nucleotides, and Nucleosides::Nucleic Acids::RNA::RNA, Messenger::Codon [CHEMICALS AND DRUGS], enfermedades del sistema nervioso::enfermedades del sistema nervioso central::enfermedades del sistema nervioso::enfermedades del sistema nervioso central::infecciones del sistema nervioso central::enfermedades por priones::síndrome de Creutzfeldt-Jakob [ENFERMEDADES], Brain, Creutzfeldt-Jakob disease, Creutzfeldt-Jakob Syndrome, Prion Proteins, nucleótidos y nucleósidos de ácidos nucleicos::ácidos nucleicos::ARN::ARN mensajero::codón [COMPUESTOS QUÍMICOS Y DROGAS], Pathology and Forensic Medicine, Prion Diseases, Cellular and Molecular Neuroscience, Mice, Amino Acids, Peptides, and Proteins::Proteins::Glycoproteins::Membrane Glycoproteins::GPI-Linked Proteins::Prion Proteins [CHEMICALS AND DRUGS], Malalties priòniques, aminoácidos, péptidos y proteínas::proteínas::glicoproteínas::glicoproteínas de membranas::proteínas ligadas a GPI::proteínas priónicas [COMPUESTOS QUÍMICOS Y DROGAS], Malaltia de Creutzfeldt-Jakob, Animals, Humans, Malalties per prions, Neurology (clinical), Nervous System Diseases::Central Nervous System Diseases::Nervous System Diseases::Central Nervous System Diseases::Central Nervous System Infections::Prion Diseases::Creutzfeldt-Jakob Syndrome [DISEASES], Codon, Creutzfeldt-Jakob, Malaltia de, Genètica

Abstract

Creutzfeldt-Jakob disease; Prion disease; Prion strains Malaltia de Creutzfeldt-Jakob; Malalties priòniques; Soques de prions Enfermedad de Creutzfeldt-Jakob; Enfermedad priónica; Cepas de priones The methionine (M)-valine (V) polymorphic codon 129 of the prion protein gene (PRNP) plays a central role in both susceptibility and phenotypic expression of sporadic Creutzfeldt-Jakob diseases (sCJD). Experimental transmissions of sCJD in humanized transgenic mice led to the isolation of five prion strains, named M1, M2C, M2T, V2, and V1, based on two major conformations of the pathological prion protein (PrPSc, type 1 and type 2), and the codon 129 genotype determining susceptibility and propagation efficiency. While the most frequent sCJD strains have been described in codon 129 homozygosis (MM1, MM2C, VV2) and heterozygosis (MV1, MV2K, and MV2C), the V1 strain has only been found in patients carrying VV. We identified six sCJD cases, 4 in Catalonia and 2 in Italy, carrying MV at PRNP codon 129 in combination with PrPSc type 1 and a new clinical and neuropathological profile reminiscent of the VV1 sCJD subtype rather than typical MM1/MV1. All patients had a relatively long duration (mean of 20.5 vs. 3.5 months of MM1/MV1 patients) and lacked electroencephalographic periodic sharp-wave complexes at diagnosis. Distinctive histopathological features included the spongiform change with vacuoles of larger size than those seen in sCJD MM1/MV1, the lesion profile with prominent cortical and striatal involvement, and the pattern of PrPSc deposition characterized by a dissociation between florid spongiform change and mild synaptic deposits associated with coarse, patch-like deposits in the cerebellar molecular layer. Western blot analysis of brain homogenates revealed a PrPSc type 1 profile with physicochemical properties reminiscent of the type 1 protein linked to the VV1 sCJD subtype. In summary, we have identified a new subtype of sCJD with distinctive clinicopathological features significantly overlapping with those of the VV1 subtype, possibly representing the missing evidence of V1 sCJD strain propagation in the 129MV host genotype.

Published

2022

11. Autoantibody development is associated with clinical severity of COVID-19: A cohort study.

Author

Brinkmann M, Traby L, Kussmann M, Weiss-Tessbach M, Buchtele N, Staudinger T, Gaidoschik E, Perkmann T, Haslacher H, Ratzinger F, Pickl WF, El-Gedawi K, Feichter M, Gelpi E, Höftberger R, Quehenberger P, Marculescu R, Mrak D, Kastrati K, Lechner-Radner H, Sieghart D, Aletaha D, Winkler S, Bonelli M, and Göschl L

Abstract

Viral infections, including respiratory diseases such as Coronavirus disease 2019 (COVID-19), are hypothesized to contribute to the onset of autoimmune disorders. Although elevated levels of autoantibodies have been observed following COVID-19, the role of specific autoantibodies linked to autoimmune diseases and their correlation with disease severity remains poorly defined. In this study, we used a comprehensive autoantibody panel to assess the autoantibody production across different cohorts of COVID-19 patients, categorized by disease severity. We also compared patients with severe COVID-19 to a control group with other severe, non-COVID-related diseases. Our findings indicate that the severity of COVID-19 corresponds to the overall production of specific autoantibodies, which are particularly associated with COVID-19. This association might predispose to an increased risk for the development of autoimmune conditions after a severe course of COVID-19., Competing Interests: Declaration of competing interest MiB received grants from Galapagos. DA received grants and consulting fees from AbbVie, Amgen,Lilly, Merck, Novartis, Pfizer, Roche and Sandozand. NB received speaker fees (Mistubishi Tanabe) and investigator-initiated research grants (Mitsubishi Tanabe, CSL Behring)., (Copyright © 2024. Published by Elsevier Inc.)

Published

2025

12. A novel alpha-synuclein G14R missense variant is associated with atypical neuropathological features.

Author

Brücke C, Al-Azzani M, Ramalingam N, Ramón M, Sousa RL, Buratti F, Zech M, Sicking K, Amaral L, Gelpi E, Chandran A, Agarwal A, Chaves SR, Fernández CO, Dettmer U, Lautenschläger J, Zweckstetter M, Busnadiego RF, Zimprich A, and Outeiro TF

Abstract

Background: Parkinson's disease (PD) affects millions of people worldwide, but only 5-10% of patients suffer from a monogenic form of the disease with Mendelian inheritance. SNCA , the gene encoding for the protein alpha-synuclein (aSyn), was the first to be associated with familial forms of PD and, since then, several missense variants and multiplications of the SNCA gene have been established as rare causes of autosomal dominant forms of PD., Aim and Methods: A patient carrying aSyn missense mutation and his family members were studied. We present the clinical features, genetic testing - whole exome sequencing (WES), and neuropathological findings. The functional consequences of this aSyn variant were extensively investigated using biochemical, biophysical, and cellular assays., Results: The patient exhibited a complex neurodegenerative disease that included generalized myocloni, bradykinesia, dystonia of the left arm and apraxia. WES identified a novel heterozygous SNCA variant (cDNA 40G>A; protein G14R). Neuropathological examination showed extensive atypical aSyn pathology with frontotemporal lobar degeneration (FTLD) and nigral degeneration pattern with abundant ring-like neuronal inclusions, and few oligodendroglial inclusions. Sanger sequencing confirmed the SNCA variant in the healthy, elderly parent of the patient patient suggesting incomplete penetrance. NMR studies suggest that the G14R mutation induces a local structural alteration in aSyn, and lower thioflavin T binding in in vitro fibrillization assays. Interestingly, the G14R aSyn fibers display different fibrillar morphologies as revealed by cryo-electron microscopy. Cellular studies of the G14R variant revealed increased inclusion formation, enhanced membrane association, and impaired dynamic reversibility of serine-129 phosphorylation., Summary: The atypical neuropathological features observed, which are reminiscent of those observed for the G51D aSyn variant, suggest a causal role of the SNCA variant with a distinct clinical and pathological phenotype, which is further supported by the properties of the mutant aSyn, compatible with the strain hypothesis of proteinopathies., Competing Interests: Conflict of interests The authors have no relevant conflicts of interest to disclose related to the article.

Published

2025

13. Mood Alterations in the Prodromal Phase of Sporadic Creutzfeldt-Jakob Disease.

Author

Wurm R, Klotz S, Erber A, Gruber F, Leitner S, Reichardt B, Stögmann E, Schernhammer E, Gelpi E, and Cetin H

Subjects

Humans, Female, Male, Aged, Middle Aged, Retrospective Studies, Case-Control Studies, Mood Disorders epidemiology, Austria epidemiology, Aged, 80 and over, Creutzfeldt-Jakob Syndrome epidemiology, Prodromal Symptoms

Abstract

Importance: Sporadic Creutzfeldt-Jakob disease (sCJD) is a rare, rapidly progressive and fatal neurodegenerative disease. Definite sCJD diagnosis can only be made post mortem, and little is known about the prodromal phase of the disease., Objective: To compare drug prescription patterns before the clinical onset of sCJD between patients and matched controls for exploration of potential risk factors and to assess correlations between drug exposure and sCJD survival., Design, Setting, and Participants: This retrospective analysis was designed as a case-control study, with data collected from January 2013 to December 2020 and analyzed in 2023. Follow-up was available until December 2020. Cases were collected from the Austrian Reference Centre for Human Prion Diseases, which receives all suspected cases at a national level in Austria. The analyses were conducted at a single center. Patients with autopsy-confirmed sCJD were linked with insurance claims data, and a minimum of 10 control individuals were matched by sex, age at onset, and area of residence for each patient with sCJD., Exposure: Medication prescribed to 10% or more of the cohort with sCJD up to 5 years before symptom onset or the matching date in the control cohort., Main Outcomes and Measures: Drug prescription before symptom onset or the matching date was compared between patients with sCJD and controls using conditional regression, and prescriptions in the cohort with sCJD were assessed for correlation with survival using Cox proportional hazard models., Results: A total of 129 patients with sCJD (median [IQR] age, 68.9 [62.4-75.5] years; 67 female [51.9%]) and 1350 controls (median [IQR] age, 69.0 [62.2-75.3] years; 700 female [51.9%]) were included. As compared with controls, patients with sCJD were found to have significantly higher odds of being prescribed selective serotonin reuptake inhibitors (SSRIs) in the year preceding disease onset (odds ratio, 2.86; 95% CI, 1.63-4.95; P < .001). SSRI prescription rates started to increase 3 years before symptom onset in the cohort with sCJD., Conclusions and Relevance: Results of this case-control study provide evidence for prodromal mood alterations as early as 3 years before symptom onset in patients with sCJD. Although sCJD remains an extremely rare cause of mood alterations, increased vigilance for neurodegenerative diseases in this setting could eventually help to extend the diagnostic window.

Published

2025

14. Multiomic analyses direct hypotheses for Creutzfeldt-Jakob disease risk genes.

Author

Küçükali F, Hill E, Watzeels T, Hummerich H, Campbell T, Darwent L, Collins S, Stehmann C, Kovacs GG, Geschwind MD, Frontzek K, Budka H, Gelpi E, Aguzzi A, van der Lee SJ, van Duijn CM, Liberski PP, Calero M, Sanchez-Juan P, Bouaziz-Amar E, Laplanche JL, Haïk S, Brandel JP, Mammana A, Capellari S, Poleggi A, Ladogana A, Tiple D, Zafar S, Booth S, Jansen GH, Areškevičiūtė A, Lund EL, Glisic K, Parchi P, Hermann P, Zerr I, Safar J, Gambetti P, Appleby BS, Collinge J, Sleegers K, and Mead S

Abstract

Prions are assemblies of misfolded prion protein that cause several fatal and transmissible neurodegenerative diseases, with the most common phenotype in humans being sporadic Creutzfeldt-Jakob disease (sCJD). Aside from variation of the prion protein itself, molecular risk factors are not well understood. Prion and prion-like mechanisms are thought to underpin common neurodegenerative disorders meaning that the elucidation of mechanisms could have broad relevance. Herein we sought to further develop our understanding of the factors that confer risk of sCJD using a systematic gene prioritization and functional interpretation pipeline based on multiomic integrative analyses. We integrated the published sCJD genome-wide association study (GWAS) summary statistics with publicly available bulk brain and brain cell type gene and protein expression datasets. We performed multiple transcriptome and proteome-wide association studies (TWAS & PWAS) and Bayesian genetic colocalization analyses between sCJD risk association signals and multiple brain molecular quantitative trait loci signals. We then applied our systematic gene prioritization pipeline on the obtained results and nominated prioritized sCJD risk genes with risk-associated molecular mechanisms in a transcriptome and proteome-wide manner. Genetic upregulation of both gene and protein expression of syntaxin-6 (STX6) in the brain was associated with sCJD risk in multiple datasets, with a risk-associated gene expression regulation specific to oligodendrocytes. Similarly, increased gene and protein expression of protein disulfide isomerase family A member 4 (PDIA4), involved in the unfolded protein response, was linked to increased disease risk, particularly in excitatory neurons. Protein expression of mesencephalic astrocyte derived neurotrophic factor (MANF), involved in protection against endoplasmic reticulum stress and sulfatide binding (linking to the enzyme in the final step of sulfatide synthesis, encoded by sCJD risk gene GAL3ST1), was identified as protective against sCJD. In total 32 genes were prioritized into two tiers based on the level of evidence and confidence for further studies. This study provides insights into the genetically-associated molecular mechanisms underlying sCJD susceptibility and prioritizes several specific hypotheses for exploration beyond the prion protein itself and beyond the previously highlighted sCJD risk loci through the newly prioritized sCJD risk genes and mechanisms. These findings highlight the importance of glial cells, sulfatides and the excitatory neuron unfolded protein response in sCJD pathogenesis., (© The Author(s) 2025. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2025

15. Identification of a pathogenic mutation in ARPP21 in patients with amyotrophic lateral sclerosis.

Author

Dols-Icardo O, Carbayo Á, Jericó I, Blasco-Martínez O, Álvarez-Sánchez E, López Pérez MA, Bernal S, Rodríguez-Santiago B, Cusco I, Turon-Sans J, Cabezas-Torres M, Caballero-Ávila M, Vesperinas A, Llansó L, Pagola-Lorz I, Torné L, Valle-Tamayo N, Muñoz L, Rubio-Guerra S, Illán-Gala I, Cortés-Vicente E, Gelpi E, and Rojas-García R

Subjects

Humans, Male, Female, Middle Aged, Spain, Aged, Adult, RNA-Binding Proteins genetics, Phosphoproteins genetics, Pedigree, Whole Genome Sequencing, Amyotrophic Lateral Sclerosis genetics, Mutation, Missense

Abstract

Background and Objective: Between 5% and 10% of amyotrophic lateral sclerosis (ALS) cases have a family history of the disease, 30% of which do not have an identifiable underlying genetic cause after a comprehensive study of the known ALS-related genes. Based on a significantly increased incidence of ALS in a small geographical region from Spain, the aim of this work was to identify novel ALS-related genes in ALS cases with negative genetic testing., Methods: We detected an increased incidence of both sporadic and, especially, familial ALS cases in a small region from Spain compared with available demographic and epidemiological data. We performed whole genome sequencing in a group of 12 patients with ALS (5 of them familial) from this unique area. We expanded the study to include affected family members and additional cases from a wider surrounding region., Results: We identified a shared missense mutation (c.1586C>T; p.Pro529Leu) in the cyclic AMP regulated phosphoprotein 21 ( ARPP21) gene that encodes an RNA-binding protein, in a total of 10 patients with ALS from 7 unrelated families. No mutations were found in other ALS-causing genes., Conclusions: While previous studies have dismissed a causal role of ARPP21 in ALS, our results strongly support ARPP21 as a novel ALS-causing gene., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2025. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ Group.)

