Your search keyword '"Vestito, Letizia"' showing total 22 results

1. Missense variants in RPH3A cause defects in excitatory synaptic function and are associated with a clinically variable neurodevelopmental disorder

Author

Pavinato, Lisa, Stanic, Jennifer, Barzasi, Marta, Gurgone, Antonia, Chiantia, Giuseppe, Cipriani, Valentina, Eberini, Ivano, Palazzolo, Luca, Di Luca, Monica, Costa, Alex, Marcantoni, Andrea, Biamino, Elisa, Spada, Marco, Hiatt, Susan M., Kelley, Whitley V., Vestito, Letizia, Sisodiya, Sanjay M., Efthymiou, Stephanie, Chand, Prem, Kaiyrzhanov, Rauan, Bruselles, Alessandro, Cardaropoli, Simona, Tartaglia, Marco, De Rubeis, Silvia, Buxbaum, Joseph D., Smedley, Damian, Ferrero, Giovanni Battista, Giustetto, Maurizio, Gardoni, Fabrizio, and Brusco, Alfredo

Published

2023

2. Translational profiling of mouse dopaminoceptive neurons reveals region-specific gene expression, exon usage, and striatal prostaglandin E2 modulatory effects

Author

Montalban, Enrica, Giralt, Albert, Taing, Lieng, Schut, Evelien H. S., Supiot, Laura F., Castell, Laia, Nakamura, Yuki, de Pins, Benoit, Pelosi, Assunta, Goutebroze, Laurence, Tuduri, Pola, Wang, Wei, Neiburga, Katrina Daila, Vestito, Letizia, Castel, Julien, Luquet, Serge, Nairn, Angus C., Hervé, Denis, Heintz, Nathaniel, Martin, Claire, Greengard, Paul, Valjent, Emmanuel, Meye, Frank J., Gambardella, Nicolas, Roussarie, Jean-Pierre, and Girault, Jean-Antoine

Published

2022

3. De novo and inherited monoallelic variants in TUBA4A cause ataxia and spasticity.

Author

Benkirane, Mehdi, Bonhomme, Marion, Morsy, Heba, Safgren, Stephanie L, Marelli, Cecilia, Chaussenot, Annabelle, Smedley, Damian, Cipriani, Valentina, Sainte-Agathe, Jean-Madeleine de, Ding, Can, Larrieu, Lise, Vestito, Letizia, Margot, Henri, Lesca, Gaetan, Ramond, Francis, Castrioto, Anna, Baux, David, Verheijen, Jan, Sansa, Emna, and Giunti, Paola

Subjects

CEREBELLAR ataxia, FRIEDREICH'S ataxia, AMYOTROPHIC lateral sclerosis, FRONTOTEMPORAL dementia, MISSENSE mutation

Abstract

Alpha-tubulin 4A encoding gene (TUBA4A) has been associated with familial amyotrophic lateral sclerosis and frontotemporal dementia, based on identification of likely pathogenic variants in patients from distinct amyotrophic lateral sclerosis and frontotemporal dementia cohorts. By screening a multicentric French cohort of 448 unrelated probands presenting with cerebellar ataxia, we identified ultra-rare TUBA4A missense variants, all being absent from public databases and predicted pathogenic by multiple in silico tools. In addition, gene burden analyses in the 100 000 Genomes project (100KGP) showed enrichment of TUBA4A rare variants in the inherited ataxia group compared to controls [odds ratio: 57.0847 (10.2−576.7); P = 4.02 ×10−7]. Taken together, we report 12 patients presenting with spasticity and/or cerebellar ataxia and harbouring a predicted pathogenic TUBA4A missense mutation, including five confirmed de novo cases and a mutation previously reported in a large family presenting with spastic ataxia. Cultured fibroblasts from three patients harbouring distinct TUBA4A missense showed significant alterations in microtubule organization and dynamics, providing insight of TUBA4A variants pathogenicity. Our data confirm the identification of a hereditary spastic ataxia disease gene with variable age of onset, expanding the clinical spectrum of TUBA4A associated phenotypes. [ABSTRACT FROM AUTHOR]

Published

2024

4. Rare disease gene association discovery from burden analysis of the 100,000 Genomes Project data

Author

Cipriani, Valentina, primary, Vestito, Letizia, additional, Magavern, Emma F, additional, Jacobsen, Julius OB, additional, Arno, Gavin, additional, Behr, Elijah R, additional, Benson, Katherine A, additional, Bertoli, Marta, additional, Bockenhauer, Detlef, additional, Bowl, Michael R, additional, Burley, Kate, additional, Chan, Li F, additional, Chinnery, Patrick, additional, Conlon, Peter, additional, Costa, Marcos, additional, Davidson, Alice E, additional, Dawson, Sally J, additional, Elhassan, Elhussein, additional, Flanagan, Sarah E, additional, Futema, Marta, additional, Gale, Daniel P, additional, García-Ruiz, Sonia, additional, Corcia, Cecilia Gonzalez, additional, Griffin, Helen R, additional, Hambleton, Sophie, additional, Hicks, Amy R, additional, Houlden, Henry, additional, Houlston, Richard S, additional, Howles, Sarah A, additional, Kleta, Robert, additional, Lekkerkerker, Iris, additional, Lin, Siying, additional, Liskova, Petra, additional, Mitchison, Hannah, additional, Morsy, Heba, additional, Mumford, Andrew D, additional, Newman, William G, additional, Neatu, Ruxandra, additional, O’Toole, Edel A, additional, Ong, Albert CM, additional, Pagnamenta, Alistair T, additional, Rahman, Shamima, additional, Rajan, Neil, additional, Robinson, Peter N, additional, Ryten, Mina, additional, Sadeghi-Alavijeh, Omid, additional, Sayer, John A, additional, Shovlin, Claire L, additional, Taylor, Jenny C, additional, Teltsh, Omri, additional, Tomlinson, Ian, additional, Tucci, Arianna, additional, Turnbull, Clare, additional, van Eerde, Albertien M, additional, Ware, James S, additional, Watts, Laura M, additional, Webster, Andrew R, additional, Westbury, Sarah K, additional, Zheng, Sean L, additional, Caulfield, Mark, additional, and Smedley, Damian, additional

Published

2023

5. Heterozygous UCHL1 loss-of-function variants cause a neurodegenerative disorder with spasticity, ataxia, neuropathy, and optic atrophy

Author

Park, Joohyun, primary, Tucci, Arianna, additional, Cipriani, Valentina, additional, Demidov, German, additional, Rocca, Clarissa, additional, Senderek, Jan, additional, Butryn, Michaela, additional, Velic, Ana, additional, Lam, Tanya, additional, Galanaki, Evangelia, additional, Cali, Elisa, additional, Vestito, Letizia, additional, Maroofian, Reza, additional, Deininger, Natalie, additional, Rautenberg, Maren, additional, Admard, Jakob, additional, Hahn, Gesa-Astrid, additional, Bartels, Claudius, additional, van Os, Nienke J.H., additional, Horvath, Rita, additional, Chinnery, Patrick F., additional, Tiet, May Yung, additional, Hewamadduma, Channa, additional, Hadjivassiliou, Marios, additional, Downes, Susan M., additional, Németh, Andrea H., additional, Tofaris, George K., additional, Wood, Nicholas W., additional, Hayer, Stefanie N., additional, Bender, Friedemann, additional, Menden, Benita, additional, Cordts, Isabell, additional, Klein, Katrin, additional, Nguyen, Huu Phuc, additional, Krauss, Joachim K., additional, Blahak, Christian, additional, Strom, Tim M., additional, Sturm, Marc, additional, van de Warrenburg, Bart, additional, Lerche, Holger, additional, Maček, Boris, additional, Synofzik, Matthis, additional, Ossowski, Stephan, additional, Timmann, Dagmar, additional, Wolf, Marc E., additional, Smedley, Damian, additional, Riess, Olaf, additional, Schöls, Ludger, additional, Houlden, Henry, additional, Haack, Tobias B., additional, and Hengel, Holger, additional