Published

2025

16. Anti-IgLON5 Disease 10 Years Later: What We Know and What We Do Not Know.

Author

Graus F, Sabater L, Gaig C, Gelpi E, Iranzo A, Dalmau JO, and Santamaria J

Subjects

Humans, Autoantibodies immunology, History, 21st Century, Cell Adhesion Molecules, Neuronal history, Cell Adhesion Molecules, Neuronal immunology, Tauopathies history, Tauopathies immunology

Abstract

Anti-IgLON5 disease was identified 10 years ago, thanks to the discovery of IgLON5 antibodies and the joint effort of specialists in sleep medicine, neuroimmunology, and neuropathology. Without this collaboration, it would have been impossible to untangle fundamental aspects of this disease. After the seminal description in 2014, today there is growing evidence that most patients present a chronic progressive course with gait instability, abnormal movements, bulbar dysfunction, and a sleep disorder characterized by nonrapid eye movement and REM parasomnias, and obstructive sleep apnea with stridor. Unlike other autoimmune encephalitides, the response to immunotherapy is suboptimal. Neuropathologic studies in patients with a prolonged clinical course showed a novel 3-repeat and 4-repeat neuronal tauopathy mainly involving the hypothalamus and tegmentum of the brainstem. The absence of tau deposits in the brain of patients who died early, the demonstration that IgLON5 antibodies cause an irreversible decrease in cell-surface levels of IgLON5, and a disorganization of the neuronal cytoskeleton suggest that the disease is primarily autoimmune and the tauopathy a secondary event. After a decade, we now know the disease much better, but important issues still need to be addressed. We have to gather more information on the natural course of the disease, develop better treatments, and identify robust predictors of outcome. More basic research is needed on the physiology of IgLON5, how antibodies disrupt its function, and the downstream effects leading to neurodegeneration. Finally, better designed passive transfer and active immunization models are needed to confirm the pathogenic effect of IgLON5 antibodies.

Published

2025

17. Biomarker-Based Approach to α-Synucleinopathies: Lessons from Neuropathology.

Author

Kovacs GG, Grinberg LT, Halliday G, Alafuzoff I, Dugger BN, Murayama S, Forrest SL, Martinez-Valbuena I, Tanaka H, Kon T, Yoshida K, Jaunmuktane Z, Spina S, Nelson PT, Gentleman S, Alegre-Abarrategui J, Serrano GE, Paes VR, Takao M, Wakabayashi K, Uchihara T, Yoshida M, Saito Y, Kofler J, Rodriguez RD, Gelpi E, Attems J, Crary JF, Seeley WW, Duda JE, Keene CD, Woulfe J, Munoz D, Smith C, Lee EB, Neumann M, White CL 3rd, McKee AC, Thal DR, Jellinger K, Ghetti B, Mackenzie IRA, Dickson DW, and Beach TG

Published

2024

18. Post-mortem neuropathology of idiopathic rapid eye movement sleep behaviour disorder: a case series.

Author

Mayà G, Iranzo A, Gaig C, Sánchez-Valle R, Serradell M, Molina-Porcel L, Santamaria J, Gelpi E, and Aldecoa I

Subjects

Humans, Female, Male, Aged, Aged, 80 and over, Middle Aged, tau Proteins metabolism, Spinal Cord pathology, Lewy Body Disease pathology, Lewy Body Disease metabolism, Polysomnography, Gliosis pathology, Parkinson Disease pathology, Amyloid beta-Peptides metabolism, REM Sleep Behavior Disorder pathology, Brain pathology, Autopsy, alpha-Synuclein metabolism

Abstract

Background: Idiopathic rapid eye movement (REM) sleep behaviour disorder (IRBD) is thought to be an early stage of α-synuclein-related neurodegenerative diseases. Nevertheless, the definitive identification of its biological substrate can be determined only by post-mortem neuropathology. We aimed to describe the post-mortem neuropathology of individuals with IRBD who developed or did not develop a neurodegenerative disease before death., Methods: In this case series at the Hospital Clinic de Barcelona, Barcelona, Spain, we examined post-mortem brain tissue and spinal cords from individuals diagnosed with IRBD by video polysomnography who became donors to the Neurological Tissue Bank between May 28, 2005, and March 23, 2023. We performed post-mortem neuropathology to assess the presence and distribution of neuronal loss, gliosis, and protein aggregates using antibodies against α-synuclein, amyloid β, phosphorylated tau, three-repeat and four-repeat tau isoforms, and TDP-43. Comparative statistical analyses were not done because of the small sample size, but differences observed across the nuclei and brain structures were described., Findings: The brains and spinal cords of 20 individuals with IRBD were examined (19 [95%] men, one [5%] woman). Their clinical antemortem diagnoses were of IRBD without any other neurological disorder in three (15%), Parkinson's disease without dementia in two (10%), Parkinson's disease dementia (PDD) in three (15%), and dementia with Lewy bodies (DLB) in 12 (60%) individuals. Post-mortem neuropathological diagnoses were Lewy body disease in 19 (95%) and multiple system atrophy (MSA) in one (5%). All participants with Lewy body disease and MSA showed neuronal loss, gliosis, and α-synuclein deposits in neurons and astrocytes. In all participants, α-synuclein was found in the structures that regulate REM sleep atonia (eg, subcoeruleus nucleus, gigantocellular reticular nucleus, laterodorsal tegmentum, and amygdala). Coexistent pathologies were found in all participants, including Alzheimer's disease pathology (amyloid β plaques and neurofibrillary tangles) in 14 (70%), ageing-related tau astrogliopathy in 12 (60%), cerebral amyloid angiopathy in 11 (55%), argyrophilic grain disease in four (20%), limbic-predominant age-related TDP-43 encephalopathy in four (20%), and early changes indicative of progressive supranuclear palsy in three (15%). In individuals with IRBD without any other neurological disorder and in those who developed Parkinson's disease without dementia, α-synuclein was found in the brainstem and limbic system and rarely in the cortex, whereas coexisting proteinopathies were few and showed mild pathological burden. In contrast, in individuals who developed PDD or DLB, α-synuclein had diffuse distribution in the brainstem, limbic system, and cortex, and multiple comorbid pathologies were common, particularly those related to Alzheimer's disease., Interpretation: Although limited by a relatively small sample size, our observations provide strong neuropathological evidence that IRBD is an early stage of α-synuclein-related neurodegenerative disease. Concomitant pathologies are frequent and their role remains to be clarified: some might have contributed to the development of dementia, but some might be age-related changes. Our findings could inform the design of clinical trials of compounds that target specific pathological proteins (eg, α-synuclein and amyloid β) in people with IRBD., Funding: Fundación BBVA-Hospital Clínic de Barcelona., Competing Interests: Declaration of interests GM declares support for attending meetings or travel from Bioproject outside the submitted work. RS-V declares consulting fees from Ionis, AviadoBio, NovoNordisk, Pfizer, and UCB, outside the submitted work; payment or honoraria for lectures, presentations, speakers bureaus, manuscript writing, or educational events from Neuraxpharma and Roche Diagnostics; support for attending meetings or travel from Esteve; and participation on a data safety monitoring board and advisory board from Wave Ph. All other authors declare no competing interests., (Copyright © 2024 Elsevier Ltd. All rights reserved, including those for text and data mining, AI training, and similar technologies.)

Published

2024

19. Association Between NK Cell Genetic Variants and the Development of Long COVID Associated- and Prepandemic Small Fiber Neuropathy.

Author

Graninger M, Endmayr V, Kühner LM, Berger SM, Rommer P, Klotz S, Gelpi E, Vietzen H, Höftberger R, and Puchhammer-Stöckl E

Subjects

Humans, Male, Middle Aged, Female, Aged, SARS-CoV-2 immunology, Adult, NK Cell Lectin-Like Receptor Subfamily C genetics, Receptors, IgG genetics, Cytomegalovirus immunology, Cytomegalovirus genetics, Genetic Variation, COVID-19 immunology, COVID-19 genetics, COVID-19 virology, Killer Cells, Natural immunology, Small Fiber Neuropathy genetics, Small Fiber Neuropathy immunology

Abstract

Long coronavirus disease 2019 (COVID) (LC) symptoms including pain and autonomic dysfunction are in some patients associated with small-fiber neuropathy (SFN). The pathomechanisms underlying SFN are mostly unclear. Natural killer (NK) cells play a crucial role in immune regulation, viral clearance and nerve metabolism. The aim of this study was to identify associations between development of small-fiber dysfunction dependent and independent of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection, and human genetic markers associated with specific NK cell functions. The genetic markers assessed in all cohorts included: FCGR3A, IGHG1, HLA-E, NKG2C, and rs9916629. Genotyping was performed using TaqMan assays, Sanger sequencing and touchdown polymerase chain reaction. We assessed human cytomegalovirus (HCMV) IgG serostatus in all participants, and screened for anti-neuronal, anti-glial and anti-ganglioside autoantibodies in both patient cohorts. We included 50 LC patients with newly-emerged symptoms of small-fiber dysfunction after SARS-CoV-2 infection, 27 prepandemic SFN patients and 320 control persons. Markers associated with low NKG2C response, that is, deletion of the NKG2C gene and lack of prior HCMV infection (IgG seronegativity), occurred significantly more frequently in prepandemic SFN patients compared to LC patients and controls (p = 0.0109 and 0.0005, respectively). In conclusion, markers of impaired NKG2C pathways are associated with prepandemic SFN, but not with Long COVID-associated small-fiber dysfunction., (© 2024 The Author(s). Journal of Medical Virology published by Wiley Periodicals LLC.)

Published

2024

20. Progressive Encephalomyelitis With Rigidity and Myoclonus With Glycine Receptor and GAD65 Antibodies: Case Report and Potential Mechanisms.

Author

Winklehner M, Wickel J, Gelpi E, Brämer D, Rauschenberger V, Günther A, Bauer J, Serra AS, Jauk P, Villmann C, Höftberger R, and Geis C

Subjects

Humans, Male, Aged, Stiff-Person Syndrome immunology, Stiff-Person Syndrome complications, Fatal Outcome, Glutamate Decarboxylase immunology, Muscle Rigidity etiology, Muscle Rigidity immunology, Autoantibodies blood, Encephalomyelitis immunology, Encephalomyelitis complications, Myoclonus etiology, Receptors, Glycine immunology

Abstract

Objectives: Progressive encephalomyelitis with rigidity and myoclonus (PERM) is a severe form of stiff-person spectrum disorder that can be associated with antibodies against surface antigens (glycine receptor (GlyR), dipeptidyl-peptidase-like-protein-6) and intracellular antigens (glutamate decarboxylase (GAD65), amphiphysin)., Methods: We report clinico-pathologic findings of a PERM patient with coexisting GlyR and GAD65 antibodies., Results: A 75-year-old man presented with myoclonus and pain of the legs, subsequently developed severe motor symptoms, hyperekplexia, a pronounced startle reflex, hallucinations, dysautonomia, and died 10 months after onset despite extensive immunotherapy, symptomatic treatment, and continuous intensive care support. Immunotherapy comprised corticosteroids, IVIG, plasmapheresis, immunoadsorption, cyclophosphamide, and bortezomib. Intensive care treatment and permanent isoflurane sedation was required for more than 20 weeks. CNS tissue revealed neuronal loss, astrogliosis and microgliosis, representing a pallido-nigro-dentato-bulbar-spinal degeneration pattern, specifically along GlyR and GAD expression sites. Neurons showed pSTAT1, MHC class I, and GRP78 upregulation. Inflammation was moderate and characterized by CD8 + T cells and single CD20 + /CD79a + B/plasma cells. Focal tau-positive thread-like deposits were detected in gliotic brainstem areas. In the spinal cord, GlyR, glycine transporter-2, and GAD67 expression were strongly reduced., Discussion: A possible potentiating effect of pathogenic GlyR antibodies together with T cells directed against neurons may have led to the severe and progressive clinical course.