Published

2023

6. Diverse species-specific phenotypic consequences of loss of function sorting nexin 14 mutations

Author

Bryant, Dale, Seda, Marian, Peskett, Emma, Maurer, Constance, Pomeranz, Gideon, Ghosh, Marcus, Hawkins, Thomas A., Cleak, James, Datta, Sanchari, Hariri, Hanaa, Eckert, Kaitlyn M., Jafree, Daniyal J., Walsh, Claire, Demetriou, Charalambos, Ishida, Miho, Alemán-Charlet, Cristina, Vestito, Letizia, Seselgyte, Rimante, McDonald, Jeffrey G., Bitner-Glindzicz, Maria, Hemberger, Myriam, Rihel, Jason, Teboul, Lydia, Henne, W. Mike, Jenkins, Dagan, Moore, Gudrun E., and Stanier, Philip

Published

2020

7. Rare disease gene association discovery from burden analysis of the 100,000 Genomes Project data

Author

Genetica Groep Van Tintelen, Genetica Klinische Genetica, Cancer, Child Health, Cipriani, Valentina, Vestito, Letizia, Magavern, Emma F, Jacobsen, Julius Ob, Arno, Gavin, Behr, Elijah R, Benson, Katherine A, Bertoli, Marta, Bockenhauer, Detlef, Bowl, Michael R, Burley, Kate, Chan, Li F, Chinnery, Patrick, Conlon, Peter, Costa, Marcos, Davidson, Alice E, Dawson, Sally J, Elhassan, Elhussein, Flanagan, Sarah E, Futema, Marta, Gale, Daniel P, García-Ruiz, Sonia, Corcia, Cecilia Gonzalez, Griffin, Helen R, Hambleton, Sophie, Hicks, Amy R, Houlden, Henry, Houlston, Richard S, Howles, Sarah A, Kleta, Robert, Lekkerkerker, Iris, Lin, Siying, Liskova, Petra, Mitchison, Hannah, Morsy, Heba, Mumford, Andrew D, Newman, William G, Neatu, Ruxandra, O'Toole, Edel A, Ong, Albert Cm, Pagnamenta, Alistair T, Rahman, Shamima, Rajan, Neil, Robinson, Peter N, Ryten, Mina, Sadeghi-Alavijeh, Omid, Sayer, John A, Shovlin, Claire L, Taylor, Jenny C, Teltsh, Omri, Tomlinson, Ian, Tucci, Arianna, Turnbull, Clare, van Eerde, Albertien M, Ware, James S, Watts, Laura M, Webster, Andrew R, Westbury, Sarah K, Zheng, Sean L, Caulfield, Mark, Smedley, Damian, Genetica Groep Van Tintelen, Genetica Klinische Genetica, Cancer, Child Health, Cipriani, Valentina, Vestito, Letizia, Magavern, Emma F, Jacobsen, Julius Ob, Arno, Gavin, Behr, Elijah R, Benson, Katherine A, Bertoli, Marta, Bockenhauer, Detlef, Bowl, Michael R, Burley, Kate, Chan, Li F, Chinnery, Patrick, Conlon, Peter, Costa, Marcos, Davidson, Alice E, Dawson, Sally J, Elhassan, Elhussein, Flanagan, Sarah E, Futema, Marta, Gale, Daniel P, García-Ruiz, Sonia, Corcia, Cecilia Gonzalez, Griffin, Helen R, Hambleton, Sophie, Hicks, Amy R, Houlden, Henry, Houlston, Richard S, Howles, Sarah A, Kleta, Robert, Lekkerkerker, Iris, Lin, Siying, Liskova, Petra, Mitchison, Hannah, Morsy, Heba, Mumford, Andrew D, Newman, William G, Neatu, Ruxandra, O'Toole, Edel A, Ong, Albert Cm, Pagnamenta, Alistair T, Rahman, Shamima, Rajan, Neil, Robinson, Peter N, Ryten, Mina, Sadeghi-Alavijeh, Omid, Sayer, John A, Shovlin, Claire L, Taylor, Jenny C, Teltsh, Omri, Tomlinson, Ian, Tucci, Arianna, Turnbull, Clare, van Eerde, Albertien M, Ware, James S, Watts, Laura M, Webster, Andrew R, Westbury, Sarah K, Zheng, Sean L, Caulfield, Mark, and Smedley, Damian

Published

2023

8. Heterozygous UCHL1 loss-of-function variants cause a neurodegenerative disorder with spasticity, ataxia, neuropathy, and optic atrophy

Author

Park, Joohyun, primary, Tucci, Arianna, additional, Cipriani, Valentina, additional, Demidov, German, additional, Rocca, Clarissa, additional, Senderek, Jan, additional, Butryn, Michaela, additional, Velic, Ana, additional, Lam, Tanya, additional, Galanaki, Evangelia, additional, Cali, Elisa, additional, Vestito, Letizia, additional, Maroofian, Reza, additional, Deininger, Natalie, additional, Rautenberg, Maren, additional, Admard, Jakob, additional, Hahn, Gesa-Astrid, additional, Bartels, Claudius, additional, van Os, Nienke J.H., additional, Horvath, Rita, additional, Chinnery, Patrick F., additional, Tiet, May Yung, additional, Hewamadduma, Channa, additional, Hadjivassiliou, Marios, additional, Tofaris, George K., additional, Wood, Nicholas W., additional, Hayer, Stefanie N., additional, Bender, Friedemann, additional, Menden, Benita, additional, Cordts, Isabell, additional, Klein, Katrin, additional, Nguyen, Huu Phuc, additional, Krauss, Joachim K., additional, Blahak, Christian, additional, Strom, Tim M., additional, Sturm, Marc, additional, van de Warrenburg, Bart, additional, Lerche, Holger, additional, Maček, Boris, additional, Synofzik, Matthis, additional, Ossowski, Stephan, additional, Timmann, Dagmar, additional, Wolf, Marc E., additional, Smedley, Damian, additional, Riess, Olaf, additional, Schöls, Ludger, additional, Houlden, Henry, additional, Haack, Tobias B., additional, Hengel, Holger, additional, Ambrose, J.C., additional, Arumugam, P., additional, Baple, E.L., additional, Bleda, M., additional, Boardman-Pretty, F., additional, Boissiere, J.M., additional, Boustred, C.R., additional, Brittain, H., additional, Caulfield, M.J., additional, Chan, G.C., additional, Craig, C.E.H., additional, Daugherty, L.C., additional, de Burca, A., additional, Devereau, A., additional, Elgar, G., additional, Foulger, R.E., additional, Fowler, T., additional, Furió-Tarí, P., additional, Hackett, J.M., additional, Halai, D., additional, Hamblin, A., additional, Henderson, S., additional, Holman, J.E., additional, Hubbard, T.J.P., additional, Ibáñez, K., additional, Jackson, R., additional, Jones, L.J., additional, Kasperaviciute, D., additional, Kayikci, M., additional, Lahnstein, L., additional, Lawson, K., additional, Leigh, S.E.A., additional, Leong, I.U.S., additional, Lopez, F.J., additional, Maleady-Crowe, F., additional, Mason, J., additional, McDonagh, E.M., additional, Moutsianas, L., additional, Mueller, M., additional, Murugaesu, N., additional, Need, A.C., additional, Odhams, C.A., additional, Patch, C., additional, Perez-Gil, D., additional, Polychronopoulos, D., additional, Pullinger, J., additional, Rahim, T., additional, Rendon, A., additional, Riesgo-Ferreiro, P., additional, Rogers, T., additional, Ryten, M., additional, Savage, K., additional, Sawant, K., additional, Scott, R.H., additional, Siddiq, A., additional, Sieghart, A., additional, Smedley, D., additional, Smith, K.R., additional, Sosinsky, A., additional, Spooner, W., additional, Stevens, H.E., additional, Stuckey, A., additional, Sultana, R., additional, Thomas, E.R.A., additional, Thompson, S.R., additional, Tregidgo, C., additional, Tucci, A., additional, Walsh, E., additional, Watters, S.A., additional, Welland, M.J., additional, Williams, E., additional, Witkowska, K., additional, Wood, S.M., additional, and Zarowiecki, M., additional