Published

2024

21. "Spanish flu," encephalitis lethargica, and COVID-19: Progress made, lessons learned, and directions for future research.

Author

Brainin M, Teuschl Y, and Gelpi E

Subjects

Humans, History, 20th Century, Parkinson Disease, Postencephalitic history, Parkinson Disease, Postencephalitic therapy, Parkinson Disease, Postencephalitic epidemiology, Influenza, Human epidemiology, Influenza, Human history, Influenza, Human prevention & control, Influenza, Human therapy, Pandemics, COVID-19 epidemiology

Abstract

One hundred years ago, an influenza pandemic swept across the globe that coincided with the development of a neurological condition, named "encephalitis lethargica" for the occurrence of its main symptom, the sudden onset of sleepiness that either developed into coma or gradually receded. Between 1917 and 1920, mortality of the flu was >20 million and of encephalitis lethargica approximately 1 million. For lessons to be learned from this pandemic, it makes sense to compare it with the COVID-19 pandemic, which occurred 100 years later. Biomedical progress had enabled testing, vaccinations, and drug therapies accompanied by public health measures such as social distancing, contact tracing, wearing face masks, and frequent hand washing. From todays' perspective, these public health measures are time honored but not sufficiently proven effective, especially when applied in the context of a vaccination strategy. Also, the protective effects of lockdowns of schools, universities, and other institutions and the restrictions on travel and personal visits to hospitals or old-age homes are not precisely known. Preparedness is still a demand for a future pandemic. Clinical trials should determine the comparative effectiveness of such public health measures, especially for their use as a combination strategy with vaccination and individual testing of asymptomatic individuals. It is important for neurologists to realize that during a pandemic the treatment possibilities for acute stroke and other neurological emergencies are reduced, which has previously led to an increase of mortality and suffering. To increase preparedness for a future pandemic, neurologists play an important role, as the case load of acute and chronic neurological patients will be higher as well as the needs for rehabilitation. Finally, new chronic forms of postviral disease will likely be added, as was the case for postencephalitic parkinsonism a century ago and now has occurred as long COVID., (© 2024 The Authors. European Journal of Neurology published by John Wiley & Sons Ltd on behalf of European Academy of Neurology.)

Published

2024

22. Neuropathological spectrum of anti-IgLON5 disease and stages of brainstem tau pathology: updated neuropathological research criteria of the disease-related tauopathy.

Author

Gelpi E, Reinecke R, Gaig C, Iranzo A, Sabater L, Molina-Porcel L, Aldecoa I, Endmayr V, Högl B, Schmutzhard E, Poewe W, Pfausler B, Popovic M, Pretnar-Oblak J, Leypoldt F, Matschke J, Glatzel M, Erro EM, Jerico I, Caballero MC, Zelaya MV, Mariotto S, Heidbreder A, Kalev O, Weis S, Macher S, Berger-Sieczkowski E, Ferrari J, Reisinger C, Klupp N, Tienari P, Rautila O, Niemelä M, Yilmazer-Hanke D, Guasp M, Bloem B, Van Gaalen J, Kusters B, Titulaer M, Fransen NL, Santamaria J, Dawson T, Holton JL, Ling H, Revesz T, Myllykangas L, Budka H, Kovacs GG, Lewerenz J, Dalmau J, Graus F, Koneczny I, and Höftberger R

Subjects

Humans, Middle Aged, Male, Female, Aged, Aged, 80 and over, Adult, Autoantibodies immunology, DNA-Binding Proteins metabolism, Tauopathies pathology, Tauopathies immunology, Brain Stem pathology, Brain Stem metabolism, Brain Stem immunology, tau Proteins metabolism, tau Proteins immunology, Cell Adhesion Molecules, Neuronal metabolism, Cell Adhesion Molecules, Neuronal immunology

Abstract

Anti-IgLON5 disease is a unique condition that bridges autoimmunity and neurodegeneration. Since its initial description 10 years ago, an increasing number of autopsies has led to the observation of a broader spectrum of neuropathologies underlying a particular constellation of clinical symptoms. In this study, we describe the neuropathological findings in 22 patients with anti-IgLON5 disease from 9 different European centers. In 15 patients (68%), we observed a hypothalamic and brainstem-predominant tauopathy of varying severity in which the original research neuropathological criteria were readily applicable. This pathology was observed in younger patients (median age at onset 61 years) with a long disease duration (median 9 years). In contrast, in 7 (32%) patients, the originally described brainstem tauopathy was nearly absent or only minimal in the form of delicate threads, despite mild-to-moderate neurodegenerative features, consistent clinical symptoms and the presence of anti-IgLON5 antibodies in CSF and serum. These patients were older at onset (median 79 years) and had shorter disease duration (median < 1 year). Overall, about one-third of the patients showed concomitant TDP-43 pathology within the regions affected by tau pathology and/or neurodegeneration. Based on these observations and in view of the spectrum of the tau burden in the core regions involved in the disease, we propose a simple staging system: stage 1 mild neurodegeneration without overt or only minimal tau pathology, stage 2 moderate neurodegeneration and mild/ moderate tauopathy and stage 3 prominent neurodegeneration and tau pathology. This staging intends to reflect a potential (age- and time-dependent) progression of tau pathology, supporting the current notion that tau accumulation is a secondary phenomenon related to the presence of anti-IgLON5 antibodies in the CNS. Finally, we adapt the original research criteria of the anti-IgLON5 disease-related tauopathy to include the spectrum of pathologies observed in this larger postmortem series., (© 2024. The Author(s).)

Published

2024

23. Striking intraneuronal neurofilament inclusions restricted to the locus coeruleus in a patient with Creutzfeldt-Jakob disease.

Author

Leitner F, Klotz S, Ornig K, Weis S, and Gelpi E

Abstract

Competing Interests: The authors declare that they have no conflicts of interest directly related to the topic of this article.

Published

2024

24. Glucose-1,6-bisphosphate: A new gatekeeper of cerebral mitochondrial pyruvate uptake.

Author

Safari MS, Woerl P, Garmsiri C, Weber D, Kwiatkowski M, Hotze M, Kuenkel L, Lang L, Erlacher M, Gelpi E, Hainfellner JA, Baier G, Baier-Bitterlich G, and Zur Nedden S

Subjects

Animals, Humans, Male, Mice, Glucose metabolism, Glucose-6-Phosphate metabolism, Glycolysis, HEK293 Cells, Mice, Inbred C57BL, Mitochondrial Membrane Transport Proteins metabolism, Mitochondrial Membrane Transport Proteins genetics, Pyruvic Acid metabolism, Female, Brain metabolism, Mitochondria metabolism, Neurons metabolism

Abstract

Objective: Glucose-1,6-bisphosphate (G-1,6-BP), a byproduct of glycolysis that is synthesized by phosphoglucomutase 2 like 1 (PGM2L1), is particularly abundant in neurons. G-1,6-BP is sensitive to the glycolytic flux, due to its dependence on 1,3-bisphosphoglycerate as phosphate donor, and the energy state, due to its degradation by inosine monophosphate-activated phosphomannomutase 1. Since the exact role of this metabolite remains unclear, our aim was to elucidate the specific function of G-1,6-BP in the brain., Methods: The effect of PGM2L1 on neuronal post-ischemic viability was assessed by siRNA-mediated knockdown of PGM2L1 in primary mouse neurons. Acute mouse brain slices were used to correlate the reduction in G-1,6-BP upon ischemia to changes in carbon metabolism by 13 C 6 -glucose tracing. A drug affinity responsive target stability assay was used to test if G-1,6-BP interacts with the mitochondrial pyruvate carrier (MPC) subunits in mouse brain protein extracts. Human embryonic kidney cells expressing a MPC bioluminescence resonance energy transfer sensor were used to analyze how PGM2L1 overexpression affects MPC activity. The effect of G-1,6-BP on mitochondrial pyruvate uptake and oxygen consumption rates was analyzed in isolated mouse brain mitochondria. PGM2L1 and a predicted upstream kinase were overexpressed in a human neuroblastoma cell line and G-1,6-BP levels were measured., Results: We found that G-1,6-BP in mouse brain slices was quickly degraded upon ischemia and reperfusion. Knockdown of PGM2L1 in mouse neurons reduced post-ischemic viability, indicating that PGM2L1 plays a neuroprotective role. The reduction in G-1,6-BP upon ischemia was not accompanied by alterations in glycolytic rates but we did see a reduced 13 C 6 -glucose incorporation into citrate, suggesting a potential role in mitochondrial pyruvate uptake or metabolism. Indeed, G-1,6-BP interacted with both MPC subunits and overexpression of PGM2L1 increased MPC activity. G-1,6-BP, at concentrations found in the brain, enhanced mitochondrial pyruvate uptake and pyruvate-induced oxygen consumption rates. Overexpression of a predicted upstream kinase inhibited PGM2L1 activity, showing that besides metabolism, also signaling pathways can regulate G-1,6-BP levels., Conclusions: We provide evidence that G-1,6-BP positively regulates mitochondrial pyruvate uptake and post-ischemic neuronal viability. These compelling data reveal a novel mechanism by which neurons can couple glycolysis-derived pyruvate to the tricarboxylic acid cycle. This process is sensitive to the glycolytic flux, the cell's energetic state, and upstream signaling cascades, offering many regulatory means to fine-tune this critical metabolic step., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published

2024

25. Synthetic MRI and MR Fingerprinting-Derived Relaxometry of Antenatal Human Brainstem Myelination: A Postmortem-Based Quantitative Imaging Study.

Author

Schmidbauer VU, Houech IM, Malik J, Watzenboeck ML, Mittermaier R, Kienast P, Haberl C, Pogledic I, Mitter C, Dovjak GO, Krauskopf A, Prayer F, Stuempflen M, Dorittke T, Gantner NA, Binder J, Bettelheim D, Kiss H, Haberler C, Gelpi E, Prayer D, and Kasprian G

Subjects

Humans, Female, Male, Retrospective Studies, Brain Stem diagnostic imaging, Gestational Age, Autopsy methods, Pregnancy, Magnetic Resonance Imaging methods, Myelin Sheath

Abstract

Background and Purpose: The radiologic evaluation of ongoing myelination is currently limited prenatally. Novel quantitative MR imaging modalities provide relaxometric properties that are linked to myelinogenesis. In this retrospective postmortem imaging study, the capability of Synthetic MR imaging and MR fingerprinting-derived relaxometry for tracking fetal myelin development was investigated. Moreover, the consistency of results for both MR approaches was analyzed., Materials and Methods: In 26 cases, quantitative postmortem fetal brain MR data were available (gestational age range, 15 + 1 to 32 + 1; female/male ratio, 14/12). Relaxometric measurements (T1-/T2-relexation times) were determined in the medulla oblongata and the midbrain using Synthetic MR imaging/MR fingerprinting-specific postprocessing procedures (Synthetic MR imaging and MR Robust Quantitative Tool for MR fingerprinting). The Pearson correlations were applied to detect relationships between T1-relaxation times/T2-relaxation times metrics and gestational age at MR imaging. Intraclass correlation coefficients were calculated to assess the consistency of the results provided by both modalities., Results: Both modalities provided quantitative data that revealed negative correlations with gestational age at MR imaging: Synthetic MR imaging-derived relaxation times (medulla oblongata [ r = -0.459; P  = .021]; midbrain [ r = -0.413; P  = .040]), T2-relaxation times (medulla oblongata [ r = -0.625; P  < .001]; midbrain [ r = -0.571; P  = .003]), and MR fingerprinting-derived T1-relaxation times (medulla oblongata [ r = -0.433; P  = .035]; midbrain [ r = -0.386; P  = .062]), and T2-relaxation times (medulla oblongata [ r =-0.883; P  < .001]; midbrain [ r = -0.890; P  < .001]).The intraclass correlation coefficient analysis for result consistency between both MR approaches ranged between 0.661 (95% CI, 0.351-0.841) (T2-relaxation times: medulla oblongata) and 0.920 (95% CI, 0.82-0.965) (T1-relaxation times: midbrain)., Conclusions: There is a good-to-excellent consistency between postmortem Synthetic MR imaging and MR fingerprinting myelin quantifications in fetal brains older than 15 + 1 gestational age. The strong correlations between quantitative myelin metrics and gestational age indicate the potential of quantitative MR imaging to identify delayed or abnormal states of myelination at prenatal stages of cerebral development., (© 2024 by American Journal of Neuroradiology.)

Published

2024

26. Real-world performance of plasma p-tau181 in a heterogeneous memory clinic cohort.

Author

Parvizi T, Wurm R, König T, Silvaieh S, Altmann P, Klotz S, Regelsberger G, Traub-Weidinger T, Gelpi E, and Stögmann E

Subjects

Humans, Male, Female, Aged, Cross-Sectional Studies, Retrospective Studies, Middle Aged, Aged, 80 and over, Cohort Studies, tau Proteins blood, tau Proteins cerebrospinal fluid, Alzheimer Disease blood, Alzheimer Disease diagnosis, Cognitive Dysfunction blood, Cognitive Dysfunction diagnosis, Biomarkers blood, Amyloid beta-Peptides blood

Abstract

Objective: In light of clinical trials and disease-modifying therapies, an early identification of patients at-risk of developing Alzheimer's disease (AD) is crucial. Blood-based biomarkers have shown promising results regarding the in vivo detection of the earliest neuropathological changes in AD. Herein, we investigated the ability of plasma p-tau181 to act as a prescreening marker for amyloid positivity in a heterogeneous memory clinic-based cohort., Methods: In this retrospective cross-sectional study, we included a total of 115 patients along the clinical AD continuum (mild cognitive impairment [MCI] due to AD, n = 62, probable AD dementia, n = 53). Based on their biomarker status, they were stratified into an amyloid-positive (Aβ+, n = 88) or amyloid-negative cohort (Aβ-, n = 27). Plasma and CSF p-tau181 concentrations were quantified using an ultrasensitive single-molecule array (SIMOA©). Furthermore, age- and sex-adjusted receiver operating characteristic (ROC) curves were calculated and the area under the curve (AUC) of each model was compared using DeLong's test for correlated AUC curves., Results: The median (interquartile range [IQR]) concentration of plasma p-tau181 was significantly higher in Aβ+ patients (3.6 pg/mL [2.5-4.6]), compared with Aβ- patients (1.7 pg/mL [1.2-1.9], p < 0.001). Regarding the distinction between Aβ+ and Aβ- patients and the prediction of amyloid positivity, a high diagnostic accuracy for plasma p-tau181 with an AUC of 0.89 (95% CI = 0.82-0.95) was calculated. Adding the risk factors, age and APOE4, to the model did not significantly improve its performance., Interpretation: Our findings demonstrate that plasma p-tau181 could be a noninvasive and feasible prescreening marker for amyloid positivity in a heterogeneous clinical AD cohort and therefore help in identifying those who would benefit from more invasive assessment of amyloid pathology., (© 2024 The Author(s). Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published

2024

27. Genome wide association study of clinical duration and age at onset of sporadic CJD.

Author

Hummerich H, Speedy H, Campbell T, Darwent L, Hill E, Collins S, Stehmann C, Kovacs GG, Geschwind MD, Frontzek K, Budka H, Gelpi E, Aguzzi A, van der Lee SJ, van Duijn CM, Liberski PP, Calero M, Sanchez-Juan P, Bouaziz-Amar E, Laplanche JL, Haïk S, Brandel JP, Mammana A, Capellari S, Poleggi A, Ladogana A, Pocchiari M, Zafar S, Booth S, Jansen GH, Areškevičiūtė A, Løbner Lund E, Glisic K, Parchi P, Hermann P, Zerr I, Appleby BS, Safar J, Gambetti P, Collinge J, and Mead S

Subjects

Humans, Aged, Middle Aged, Female, Male, Phenotype, Genotype, Creutzfeldt-Jakob Syndrome genetics, Creutzfeldt-Jakob Syndrome pathology, Age of Onset, Genome-Wide Association Study, Polymorphism, Single Nucleotide

Abstract

Human prion diseases are rare, transmissible and often rapidly progressive dementias. The most common type, sporadic Creutzfeldt-Jakob disease (sCJD), is highly variable in clinical duration and age at onset. Genetic determinants of late onset or slower progression might suggest new targets for research and therapeutics. We assembled and array genotyped sCJD cases diagnosed in life or at autopsy. Clinical duration (median:4, interquartile range (IQR):2.5-9 (months)) was available in 3,773 and age at onset (median:67, IQR:61-73 (years)) in 3,767 cases. Phenotypes were successfully transformed to approximate normal distributions allowing genome-wide analysis without statistical inflation. 53 SNPs achieved genome-wide significance for the clinical duration phenotype; all of which were located at chromosome 20 (top SNP rs1799990, pvalue = 3.45x10-36, beta = 0.34 for an additive model; rs1799990, pvalue = 9.92x10-67, beta = 0.84 for a heterozygous model). Fine mapping, conditional and expression analysis suggests that the well-known non-synonymous variant at codon 129 is the obvious outstanding genome-wide determinant of clinical duration. Pathway analysis and suggestive loci are described. No genome-wide significant SNP determinants of age at onset were found, but the HS6ST3 gene was significant (pvalue = 1.93 x 10-6) in a gene-based test. We found no evidence of genome-wide genetic correlation between case-control (disease risk factors) and case-only (determinants of phenotypes) studies. Relative to other common genetic variants, PRNP codon 129 is by far the outstanding modifier of CJD survival suggesting only modest or rare variant effects at other genetic loci., Competing Interests: Stéphane Haik reports grants from Santé Publique France, during the conduct of the study; grants from LFB Biomedicaments, grants from Institut de Recherche Servier, grants from MedDay Pharmaceuticals, outside the submitted work; In addition, Stéphane Haik has a patent Method for treating prion diseases (PCT/EP2019/070457) pending. Brian Appleby has received funding from CDC, NIH, CJD Foundation, Alector, and Ionis. He has served as a consultant for Ionis, Sangamo, and Gate Biosciences. He has received royalties from Wolter Kluwers. Karl Fronztek reports grants from Ono Pharmaceuticals outside the submitted work. Simon Mead reports grants from Medical Research Council (UK) and grants from National Institute of Health Research’s Biomedical Research Centre at University College London Hospitals NHS Foundation Trust during the conduct of the study. Gabor G Kovacs reports personal fees from Biogen, outside the submitted work. John Collinge reports grants from Medical Research Council, grants from NIHR UCLH Biomedical Research Centre, during the conduct of the study; and is a Director and shareholder of D-Gen Limited, an academic spinout in the field of prion disease diagnostics, decontamination and therapeutics. Inga Zerr reports grants from the Bundesministerium für Gesundheit via Robert Koch institute, JPND and personal fees (not related to the content of the manuscript) from Ferring Pharmaceuticals and IONIS, speaking honoraria for medical lectures from Lilly, Biogen, Medfora, DGLN (German Society for cerebrospinal fluid diagnostics in Neurology). Maurizio Pocchiari reports personal fees from Ferring Pharmaceuticals, personal fees from CNCCS (Collection of National Chemical Compounds and Screening Center), non-financial support from Fondazione Cellule Staminali, outside the submitted work. Michael D Geschwind has consulted for3D Communications, Adept Field Consulting, Advanced Medical Inc., Best Doctors Inc., Second Opinion Inc., Gerson Lehrman Group Inc., Guidepoint Global LLC, InThought Consulting Inc., Market Plus, Trinity Partners LLC, Biohaven Pharmaceuticals, Quest Diagnostics and various medical-legal consulting. He has received speaking honoraria for various medical center lectures and from Oakstone publishing. He has received past research support from Alliance Biosecure, CurePSP, the Tau Consortium, and Quest Diagnostics. Michael D Geschwind serves on the board of directors for San Francisco Bay Area Physicians for Social Responsibility and on the editorial board of Dementia & Neuropsychologia., (Copyright: © 2024 Hummerich et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

28. Clinicopathological correlates in the frontotemporal lobar degeneration-motor neuron disease spectrum.

Author

Carbayo Á, Borrego-Écija S, Turon-Sans J, Cortés-Vicente E, Molina-Porcel L, Gascón-Bayarri J, Rubio MÁ, Povedano M, Gámez J, Sotoca J, Juntas-Morales R, Almendrote M, Marquié M, Sánchez-Valle R, Illán-Gala I, Dols-Icardo O, Rubio-Guerra S, Bernal S, Caballero-Ávila M, Vesperinas A, Gelpi E, and Rojas-García R

Subjects

Humans, Male, Female, Aged, Middle Aged, Retrospective Studies, Amyotrophic Lateral Sclerosis pathology, Amyotrophic Lateral Sclerosis genetics, Frontotemporal Dementia pathology, Frontotemporal Dementia genetics, Brain pathology, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Frontotemporal Lobar Degeneration pathology, Frontotemporal Lobar Degeneration genetics, Motor Neuron Disease pathology, Motor Neuron Disease genetics

Abstract

Amyotrophic lateral sclerosis (ALS) is a devastating motor neuron disease (MND) that shares a common clinical, genetic and pathologic spectrum with frontotemporal dementia (FTD). It is highly heterogeneous in its presentation and features. Up to 50% of patients with MND develop cognitive-behavioural symptoms during the course of the disease, meeting criteria for FTD in 10%-15% of cases. In the absence of a precise biomarker, neuropathology is still a valuable tool to understand disease nosology, reach a definite diagnostic confirmation and help define specific subgroups of patients with common phenotypic, genetic and biomarker profiles. However, few neuropathological series have been published, and the frequency of frontotemporal lobar degeneration (FTLD) in MND is difficult to estimate. In this work we describe a large clinicopathological series of MND patients, analysing the frequency of concurrent FTLD changes and trying to define specific subgroups of patients based on their clinical, genetic and pathological characteristics. We performed an observational, retrospective, multicentre case study. We included all cases meeting neuropathological criteria for MND from the Neurological Tissue Bank of the FRCB-IDIBAPS-Hospital Clínic Barcelona Biobank between 1994 and 2022, regardless of their last clinical diagnosis. While brain donation is encouraged in all patients, it is performed in very few, and representativeness of the cohort might not be precise for all patients with MND. We retrospectively reviewed clinical and neuropathological data and describe the main clinical, genetic and pathogenic features, comparing neuropathologic groups between MND with and without FTLD changes and aiming to define specific subgroups. We included brain samples from 124 patients, 44 of whom (35.5%) had FTLD neuropathologic features (i.e. FTLD-MND). Pathologic TDP-43 aggregates were present in 93.6% of the cohort and were more extensive (higher Brettschneider stage) in those with concurrent FTLD (P < 0.001). Motor symptom onset was more frequent in the bulbar region in FTLD-MND cases than in those with isolated MND (P = 0.023), with no differences in survival. We observed a better clinicopathological correlation in the MND group than in the FTLD-MND group (93.8% versus 61.4%; P < 0.001). Pathogenic genetic variants were more common in the FTLD-MND group, especially C9orf72. We describe a frequency of FTLD of 35.5% in our series of neuropathologically confirmed cases of MND. The FTLD-MND spectrum is highly heterogeneous in all aspects, especially in patients with FTLD, in whom it is particularly difficult to define specific subgroups. In the absence of definite biomarkers, neuropathology remains a valuable tool for a definite diagnosis, increasing our knowledge in disease nosology., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2024

29. Which parameters influence cognitive, psychiatric and long-term seizure outcome in mesial temporal lobe epilepsy after selective amygdalohippocampectomy?

Author

Jud J, Stefanits H, Gelpi E, Quinot V, Aull-Watschinger S, Czech T, Dorfer C, Rössler K, Baumgartner C, Kasprian G, Watschinger C, Moser D, Brugger J, and Pataraia E

Subjects

Humans, Female, Male, Adult, Middle Aged, Young Adult, Sclerosis surgery, Drug Resistant Epilepsy surgery, Treatment Outcome, Follow-Up Studies, Seizures surgery, Seizures etiology, Neurosurgical Procedures adverse effects, Retrospective Studies, Epilepsy, Temporal Lobe surgery, Hippocampus surgery, Amygdala surgery

Abstract

Background: We aimed to analyze potentially prognostic factors which could have influence on postoperative seizure, neuropsychological and psychiatric outcome in a cohort of patients with mesial temporal lobe epilepsy (MTLE) due to hippocampal sclerosis (HS) after selective amygdalohippocampectomy (SAHE) via transsylvian approach., Methods: Clinical variables of 171 patients with drug-resistant MTLE with HS (88 females) who underwent SAHE between 1994 and 2019 were evaluated using univariable and multivariable logistic regression models, to investigate which of the explanatory parameters can best predict the outcome., Results: At the last available follow-up visit 12.3 ± 6.3 years after surgery 114 patients (67.9%) were seizure-free. Left hemispheric MTLE was associated with worse postoperative seizure outcome at first year after surgery (OR = 0.54, p = 0.01), female sex-with seizure recurrence at years 2 (OR = 0.52, p = 0.01) and 5 (OR = 0.53, p = 0.025) and higher number of preoperative antiseizure medication trials-with seizure recurrence at year 2 (OR = 0.77, p = 0.0064), whereas patients without history of traumatic brain injury had better postoperative seizure outcome at first year (OR = 2.08, p = 0.0091). All predictors lost their predictive value in long-term course. HS types had no prognostic influence on outcome. Patients operated on right side performed better in verbal memory compared to left (VLMT 1-5 p < 0.001, VLMT 7 p = 0.001). Depression occurred less frequently in seizure-free patients compared to non-seizure-free patients (BDI-II Z = - 2.341, p = 0.019)., Conclusions: SAHE gives an improved chance of achieving good postoperative seizure, psychiatric and neuropsychological outcome in patients with in MTLE due to HS. Predictors of short-term outcome don't predict long-term outcome., (© 2024. The Author(s).)