Published

2022

9. Functional genomics provide key insights to improve the diagnostic yield of hereditary ataxia.

Author

Chen, Zhongbo, Tucci, Arianna, Cipriani, Valentina, Gustavsson, Emil K, Ibañez, Kristina, Reynolds, Regina H, Zhang, David, Vestito, Letizia, García, Alejandro Cisterna, Sethi, Siddharth, Brenton, Jonathan W, García-Ruiz, Sonia, Fairbrother-Browne, Aine, Gil-Martinez, Ana-Luisa, Consortium, Genomics England Research, Wood, Nick, Hardy, John A, Smedley, Damian, Houlden, Henry, and Botía, Juan

Subjects

FRIEDREICH'S ataxia, SPINOCEREBELLAR ataxia, FUNCTIONAL genomics, MICROSATELLITE repeats, GENE expression, WHOLE genome sequencing

Abstract

Improvements in functional genomic annotation have led to a critical mass of neurogenetic discoveries. This is exemplified in hereditary ataxia, a heterogeneous group of disorders characterised by incoordination from cerebellar dysfunction. Associated pathogenic variants in more than 300 genes have been described, leading to a detailed genetic classification partitioned by age-of-onset. Despite these advances, up to 75% of patients with ataxia remain molecularly undiagnosed even following whole genome sequencing, as exemplified in the 100 000 Genomes Project. This study aimed to understand whether we can improve our knowledge of the genetic architecture of hereditary ataxia by leveraging functional genomic annotations, and as a result, generate insights and strategies that raise the diagnostic yield. To achieve these aims, we used publicly-available multi-omics data to generate 294 genic features, capturing information relating to a gene's structure, genetic variation, tissue-specific, cell-type-specific and temporal expression, as well as protein products of a gene. We studied these features across genes typically causing childhood-onset, adult-onset or both types of disease first individually, then collectively. This led to the generation of testable hypotheses which we investigated using whole genome sequencing data from up to 2182 individuals presenting with ataxia and 6658 non-neurological probands recruited in the 100 000 Genomes Project. Using this approach, we demonstrated a high short tandem repeat (STR) density within childhood-onset genes suggesting that we may be missing pathogenic repeat expansions within this cohort. This was verified in both childhood- and adult-onset ataxia patients from the 100 000 Genomes Project who were unexpectedly found to have a trend for higher repeat sizes even at naturally-occurring STRs within known ataxia genes, implying a role for STRs in pathogenesis. Using unsupervised analysis, we found significant similarities in genomic annotation across the gene panels, which suggested adult- and childhood-onset patients should be screened using a common diagnostic gene set. We tested this within the 100 000 Genomes Project by assessing the burden of pathogenic variants among childhood-onset genes in adult-onset patients and vice versa. This demonstrated a significantly higher burden of rare, potentially pathogenic variants in conventional childhood-onset genes among individuals with adult-onset ataxia. Our analysis has implications for the current clinical practice in genetic testing for hereditary ataxia. We suggest that the diagnostic rate for hereditary ataxia could be increased by removing the age-of-onset partition, and through a modified screening for repeat expansions in naturally-occurring STRs within known ataxia-associated genes, in effect treating these regions as candidate pathogenic loci. [ABSTRACT FROM AUTHOR]

Published

2023

10. Translational profiling of mouse dopaminoceptive neurons reveals region-specific gene expression, exon usage, and striatal prostaglandin E2 modulatory effects

Author

TN groep Meye, The Neural Circuits Underlying Stress Eating, Brain, Montalban, Enrica, Giralt, Albert, Taing, Lieng, Schut, Evelien H S, Supiot, Laura F, Castell, Laia, Nakamura, Yuki, de Pins, Benoit, Pelosi, Assunta, Goutebroze, Laurence, Tuduri, Pola, Wang, Wei, Neiburga, Katrina Daila, Vestito, Letizia, Castel, Julien, Luquet, Serge, Nairn, Angus C, Hervé, Denis, Heintz, Nathaniel, Martin, Claire, Greengard, Paul, Valjent, Emmanuel, Meye, Frank J, Gambardella, Nicolas, Roussarie, Jean-Pierre, Girault, Jean-Antoine, TN groep Meye, The Neural Circuits Underlying Stress Eating, Brain, Montalban, Enrica, Giralt, Albert, Taing, Lieng, Schut, Evelien H S, Supiot, Laura F, Castell, Laia, Nakamura, Yuki, de Pins, Benoit, Pelosi, Assunta, Goutebroze, Laurence, Tuduri, Pola, Wang, Wei, Neiburga, Katrina Daila, Vestito, Letizia, Castel, Julien, Luquet, Serge, Nairn, Angus C, Hervé, Denis, Heintz, Nathaniel, Martin, Claire, Greengard, Paul, Valjent, Emmanuel, Meye, Frank J, Gambardella, Nicolas, Roussarie, Jean-Pierre, and Girault, Jean-Antoine