Published

2024

30. Tau fibrils evade autophagy by excessive p62 coating and TAX1BP1 exclusion.

Author

Ferrari L, Bauer B, Qiu Y, Schuschnig M, Klotz S, Anrather D, Juretschke T, Beli P, Gelpi E, and Martens S

Subjects

Humans, Alzheimer Disease metabolism, Alzheimer Disease pathology, Protein Binding, Protein Aggregates, Intracellular Signaling Peptides and Proteins metabolism, Ubiquitin metabolism, Neoplasm Proteins, Autophagy, tau Proteins metabolism, tau Proteins chemistry, Ubiquitination, Sequestosome-1 Protein metabolism

Abstract

The accumulation of protein aggregates is a hallmark of many diseases, including Alzheimer's disease. As a major pillar of the proteostasis network, autophagy mediates the degradation of protein aggregates. The autophagy cargo receptor p62 recognizes ubiquitin on proteins and cooperates with TAX1BP1 to recruit the autophagy machinery. Paradoxically, protein aggregates are not degraded in various diseases despite p62 association. Here, we reconstituted the recognition by the autophagy receptors of physiological and pathological Tau forms. Monomeric Tau recruits p62 and TAX1BP1 via the sequential actions of the chaperone and ubiquitylation machineries. In contrast, Tau fibrils from Alzheimer's disease brains are recognized by p62 but fail to recruit TAX1BP1. This failure is due to the masking of fibrils ubiquitin moieties by p62. Tau fibrils are resistant to deubiquitylation, and, thus, this nonproductive interaction of p62 with the fibrils is irreversible. Our results shed light on the mechanism underlying autophagy evasion by protein aggregates and their consequent accumulation in disease.

Published

2024

31. Clinical heterogeneity within the ALS-FTD spectrum in a family with a homozygous optineurin mutation.

Author

Parvizi T, Klotz S, Keritam O, Caliskan H, Imhof S, König T, Haider L, Traub-Weidinger T, Wagner M, Brunet T, Brugger M, Zimprich A, Rath J, Stögmann E, Gelpi E, and Cetin H

Subjects

Humans, Male, Adult, Female, Pedigree, Transcription Factor TFIIIA genetics, Siblings, Frameshift Mutation, Homozygote, Amyotrophic Lateral Sclerosis genetics, Amyotrophic Lateral Sclerosis pathology, Amyotrophic Lateral Sclerosis physiopathology, Amyotrophic Lateral Sclerosis diagnosis, Membrane Transport Proteins genetics, Cell Cycle Proteins genetics, Frontotemporal Dementia genetics, Frontotemporal Dementia pathology, Frontotemporal Dementia physiopathology

Abstract

Objective: Mutations in the gene encoding for optineurin (OPTN) have been reported in the context of different neurodegenerative diseases including the amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) spectrum. Based on single case reports, neuropathological data in OPTN mutation carriers have revealed transactive response DNA-binding protein 43 kDa (TDP-43) pathology, in addition to accumulations of tau and alpha-synuclein. Herein, we present two siblings from a consanguineous family with a homozygous frameshift mutation in the OPTN gene and different clinical presentations., Methods: Both affected siblings underwent (i) clinical, (ii) neurophysiological, (iii) neuropsychological, (iv) radiological, and (v) laboratory examinations, and (vi) whole-exome sequencing (WES). Postmortem histopathological examination was conducted in the index patient, who deceased at the age of 41., Results: The index patient developed rapidly progressing clinical features of upper and lower motor neuron dysfunction as well as apathy and cognitive deterioration at the age of 41. Autopsy revealed an ALS-FTLD pattern associated with prominent neuronal and oligodendroglial TDP-43 pathology, and an atypical limbic 4-repeat tau pathology reminiscent of argyrophilic grain disease. The brother of the index patient exhibited behavioral changes and mnestic deficits at the age of 38 and was diagnosed with behavioral FTD 5 years later, without any evidence of motor neuron dysfunction. WES revealed a homozygous frameshift mutation in the OPTN gene in both siblings (NM&#95;001008212.2: c.1078&#95;1079del; p.Lys360ValfsTer18)., Interpretation: OPTN mutations can be associated with extensive TDP-43 pathology and limbic-predominant tauopathy and present with a heterogeneous clinical phenotype within the ALS-FTD spectrum within the same family., (© 2024 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published

2024

32. Impact of muscle biopsy on the clinical decision-making process in patients with suspected idiopathic inflammatory myopathy.

Author

Kastrati K, Nakhost Lotfi N, Tawfik MG, Gelpi E, Hametner S, Höftberger R, Zimprich F, Cetin H, Lindeck-Pozza E, Heil PM, Kiener HP, Heinz LX, Mrak D, Aletaha D, Bonelli M, and Radner H

Subjects

Adult, Humans, Retrospective Studies, Biopsy, Clinical Decision-Making, Autoantibodies, Muscles, Myositis diagnosis, Myositis pathology

Abstract

Background: The significance of muscle biopsy as a diagnostic tool in idiopathic inflammatory myopathies (IIM) remains elusive. We aimed to determine the diagnostic weight that has been given to muscle biopsy in patients with suspected IIM, particularly in terms of clinical diagnosis and therapeutic decisions., Material and Methods: In this retrospective multicentric study, we analyzed muscle biopsy results of adult patients with suspected IIM referred to a tertiary center between January 1, 2007, and October 31, 2021. Information regarding referral department, suspected diagnosis, biopsy site, demographic, clinical, laboratory data, and imaging results were extracted. Statistical analyses included the level of agreement between suspected and histological diagnosis and calculation of diagnostic performance (positive and negative predictive values, positive and negative likelihood ratios, sensitivity, and specificity of muscle biopsy in relation to clinical diagnosis and/or treatment initiation). Performance was tested in different strata based on clinical pre-test probability., Results: Among 758 muscle biopsies, IIM was histologically compatible in 357/758 (47.1%) cases. Proportion of IIM was higher if there was a solid clinical pre-test probability (64.3% vs. 42.4% vs. 48% for high, medium and low pre-test probability). Sensitivity and specificity of muscle biopsy were highest (82%) when the diagnosis by the clinician was used as outcome scenario. Negative predictive value was only moderate (between 63% and 80%) and lowest if autoantibodies were positive (35%)., Conclusion: In patients with clinically suspected IIM, approximately 50% of biopsies revealed features indicative of IIM. Diagnostic performance of muscle biopsy was moderate to high depending on clinical pre-test probability., Competing Interests: Declaration of competing interest KK reports honoraria for lectures and presentations from UCB Pharma, Boehringer Ingelheim, Eli Lilly and AbbVie; support for attending meetings and/or travel: AbbVie, AstraZeneca and Bristol-Myers Squibb. DM reports support for meeting attendances from Pfizer and personal fees from AstraZeneca. DA received grants, speaker fees, or consultancy fees from Abbvie, Gilead, Galapagos, Eli Lilly, Janssen, Merck, Novartis, Pfizer, Sandoz, and Sanofi. MB received grants from GSK. HR reports honoraria for lectures and presentations from Gilead, Merck and Pfizer; support for attending meetings and/or travel from Janssen. NNL, MGT, EG, SH, RH, FZ, HC, ELP, PMH, HPK and LXH have no financial relationship to disclose., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

33. New insights into neuropathology and pathogenesis of autoimmune glial fibrillary acidic protein meningoencephalomyelitis.

Author

Guo Y, Endmayr V, Zekeridou A, McKeon A, Leypoldt F, Hess K, Kalinowska-Lyszczarz A, Klang A, Pakozdy A, Höftberger E, Hametner S, Haider C, De Simoni D, Peters S, Gelpi E, Röcken C, Oberndorfer S, Lassmann H, Lucchinetti CF, and Höftberger R

Subjects

Humans, Animals, Dogs, Glial Fibrillary Acidic Protein metabolism, Astrocytes pathology, Autoantibodies, Encephalomyelitis pathology, Autoimmune Diseases of the Nervous System cerebrospinal fluid, Autoimmune Diseases of the Nervous System therapy, Meningoencephalitis cerebrospinal fluid, Meningoencephalitis pathology

Abstract

Anti-glial fibrillary acidic protein (GFAP) meningoencephalomyelitis (autoimmune GFAP astrocytopathy) is a new autoimmune central nervous system (CNS) disease diagnosable by the presence of anti-GFAP autoantibodies in the cerebrospinal fluid and presents as meningoencephalomyelitis in the majority of patients. Only few neuropathological reports are available and little is known about the pathogenic mechanisms. We performed a histopathological study of two autopsies and nine CNS biopsies of patients with anti-GFAP autoantibodies and found predominantly a lymphocytic and in one autopsy case a granulomatous inflammatory phenotype. Inflammatory infiltrates were composed of B and T cells, including tissue-resident memory T cells. Although obvious astrocytic damage was absent in the GFAP-staining, we found cytotoxic T cell-mediated reactions reflected by the presence of CD8 + /perforin + /granzyme A/B + cells, polarized towards astrocytes. MHC-class-I was upregulated in reactive astrocytes of all biopsies and two autopsies but not in healthy controls. Importantly, we observed a prominent immunoreactivity of astrocytes with the complement factor C4d. Finally, we provided insight into an early phase of GFAP autoimmunity in an autopsy of a pug dog encephalitis that was characterized by marked meningoencephalitis with selective astrocytic damage with loss of GFAP and AQP4 in the lesions.Our histopathological findings indicate that a cytotoxic T cell-mediated immune reaction is present in GFAP autoimmunity. Complement C4d deposition on astrocytes could either represent the cause or consequence of astrocytic reactivity. Selective astrocytic damage is prominent in the early phase of GFAP autoimmunity in a canine autopsy case, but mild or absent in subacute and chronic stages in human disease, probably due to the high regeneration potential of astrocytes. The lymphocytic and granulomatous phenotypes might reflect different stages of lesion development or patient-specific modifications of the immune response. Future studies will be necessary to investigate possible implications of pathological subtypes for clinical disease course and therapeutic strategies., (© 2024. The Author(s).)

Published

2024

34. Letter to the editor on: Hornerin deposits in neuronal intranuclear inclusion disease: direct identification of proteins with compositionally biased regions in inclusions by Park et al. (2022).

Author

Luo H, Gustavsson EK, Macpherson H, Dominik N, Zhelcheska K, Montgomery K, Anderson C, Yau WY, Efthymiou S, Turner C, DeTure M, Dickson DW, Josephs KA, Revesz T, Lashley T, Halliday G, Rowe DB, McCann E, Blair I, Lees AJ, Tienari PJ, Suomalainen A, Molina-Porcel L, Kovacs GG, Gelpi E, Hardy J, Haltia MJ, Tucci A, Jaunmuktane Z, Ryten M, Houlden H, and Chen Z

Subjects

Humans, Intranuclear Inclusion Bodies metabolism, Neurodegenerative Diseases metabolism

Published

2024

35. Analysis of inflammatory markers and tau deposits in an autopsy series of nine patients with anti-IgLON5 disease.

Author

Berger-Sieczkowski E, Endmayr V, Haider C, Ricken G, Jauk P, Macher S, Pirker W, Högl B, Heidbreder A, Schnider P, Bradley-Zechmeister E, Mariotto S, Koneczny I, Reinecke R, Kasprian G, Weber C, Bergmann M, Milenkovic I, Berger T, Gaig C, Sabater L, Graus F, Gelpi E, and Höftberger R

Subjects

Aged, Female, Humans, Male, Autopsy, Immunoglobulin G, Cell Adhesion Molecules, Neuronal, Encephalitis pathology, Hashimoto Disease pathology, tau Proteins analysis

Abstract

Anti-IgLON5 disease is a rare neurological, probably autoimmune, disorder associated in many cases with a specific tauopathy. Only a few post-mortem neuropathological studies have been reported so far. Little is known about the pathogenic mechanisms that result in neurodegeneration. We investigated the neuropathology of anti-IgLON5 disease and characterized cellular and humoral inflammation. We included nine cases (six of them previously published). Median age of patients was 71 years (53-82 years), the median disease duration was 6 years (0.5-13 years), and the female to male ratio was 5:4. Six cases with a median disease duration of 9 years presented a prominent tauopathy. Five of them had a classical anti-IgLON5-related brainstem tauopathy and another presented a prominent neuronal and glial 4-repeat tauopathy, consistent with progressive supranuclear palsy (PSP). Three cases with short disease duration (median 1.25 years) only showed a primary age-related neurofibrillary pathology. Inflammatory infiltrates of T and B cells were mild to moderate and did not significantly differ between anti-IgLON5 disease cases with or without tauopathy. In contrast, we found an extensive neuropil deposition of IgG4 in the tegmentum of the brainstem, olivary nucleus, and cerebellar cortex that was most prominent in two patients with short disease duration without the typical IgLON5-related tauopathy. The IgG4 deposits were particularly prominent in the cerebellar cortex and in these regions accompanied by mild IgG1 deposits. Activated complement deposition (C9neo) was absent. Our study indicates that IgLON5-related tau pathology occurs in later disease stages and may also present a PSP-phenotype with exclusively 4-repeat neuronal and glial tau pathology. The prominent deposition of anti-IgLON5 IgG4 at predilection sites for tau pathology suggests that anti-IgLON5 antibodies precede the tau pathology. Early start of immunotherapy might prevent irreversible neuronal damage and progression of the disease, at least in a subgroup of patients., (© 2023. The Author(s).)

Published

2023

36. Creating the Pick's disease International Consortium: Association study of MAPT H2 haplotype with risk of Pick's disease.

Author

Valentino RR, Scotton WJ, Roemer SF, Lashley T, Heckman MG, Shoai M, Martinez-Carrasco A, Tamvaka N, Walton RL, Baker MC, Macpherson HL, Real R, Soto-Beasley AI, Mok K, Revesz T, Warner TT, Jaunmuktane Z, Boeve BF, Christopher EA, DeTure M, Duara R, Graff-Radford NR, Josephs KA, Knopman DS, Koga S, Murray ME, Lyons KE, Pahwa R, Parisi JE, Petersen RC, Whitwell J, Grinberg LT, Miller B, Schlereth A, Seeley WW, Spina S, Grossman M, Irwin DJ, Lee EB, Suh E, Trojanowski JQ, Van Deerlin VM, Wolk DA, Connors TR, Dooley PM, Frosch MP, Oakley DH, Aldecoa I, Balasa M, Gelpi E, Borrego-Écija S, de Eugenio Huélamo RM, Gascon-Bayarri J, Sánchez-Valle R, Sanz-Cartagena P, Piñol-Ripoll G, Molina-Porcel L, Bigio EH, Flanagan ME, Gefen T, Rogalski EJ, Weintraub S, Redding-Ochoa J, Chang K, Troncoso JC, Prokop S, Newell KL, Ghetti B, Jones M, Richardson A, Robinson AC, Roncaroli F, Snowden J, Allinson K, Green O, Rowe JB, Singh P, Beach TG, Serrano GE, Flowers XE, Goldman JE, Heaps AC, Leskinen SP, Teich AF, Black SE, Keith JL, Masellis M, Bodi I, King A, Sarraj SA, Troakes C, Halliday GM, Hodges JR, Kril JJ, Kwok JB, Piguet O, Gearing M, Arzberger T, Roeber S, Attems J, Morris CM, Thomas AJ, Evers BM, White CL, Mechawar N, Sieben AA, Cras PP, De Vil BB, De Deyn PPPP, Duyckaerts C, Le Ber I, Seihean D, Turbant-Leclere S, MacKenzie IR, McLean C, Cykowski MD, Ervin JF, Wang SJ, Graff C, Nennesmo I, Nagra RM, Riehl J, Kovacs GG, Giaccone G, Nacmias B, Neumann M, Ang LC, Finger EC, Blauwendraat C, Nalls MA, Singleton AB, Vitale D, Cunha C, Carvalho A, Wszolek ZK, Morris HR, Rademakers R, Hardy JA, Dickson DW, Rohrer JD, and Ross OA

Abstract

Background: Pick's disease (PiD) is a rare and predominantly sporadic form of frontotemporal dementia that is classified as a primary tauopathy. PiD is pathologically defined by argyrophilic inclusion Pick bodies and ballooned neurons in the frontal and temporal brain lobes. PiD is characterised by the presence of Pick bodies which are formed from aggregated, hyperphosphorylated, 3-repeat tau proteins, encoded by the MAPT gene. The MAPT H2 haplotype has consistently been associated with a decreased disease risk of the 4-repeat tauopathies of progressive supranuclear palsy and corticobasal degeneration, however its role in susceptibility to PiD is unclear. The primary aim of this study was to evaluate the association between MAPT H2 and risk of PiD., Methods: We established the Pick's disease International Consortium (PIC) and collected 338 (60.7% male) pathologically confirmed PiD brains from 39 sites worldwide. 1,312 neurologically healthy clinical controls were recruited from Mayo Clinic Jacksonville, FL (N=881) or Rochester, MN (N=431). For the primary analysis, subjects were directly genotyped for MAPT H1-H2 haplotype-defining variant rs8070723. In secondary analysis, we genotyped and constructed the six-variant MAPT H1 subhaplotypes (rs1467967, rs242557, rs3785883, rs2471738, rs8070723, and rs7521)., Findings: Our primary analysis found that the MAPT H2 haplotype was associated with increased risk of PiD (OR: 1.35, 95% CI: 1.12-1.64 P=0.002). In secondary analysis involving H1 subhaplotypes, a protective association with PiD was observed for the H1f haplotype (0.0% vs. 1.2%, P=0.049), with a similar trend noted for H1b (OR: 0.76, 95% CI: 0.58-1.00, P=0.051). The 4-repeat tauopathy risk haplotype MAPT H1c was not associated with PiD susceptibility (OR: 0.93, 95% CI: 0.70-1.25, P=0.65)., Interpretation: The PIC represents the first opportunity to perform relatively large-scale studies to enhance our understanding of the pathobiology of PiD. This study demonstrates that in contrast to its protective role in 4R tauopathies, the MAPT H2 haplotype is associated with an increased risk of PiD. This finding is critical in directing isoform-related therapeutics for tauopathies., Competing Interests: M.A.N. and D.V.’s participation in this project was part of a competitive contract awarded to Data Tecnica International LLC by the National Institutes of Health to support open science research. M.A.N. also currently serves on the scientific advisory board for Character Bio Inc. and Neuron23 Inc.

Published

2023

37. Multifactorial White Matter Damage in the Acute Phase and Pre-Existing Conditions May Drive Cognitive Dysfunction after SARS-CoV-2 Infection: Neuropathology-Based Evidence.

Author

Gelpi E, Klotz S, Beyerle M, Wischnewski S, Harter V, Kirschner H, Stolz K, Reisinger C, Lindeck-Pozza E, Zoufaly A, Leoni M, Gorkiewicz G, Zacharias M, Haberler C, Hainfellner J, Woehrer A, Hametner S, Roetzer T, Voigtländer T, Ricken G, Endmayr V, Haider C, Ludwig J, Polt A, Wilk G, Schmid S, Erben I, Nguyen A, Lang S, Simonitsch-Klupp I, Kornauth C, Nackenhorst M, Kläger J, Kain R, Chott A, Wasicky R, Krause R, Weiss G, Löffler-Rag J, Berger T, Moser P, Soleiman A, Asslaber M, Sedivy R, Klupp N, Klimpfinger M, Risser D, Budka H, Schirmer L, Pröbstel AK, and Höftberger R

Subjects

Humans, Aged, SARS-CoV-2, Preexisting Condition Coverage, COVID-19 complications, White Matter pathology, Nervous System Diseases pathology, Cognitive Dysfunction etiology, Neuritis

Abstract

Background: There is an urgent need to better understand the mechanisms underlying acute and long-term neurological symptoms after COVID-19. Neuropathological studies can contribute to a better understanding of some of these mechanisms., Methods: We conducted a detailed postmortem neuropathological analysis of 32 patients who died due to COVID-19 during 2020 and 2021 in Austria., Results: All cases showed diffuse white matter damage with a diffuse microglial activation of a variable severity, including one case of hemorrhagic leukoencephalopathy. Some cases revealed mild inflammatory changes, including olfactory neuritis (25%), nodular brainstem encephalitis (31%), and cranial nerve neuritis (6%), which were similar to those observed in non-COVID-19 severely ill patients. One previously immunosuppressed patient developed acute herpes simplex encephalitis. Acute vascular pathologies (acute infarcts 22%, vascular thrombosis 12%, diffuse hypoxic-ischemic brain damage 40%) and pre-existing small vessel diseases (34%) were frequent findings. Moreover, silent neurodegenerative pathologies in elderly persons were common (AD neuropathologic changes 32%, age-related neuronal and glial tau pathologies 22%, Lewy bodies 9%, argyrophilic grain disease 12.5%, TDP43 pathology 6%)., Conclusions: Our results support some previous neuropathological findings of apparently multifactorial and most likely indirect brain damage in the context of SARS-CoV-2 infection rather than virus-specific damage, and they are in line with the recent experimental data on SARS-CoV-2-related diffuse white matter damage, microglial activation, and cytokine release.

Published

2023

38. Author Correction: Common variants in Alzheimer's disease and risk stratification by polygenic risk scores.

Author

de Rojas I, Moreno-Grau S, Tesi N, Grenier-Boley B, Andrade V, Jansen IE, Pedersen NL, Stringa N, Zettergren A, Hernández I, Montrreal L, Antúnez C, Antonell A, Tankard RM, Bis JC, Sims R, Bellenguez C, Quintela I, González-Perez A, Calero M, Franco-Macías E, Macías J, Blesa R, Cervera-Carles L, Menéndez-González M, Frank-García A, Royo JL, Moreno F, Huerto Vilas R, Baquero M, Diez-Fairen M, Lage C, García-Madrona S, García-González P, Alarcón-Martín E, Valero S, Sotolongo-Grau O, Ullgren A, Naj AC, Lemstra AW, Benaque A, Pérez-Cordón A, Benussi A, Rábano A, Padovani A, Squassina A, de Mendonça A, Arias Pastor A, Kok AAL, Meggy A, Pastor AB, Espinosa A, Corma-Gómez A, Martín Montes A, Sanabria Á, DeStefano AL, Schneider A, Haapasalo A, Kinhult Ståhlbom A, Tybjærg-Hansen A, Hartmann AM, Spottke A, Corbatón-Anchuelo A, Rongve A, Borroni B, Arosio B, Nacmias B, Nordestgaard BG, Kunkle BW, Charbonnier C, Abdelnour C, Masullo C, Martínez Rodríguez C, Muñoz-Fernandez C, Dufouil C, Graff C, Ferreira CB, Chillotti C, Reynolds CA, Fenoglio C, Van Broeckhoven C, Clark C, Pisanu C, Satizabal CL, Holmes C, Buiza-Rueda D, Aarsland D, Rujescu D, Alcolea D, Galimberti D, Wallon D, Seripa D, Grünblatt E, Dardiotis E, Düzel E, Scarpini E, Conti E, Rubino E, Gelpi E, Rodriguez-Rodriguez E, Duron E, Boerwinkle E, Ferri E, Tagliavini F, Küçükali F, Pasquier F, Sanchez-Garcia F, Mangialasche F, Jessen F, Nicolas G, Selbæk G, Ortega G, Chêne G, Hadjigeorgiou G, Rossi G, Spalletta G, Giaccone G, Grande G, Binetti G, Papenberg G, Hampel H, Bailly H, Zetterberg H, Soininen H, Karlsson IK, Alvarez I, Appollonio I, Giegling I, Skoog I, Saltvedt I, Rainero I, Rosas Allende I, Hort J, Diehl-Schmid J, Van Dongen J, Vidal JS, Lehtisalo J, Wiltfang J, Thomassen JQ, Kornhuber J, Haines JL, Vogelgsang J, Pineda JA, Fortea J, Popp J, Deckert J, Buerger K, Morgan K, Fließbach K, Sleegers K, Molina-Porcel L, Kilander L, Weinhold L, Farrer LA, Wang LS, Kleineidam L, Farotti L, Parnetti L, Tremolizzo L, Hausner L, Benussi L, Froelich L, Ikram MA, Deniz-Naranjo MC, Tsolaki M, Rosende-Roca M, Löwenmark M, Hulsman M, Spallazzi M, Pericak-Vance MA, Esiri M, Bernal Sánchez-Arjona M, Dalmasso MC, Martínez-Larrad MT, Arcaro M, Nöthen MM, Fernández-Fuertes M, Dichgans M, Ingelsson M, Herrmann MJ, Scherer M, Vyhnalek M, Kosmidis MH, Yannakoulia M, Schmid M, Ewers M, Heneka MT, Wagner M, Scamosci M, Kivipelto M, Hiltunen M, Zulaica M, Alegret M, Fornage M, Roberto N, van Schoor NM, Seidu NM, Banaj N, Armstrong NJ, Scarmeas N, Scherbaum N, Goldhardt O, Hanon O, Peters O, Skrobot OA, Quenez O, Lerch O, Bossù P, Caffarra P, Dionigi Rossi P, Sakka P, Mecocci P, Hoffmann P, Holmans PA, Fischer P, Riederer P, Yang Q, Marshall R, Kalaria RN, Mayeux R, Vandenberghe R, Cecchetti R, Ghidoni R, Frikke-Schmidt R, Sorbi S, Hägg S, Engelborghs S, Helisalmi S, Botne Sando S, Kern S, Archetti S, Boschi S, Fostinelli S, Gil S, Mendoza S, Mead S, Ciccone S, Djurovic S, Heilmann-Heimbach S, Riedel-Heller S, Kuulasmaa T, Del Ser T, Lebouvier T, Polak T, Ngandu T, Grimmer T, Bessi V, Escott-Price V, Giedraitis V, Deramecourt V, Maier W, Jian X, Pijnenburg YAL, Kehoe PG, Garcia-Ribas G, Sánchez-Juan P, Pastor P, Pérez-Tur J, Piñol-Ripoll G, Lopez de Munain A, García-Alberca JM, Bullido MJ, Álvarez V, Lleó A, Real LM, Mir P, Medina M, Scheltens P, Holstege H, Marquié M, Sáez ME, Carracedo Á, Amouyel P, Schellenberg GD, Williams J, Seshadri S, van Duijn CM, Mather KA, Sánchez-Valle R, Serrano-Ríos M, Orellana A, Tárraga L, Blennow K, Huisman M, Andreassen OA, Posthuma D, Clarimón J, Boada M, van der Flier WM, Ramirez A, Lambert JC, van der Lee SJ, and Ruiz A

Published

2023

39. LRRK2 expression in normal and pathologic human gut and in rodent enteric neural cell lines.

Author

de Guilhem de Lataillade A, Caillaud M, Oullier T, Naveilhan P, Pellegrini C, Tolosa E, Neunlist M, Rolli-Derkinderen M, Gelpi E, and Derkinderen P

Subjects

Adult, Humans, Animals, Neurons metabolism, Cell Line, Leucine-Rich Repeat Serine-Threonine Protein Kinase-2 genetics, Leucine-Rich Repeat Serine-Threonine Protein Kinase-2 metabolism, Crohn Disease metabolism, Crohn Disease pathology, Enteric Nervous System metabolism, Parkinson Disease metabolism

Abstract

Leucine-rich repeat kinase 2 (LRRK2) gene, which is the gene most commonly associated with Parkinson's disease (PD), is also a susceptibility gene for Crohn's disease, thereby suggesting that LRRK2 may sit at the crossroads of gastrointestinal inflammation, Parkinson's, and Crohn's disease. LRRK2 protein has been studied intensely in both CNS neurons and in immune cells, but there are only few studies on LRRK2 in the enteric nervous system (ENS). LRRK2 is present in ENS ganglia and the existing studies on LRRK2 expression in colonic biopsies from PD subjects have yielded conflicting results. Herein, we propose to extend these findings by studying in more details LRRK2 expression in the ENS. LRRK2 expression was evaluated in full thickness segments of colon of 16 Lewy body, 12 non-Lewy body disorders cases, and 3 non-neurodegenerative controls and in various enteric neural cell lines. We showed that, in addition to enteric neurons, LRRK2 is constitutively expressed in enteric glial cells in both fetal and adult tissues. LRRK2 immunofluorescence intensity in the myenteric ganglia was not different between Lewy body and non-Lewy body disorders. Additionally, we identified the cAMP pathway as a key signaling pathway involved in the regulation of LRRK2 expression and phosphorylation in the enteric glial cells. Our study is the first detailed characterization of LRRK2 in the ENS and the first to show that enteric glial cells express LRRK2. Our findings provide a basis to unravel the functions of LRRK2 in the ENS and to further investigate the pathological changes in enteric synucleinopathies., (© 2022 International Society for Neurochemistry.)

Published

2023

40. Rapidly Progressive Corticobasal Degeneration Mimicking Brainstem Encephalitis.

Author

Moura J, Oliveira V, Sardoeira A, Pinto M, Gelpi E, Taipa R, and Santos E

Abstract

Background: Corticobasal degeneration (CBD) may have a rapidly progressive (RP) clinical course, mimicking other neurological conditions., Objectives: To describe a neuropathologically proven case of RP-CBD in a patient initially diagnosed with immune-mediated brainstem encephalitis., Methods: Retrospective data collection from electronic records and authorized video material., Results: A 51-year-old man presented with bilateral ptosis, diplopia, and dysphagia. The diagnostic workup was negative for myasthenic syndromes. He progressively developed cognitive dysfunction with frontal release signs and asymmetric parkinsonism. Cerebrospinal fluid evaluation revealed 4 leukocytes/uL, 0.32 g/L proteins, 0.85 g/L glucose, and absent oligoclonal bands. Weakly positive anti-PNMA2 (Ma2/Ta) antibodies were present, and magnetic resonance imaging showed a T2 hyperintensity involving the midbrain and pons. Based on these features, the diagnosis of immune-mediated brainstem encephalitis was considered. The patient did not improve after several cycles of methylprednisolone, intravenous immunoglobulin, and plasma exchange. At 1 year after onset, he developed horizontal and vertical gaze limitation and worsening of the parkinsonism and cognitive dysfunction. By age 53, he was severely disabled, requiring percutaneous gastrostomy for feeding. Anti-IgLON5 was negative. He fulfilled the clinical criteria for probable progressive supranuclear palsy. He died from pneumonia at age 54. The neuropathological examination revealed a 4-repeat tauopathy with features of CBD with extensive involvement of the brainstem., Conclusions: RP-CBD may resemble brainstem encephalitis. The severity of brainstem and upper spinal cord pathology in the postmortem examination correlated with the clinical and imaging features., (© 2022 International Parkinson and Movement Disorder Society.)

Published

2022

41. Sleep architecture and sleep-disordered breathing in fatal insomnia.

Author

Pérez-Carbonell L, Muñoz-Lopetegi A, Sánchez-Valle R, Gelpi E, Farré R, Gaig C, Iranzo A, and Santamaria J

Subjects

Humans, Polysomnography, Sleep, Sleep, REM, Sleep Initiation and Maintenance Disorders, Sleep Apnea Syndromes

Abstract

Study Objectives: Fatal insomnia (FI) is a rare prion disease severely affecting sleep architecture. Breathing during sleep has not been systematically assessed. Our aim was to characterize the sleep architecture, respiratory patterns, and neuropathologic findings in FI., Methods: Eleven consecutive FI patients (ten familial, one sporadic) were examined with video-polysomnography (vPSG) between 2002 and 2017. Wake/sleep stages and respiration were evaluated using a modified scoring system. Postmortem neuropathology was assessed in seven patients., Results: Median age at onset was 48 years and survival after vPSG was 1 year. All patients had different combinations of breathing disturbances including increased respiratory rate variability (RRV; n = 7), stridor (n = 9), central sleep apnea (CSA) (n = 5), hiccup (n = 6), catathrenia (n = 7), and other expiratory sounds (n = 10). RRV in NREM sleep correlated with ambiguous and solitary nuclei degeneration (r = 0.9, p = 0.008) and reduced survival (r = -0.7, p = 0.037). Two new stages, Subwake1 and Subwake2, present in all patients, were characterized. NREM sleep (conventional or undifferentiated) was identifiable in ten patients but reduced in duration in eight. REM sleep occurred in short segments in nine patients, and their reduced duration correlated with medullary raphe nuclei degeneration (r = -0.9, p = 0.005). Seven patients had REM without atonia. Three vPSG patterns were identified: agitated, with aperiodic, manipulative, and finalistic movements (n = 4); quiet-apneic, with CSA (n = 4); and quiet-non-apneic (n = 3)., Conclusions: FI patients show frequent breathing alterations, associated with respiratory nuclei damage, and, in addition to NREM sleep distortion, have severe impairment of REM sleep, related with raphe nuclei degeneration. Brainstem impairment is crucial in FI., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

42. C9orf72 repeat length might influence clinical sub-phenotypes in dementia patients.

Author

König T, Wurm R, Parvizi T, Silvaieh S, Hotzy C, Cetin H, Klotz S, Gelpi E, Bancher C, Benke T, Dal-Bianco P, Defrancesco M, Fischer P, Marksteiner J, Sutterlüty H, Ransmayr G, Schmidt R, Zimprich A, and Stögmann E

Subjects

Humans, DNA Repeat Expansion genetics, C9orf72 Protein genetics, Proteins genetics, Phenotype, Frontotemporal Dementia genetics, Frontotemporal Dementia pathology, Amyotrophic Lateral Sclerosis genetics

Abstract

Background: C9orf72 repeat expansions have been observed in a wide variety of neurodegenerative disorders. The cut-off between normal and pathogenic alleles is not well established as repeat sizing methods are often semi-quantitative. However, intermediate alleles might influence disease prevalence and phenotype, as seen for other repeat expansion disorders. We aimed to further delineate the prevalence of small, intermediate and expanded C9orf72 alleles and elucidate their potential influence on the disease phenotype., Methods: DNA derived from patients (n = 1804) and healthy individuals (n = 643) was obtained from multiple collectives in Austria. Genotyping was performed using a two-step PCR assay followed by Southern blotting., Results: 3.4% of clinically diagnosed frontotemporal dementia (FTD; n = 5/147) cases and 0.8% of clinically diagnosed Alzheimer's disease (AD; n = 5/602) cases were carriers of a pathological C9orf72 repeat expansion. A significantly earlier disease onset was detected in expansion carriers compared to non-carriers in the FTD and AD cohorts (median 50 years, range 39-64 vs. median 64 years, range 36-92, p = 0.018 and median 63 years, range 54-71 vs. median 74 years, range 45-92, p = 0.006, respectively). C9orf72 intermediate alleles were significantly associated with cerebellar symptoms (p = 0.0004) and sensory deficits in the dementia cohort (p = 0.01)., Conclusions: C9orf72 repeat expansion carriers showed earlier disease onset compared to non-carriers with clinical diagnosis of FTD and AD. Furthermore, C9orf72 intermediate repeats might modify the phenotypic expression in dementia., Competing Interests: Conflict of interest statement For the present study, SE received support from Roche and RG from the Jubilee Funds of the Austrian National Bank. In the past 36 months, SE received grants from Roche, FFG/AAL, Horizon2020 and the Austrian Alzheimer Association (all to the institution), CH from Roche and Novartis, SK from the Hochschuljubiläumsfonds, RG and SR from the Austrian Science Fund. SE received consulting fees from Biogen, WR from Alnylam Austria, BC from Roche Austria, RG from Abbvie, Alpine Market Research, Grünenthal, Novartis, Ratiopharm, Roche, Sanofi Aventis, Stada and UBC, SR from Axon Neuroscience, Roche and Biogen. For lectures, presentations, speakers bureaus, manuscript writing, or educational events payment was received by SE (Biogen, Roche, Eisai), WR (Pfizer), GE (Sanofi), BC (Schwabe), DM and RG (MedAhead). GE received payment for expert testimony from the Medical University of Vienna. BC received support for the Landesklinikum Horn for attending meetings from Genzyme. WR issued a patent for means and methods for the early prediction of poor neurological outcome in out-of-hospital cardiac arrest survivors. SE participated on an advisory board (Aboard Biogen, Roche), as well as CH (Roche), GE (IDIBAPS), BC (Roche), DBP (Roche), DM and SR (Rymind, no payment). GE held leadership or a fiduciary role in scientific societies (unpaid), SE in the Austrian Alzheimer Association, the EAN scientific panel dementia and in the steering committee DACh Tagung Biogen, BC in the Austrian Alzheimer Association (vize president). None of the authors received royalties or licences, held stock or stock options in entities related to the current manuscript, received equipment, materials, drugs, medical writing, gifts, or other services or had other financial or non-financial interests in the past 36 months. KT, PT, SS, HC, BT, FP, MJ, SH and ZA have nothing to disclose., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

43. Common Variants Near ZIC1 and ZIC4 in Autopsy-Confirmed Multiple System Atrophy.

Author

Hopfner F, Tietz AK, Ruf VC, Ross OA, Koga S, Dickson D, Aguzzi A, Attems J, Beach T, Beller A, Cheshire WP, van Deerlin V, Desplats P, Deuschl G, Duyckaerts C, Ellinghaus D, Evsyukov V, Flanagan ME, Franke A, Frosch MP, Gearing M, Gelpi E, van Gerpen JA, Ghetti B, Glass JD, Grinberg LT, Halliday G, Helbig I, Höllerhage M, Huitinga I, Irwin DJ, Keene DC, Kovacs GG, Lee EB, Levin J, Martí MJ, Mackenzie I, McKeith I, Mclean C, Mollenhauer B, Neumann M, Newell KL, Pantelyat A, Pendziwiat M, Peters A, Molina Porcel L, Rabano A, Matěj R, Rajput A, Rajput A, Reimann R, Scott WK, Seeley W, Selvackadunco S, Simuni T, Stadelmann C, Svenningsson P, Thomas A, Trenkwalder C, Troakes C, Trojanowski JQ, Uitti RJ, White CL, Wszolek ZK, Xie T, Ximelis T, Yebenes J, Müller U, Schellenberg GD, Herms J, Kuhlenbäumer G, and Höglinger G

Subjects

Autoantibodies, Autopsy, Genome-Wide Association Study, Humans, Nerve Tissue Proteins genetics, Transcription Factors genetics, Transcription Factors metabolism, alpha-Synuclein metabolism, Multiple System Atrophy genetics, Multiple System Atrophy pathology, Olivopontocerebellar Atrophies, Striatonigral Degeneration

Abstract

Background: Multiple System Atrophy is a rare neurodegenerative disease with alpha-synuclein aggregation in glial cytoplasmic inclusions and either predominant olivopontocerebellar atrophy or striatonigral degeneration, leading to dysautonomia, parkinsonism, and cerebellar ataxia. One prior genome-wide association study in mainly clinically diagnosed patients with Multiple System Atrophy failed to identify genetic variants predisposing for the disease., Objective: Since the clinical diagnosis of Multiple System Atrophy yields a high rate of misdiagnosis when compared to the neuropathological gold standard, we studied only autopsy-confirmed cases., Methods: We studied common genetic variations in Multiple System Atrophy cases (N = 731) and controls (N = 2898)., Results: The most strongly disease-associated markers were rs16859966 on chromosome 3, rs7013955 on chromosome 8, and rs116607983 on chromosome 4 with P-values below 5 × 10 -6 , all of which were supported by at least one additional genotyped and several imputed single nucleotide polymorphisms. The genes closest to the chromosome 3 locus are ZIC1 and ZIC4 encoding the zinc finger proteins of cerebellum 1 and 4 (ZIC1 and ZIC4)., Interpretation: Since mutations of ZIC1 and ZIC4 and paraneoplastic autoantibodies directed against ZIC4 are associated with severe cerebellar dysfunction, we conducted immunohistochemical analyses in brain tissue of the frontal cortex and the cerebellum from 24 Multiple System Atrophy patients. Strong immunohistochemical expression of ZIC4 was detected in a subset of neurons of the dentate nucleus in all healthy controls and in patients with striatonigral degeneration, whereas ZIC4-immunoreactive neurons were significantly reduced inpatients with olivopontocerebellar atrophy. These findings point to a potential ZIC4-mediated vulnerability of neurons in Multiple System Atrophy. © 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society., (© 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.)

Published

2022

44. Long-Duration Progressive Supranuclear Palsy: Clinical Course and Pathological Underpinnings.

Author

Lukic MJ, Respondek G, Kurz C, Compta Y, Gelpi E, Ferguson LW, Rajput A, Troakes C, van Swieten JC, Giese A, Roeber S, Herms J, Arzberger T, and Höglinger G

Subjects

Astrocytes metabolism, Autopsy, Disease Progression, Humans, Neurons metabolism, tau Proteins metabolism, Supranuclear Palsy, Progressive pathology

Abstract

Objectives: To identify the clinical characteristics of the subgroup of benign progressive supranuclear palsy with particularly long disease duration; to define neuropathological determinants underlying variability in disease duration in progressive supranuclear palsy., Methods: Clinical and pathological features were compared among 186 autopsy-confirmed cases with progressive supranuclear palsy with ≥10 years and shorter survival times., Results: The 45 cases (24.2%) had a disease duration of ≥10 years. The absence of ocular motor abnormalities within the first 3 years from disease onset was the only significant independent clinical predictor of longer survival. Histopathologically, the neurodegeneration parameters in each survival group were paralleled anatomically by the distribution of neuronal cytoplasmic inclusions, whereas the tufted astrocytes displayed anatomically an opposite severity pattern. Most interestingly, we found significantly less coiled bodies in those who survive longer, in contrast to patients with less favorable course., Interpretation: A considerable proportion of patients had a more "benign" disease course with ≥10 years survival. They had a distinct pattern and evolution of core symptoms compared to patients with short survival. The inverted anatomical patterns of astrocytic tau distribution suggest distinct implications of these cell types in trans-cellular propagation. The tempo of disease progression appeared to be determined mostly by oligodendroglial tau, where the high degree of oligodendroglial tau pathology might affect neuronal integrity and function on top of neuronal tau pathology. The relative contribution of glial tau should be further explored in cellular and animal models. ANN NEUROL 2022;92:637-649., (© 2022 The Authors. Annals of Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published

2022

45. Rainwater Charitable Foundation criteria for the neuropathologic diagnosis of progressive supranuclear palsy.

Author

Roemer SF, Grinberg LT, Crary JF, Seeley WW, McKee AC, Kovacs GG, Beach TG, Duyckaerts C, Ferrer IA, Gelpi E, Lee EB, Revesz T, White CL 3rd, Yoshida M, Pereira FL, Whitney K, Ghayal NB, and Dickson DW

Subjects

Humans, Neurofibrillary Tangles pathology, Neuropathology, Reproducibility of Results, tau Proteins, Supranuclear Palsy, Progressive diagnosis, Supranuclear Palsy, Progressive pathology, Tauopathies diagnosis, Tauopathies pathology

Abstract

Neuropathologic criteria for progressive supranuclear palsy (PSP) proposed by a National Institute of Neurological Disorders and Stroke (NINDS) working group were published in 1994 and based on the presence of neurofibrillary tangles in basal ganglia and brainstem. These criteria did not stipulate detection methods or incorporate glial tau pathology. In this study, a group of 14 expert neuropathologists scored digital slides from 10 brain regions stained with hematoxylin and eosin (H&E) and phosphorylated tau (AT8) immunohistochemistry. The cases included 15 typical and atypical PSP cases and 10 other tauopathies. Blinded to clinical and neuropathological information, raters provided a categorical diagnosis (PSP or not-PSP) based upon provisional criteria that required neurofibrillary tangles or pretangles in two of three regions (substantia nigra, subthalamic nucleus, globus pallidus) and tufted astrocytes in one of two regions (peri-Rolandic cortices, putamen). The criteria showed high sensitivity (0.97) and specificity (0.91), as well as almost perfect inter-rater reliability for diagnosing PSP and differentiating it from other tauopathies (Fleiss kappa 0.826). Most cases (17/25) had 100% agreement across all 14 raters. The Rainwater Charitable Foundation criteria for the neuropathologic diagnosis of PSP feature a simplified diagnostic algorithm based on phosphorylated tau immunohistochemistry and incorporate tufted astrocytes as an essential diagnostic feature., (© 2022. The Author(s).)

Published

2022

46. Muscle involvement in T-cell large granular lymphocytic leukemia presenting with asymmetric limb-girdle weakness and scapular winging.

Author

Krenn M, Gelpi E, Simonitsch-Klupp I, Kasprian G, Zulehner G, Grisold A, Zimprich F, Cetin H, Hülsmann M, and Wohlfarth P

Subjects

Humans, Muscle Weakness etiology, Muscles, Leukemia, Large Granular Lymphocytic, Muscular Dystrophy, Facioscapulohumeral

Published

2022

47. Mitochondrial dysfunction is a key pathological driver of early stage Parkinson's.

Author

Toomey CE, Heywood WE, Evans JR, Lachica J, Pressey SN, Foti SC, Al Shahrani M, D'Sa K, Hargreaves IP, Heales S, Orford M, Troakes C, Attems J, Gelpi E, Palkovits M, Lashley T, Gentleman SM, Revesz T, Mills K, and Gandhi S

Subjects

Humans, Mitochondria metabolism, Proteome metabolism, Proteomics, Parkinson Disease pathology, alpha-Synuclein metabolism

Abstract

Background: The molecular drivers of early sporadic Parkinson's disease (PD) remain unclear, and the presence of widespread end stage pathology in late disease masks the distinction between primary or causal disease-specific events and late secondary consequences in stressed or dying cells. However, early and mid-stage Parkinson's brains (Braak stages 3 and 4) exhibit alpha-synuclein inclusions and neuronal loss along a regional gradient of severity, from unaffected-mild-moderate-severe. Here, we exploited this spatial pathological gradient to investigate the molecular drivers of sporadic PD., Methods: We combined high precision tissue sampling with unbiased large-scale profiling of protein expression across 9 brain regions in Braak stage 3 and 4 PD brains, and controls, and verified these results using targeted proteomic and functional analyses., Results: We demonstrate that the spatio-temporal pathology gradient in early-mid PD brains is mirrored by a biochemical gradient of a changing proteome. Importantly, we identify two key events that occur early in the disease, prior to the occurrence of alpha-synuclein inclusions and neuronal loss: (i) a metabolic switch in the utilisation of energy substrates and energy production in the brain, and (ii) perturbation of the mitochondrial redox state. These changes may contribute to the regional vulnerability of developing alpha-synuclein pathology. Later in the disease, mitochondrial function is affected more severely, whilst mitochondrial metabolism, fatty acid oxidation, and mitochondrial respiration are affected across all brain regions., Conclusions: Our study provides an in-depth regional profile of the proteome at different stages of PD, and highlights that mitochondrial dysfunction is detectable prior to neuronal loss, and alpha-synuclein fibril deposition, suggesting that mitochondrial dysfunction is one of the key drivers of early disease., (© 2022. The Author(s).)

Published

2022

48. Enhanced expression of autophagy-related p62 without increased deposits of neurodegeneration-associated proteins in glioblastoma and surrounding tissue - An autopsy-based study.

Author

Klotz S, Ricken G, Preusser M, Dieckmann K, Widhalm G, Rössler K, Fischer P, Kalev O, Wöhrer A, Kovacs GG, and Gelpi E

Subjects

Autophagy, Autopsy, Brain pathology, Humans, tau Proteins metabolism, Alzheimer Disease pathology, Glioblastoma pathology, Tauopathies pathology

Abstract

Neurodegenerative diseases are a major health burden. The underlying causes are not yet fully understood, but different mechanisms such as cell stress and chronic inflammation have been described as contributing factors. Neurodegenerative changes have been observed in the vicinity of brain tumors, typically around slowly growing benign lesions. Moreover, in-vitro data suggest a potential induction of pathological tau deposits also in glioblastoma, a highly malignant and proliferative brain cancer. The aim of this study was to evaluate neurodegeneration-associated protein deposition and autophagy as well as microglial activation within and surrounding glioblastoma. Post-mortem brain tissue of 22 patients with glioblastoma was evaluated immunohistochemically for phosphorylated tau, beta-amyloid, alpha-synuclein and phosphorylated TDP-43. Additionally, the autophagy marker p62 and the microglial marker HLA-DR were investigated. The data was compared to 22 control cases and ten cases with other space occupying brain lesions. An increase of p62-immunoreactivity was observed within and adjacent to the glioblastoma tumor tissue. Moreover, dense microglial infiltration in the tumor tissue and the immediate surrounding brain tissue was a constant feature. Deposition of neurodegeneration-associated proteins was found in the majority of cases (86.4%) but in distant sites. These findings suggested a preexisting neurodegenerative pathology, which followed a typical distributional pattern: ten cases with Alzheimer disease neuropathological changes, including two severe cases, eight cases with primary age-related tauopathy, six cases with aging-related tau astrogliopathy and one case with progressive supranuclear palsy. Collectively, our data suggests enhanced autophagy in glioblastoma tumor cells and the surrounding brain. The variety and distribution of distant neurodegeneration-associated protein aggregates observed in the majority of cases, suggest a preexisting rather than a tumor-induced neurodegenerative condition., (© 2022 The Authors. Brain Pathology published by John Wiley & Sons Ltd on behalf of International Society of Neuropathology.)

Published

2022

49. Real-world applicability of glial fibrillary acidic protein and neurofilament light chain in Alzheimer's disease.

Author

Parvizi T, König T, Wurm R, Silvaieh S, Altmann P, Klotz S, Rommer PS, Furtner J, Regelsberger G, Lehrner J, Traub-Weidinger T, Gelpi E, and Stögmann E

Abstract

Background: Blood-based biomarkers may add a great benefit in detecting the earliest neuropathological changes in patients with Alzheimer's disease (AD). We examined the utility of neurofilament light chain (NfL) and glial fibrillary acidic protein (GFAP) regarding clinical diagnosis and differentiation between amyloid positive and negative patients. To evaluate the practical application of these biomarkers in a routine clinical setting, we conducted this study in a heterogeneous memory-clinic population. Methods: We included 167 patients in this retrospective cross-sectional study, 123 patients with an objective cognitive decline [mild cognitive impairment (MCI) due to AD, n = 63, and AD-dementia, n = 60] and 44 age-matched healthy controls (HC). Cerebrospinal fluid (CSF) and plasma concentrations of NfL and GFAP were measured with single molecule array (SIMOA ® ) technology using the Neurology 2-Plex B kit from Quanterix. To assess the discriminatory potential of different biomarkers, age- and sex-adjusted receiver operating characteristic (ROC) curves were calculated and the area under the curve (AUC) of each model was compared. Results: We constructed a panel combining plasma NfL and GFAP with known AD risk factors (Combination panel: age+sex+ APOE4 +GFAP+NfL). With an AUC of 91.6% (95%CI = 0.85-0.98) for HC vs. AD and 81.7% (95%CI = 0.73-0.90) for HC vs. MCI as well as an AUC of 87.5% (95%CI = 0.73-0.96) in terms of predicting amyloid positivity, this panel showed a promising discriminatory power to differentiate these populations. Conclusion: The combination of plasma GFAP and NfL with well-established risk factors discerns amyloid positive from negative patients and could potentially be applied to identify patients who would benefit from a more invasive assessment of amyloid pathology. In the future, improved prediction of amyloid positivity with a noninvasive test may decrease the number and costs of a more invasive or expensive diagnostic approach., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Parvizi, König, Wurm, Silvaieh, Altmann, Klotz, Rommer, Furtner, Regelsberger, Lehrner, Traub- Weidinger, Gelpi and Stögmann.)

Published

2022

50. Sporadic Creutzfeldt-Jakob disease VM1: phenotypic and molecular characterization of a novel subtype of human prion disease.

Author

Gelpi E, Baiardi S, Nos C, Dellavalle S, Aldecoa I, Ruiz-Garcia R, Ispierto L, Escudero D, Casado V, Barranco E, Boltes A, Molina-Porcel L, Bargalló N, Rossi M, Mammana A, Tiple D, Vaianella L, Stoegmann E, Simonitsch-Klupp I, Kasprian G, Klotz S, Höftberger R, Budka H, Kovacs GG, Ferrer I, Capellari S, Sanchez-Valle R, and Parchi P

Subjects

Animals, Brain pathology, Codon metabolism, Humans, Mice, Prion Proteins genetics, Prion Proteins metabolism, Creutzfeldt-Jakob Syndrome pathology, Prion Diseases pathology, Prions genetics, Prions metabolism

Abstract

The methionine (M)-valine (V) polymorphic codon 129 of the prion protein gene (PRNP) plays a central role in both susceptibility and phenotypic expression of sporadic Creutzfeldt-Jakob diseases (sCJD). Experimental transmissions of sCJD in humanized transgenic mice led to the isolation of five prion strains, named M1, M2C, M2T, V2, and V1, based on two major conformations of the pathological prion protein (PrP Sc , type 1 and type 2), and the codon 129 genotype determining susceptibility and propagation efficiency. While the most frequent sCJD strains have been described in codon 129 homozygosis (MM1, MM2C, VV2) and heterozygosis (MV1, MV2K, and MV2C), the V1 strain has only been found in patients carrying VV. We identified six sCJD cases, 4 in Catalonia and 2 in Italy, carrying MV at PRNP codon 129 in combination with PrP Sc type 1 and a new clinical and neuropathological profile reminiscent of the VV1 sCJD subtype rather than typical MM1/MV1. All patients had a relatively long duration (mean of 20.5 vs. 3.5 months of MM1/MV1 patients) and lacked electroencephalographic periodic sharp-wave complexes at diagnosis. Distinctive histopathological features included the spongiform change with vacuoles of larger size than those seen in sCJD MM1/MV1, the lesion profile with prominent cortical and striatal involvement, and the pattern of PrP Sc deposition characterized by a dissociation between florid spongiform change and mild synaptic deposits associated with coarse, patch-like deposits in the cerebellar molecular layer. Western blot analysis of brain homogenates revealed a PrP Sc type 1 profile with physicochemical properties reminiscent of the type 1 protein linked to the VV1 sCJD subtype. In summary, we have identified a new subtype of sCJD with distinctive clinicopathological features significantly overlapping with those of the VV1 subtype, possibly representing the missing evidence of V1 sCJD strain propagation in the 129MV host genotype., (© 2022. The Author(s).)

Published

2022