Published

2022

11. 022 Functional genomics and transcriptomics further characterise and potentially improve diagnostic yield of hereditary ataxias

Author

Chen, Zhongbo, primary, Cipriani, Valentina, additional, Zhang, David, additional, Tucci, Arianna, additional, Vestito, Letizia, additional, Smedley, Damian, additional, Houlden, Henry, additional, Botia, Juan, additional, and Ryten, Mina, additional

Published

2022

12. Dimensional reduction of phenotypes from 53,000 mouse models reveals a diverse landscape of gene function

Author

Konopka, Tomasz, primary, Vestito, Letizia, additional, and Smedley, Damian, additional

Published

2021

13. Dimensional reduction of phenotypes from 53 000 mouse models reveals a diverse landscape of gene function

Author

Konopka, Tomasz, primary, Vestito, Letizia, additional, and Smedley, Damian, additional

Published

2021

14. Heterozygous UCHL1loss-of-function variants cause a neurodegenerative disorder with spasticity, ataxia, neuropathy, and optic atrophy

Author

Park, Joohyun, Tucci, Arianna, Cipriani, Valentina, Demidov, German, Rocca, Clarissa, Senderek, Jan, Butryn, Michaela, Velic, Ana, Lam, Tanya, Galanaki, Evangelia, Cali, Elisa, Vestito, Letizia, Maroofian, Reza, Deininger, Natalie, Rautenberg, Maren, Admard, Jakob, Hahn, Gesa-Astrid, Bartels, Claudius, van Os, Nienke J.H., Horvath, Rita, Chinnery, Patrick F., Tiet, May Yung, Hewamadduma, Channa, Hadjivassiliou, Marios, Tofaris, George K., Ambrose, J.C., Arumugam, P., Baple, E.L., Bleda, M., Boardman-Pretty, F., Boissiere, J.M., Boustred, C.R., Brittain, H., Caulfield, M.J., Chan, G.C., Craig, C.E.H., Daugherty, L.C., de Burca, A., Devereau, A., Elgar, G., Foulger, R.E., Fowler, T., Furió-Tarí, P., Hackett, J.M., Halai, D., Hamblin, A., Henderson, S., Holman, J.E., Hubbard, T.J.P., Ibáñez, K., Jackson, R., Jones, L.J., Kasperaviciute, D., Kayikci, M., Lahnstein, L., Lawson, K., Leigh, S.E.A., Leong, I.U.S., Lopez, F.J., Maleady-Crowe, F., Mason, J., McDonagh, E.M., Moutsianas, L., Mueller, M., Murugaesu, N., Need, A.C., Odhams, C.A., Patch, C., Perez-Gil, D., Polychronopoulos, D., Pullinger, J., Rahim, T., Rendon, A., Riesgo-Ferreiro, P., Rogers, T., Ryten, M., Savage, K., Sawant, K., Scott, R.H., Siddiq, A., Sieghart, A., Smedley, D., Smith, K.R., Sosinsky, A., Spooner, W., Stevens, H.E., Stuckey, A., Sultana, R., Thomas, E.R.A., Thompson, S.R., Tregidgo, C., Tucci, A., Walsh, E., Watters, S.A., Welland, M.J., Williams, E., Witkowska, K., Wood, S.M., Zarowiecki, M., Wood, Nicholas W., Hayer, Stefanie N., Bender, Friedemann, Menden, Benita, Cordts, Isabell, Klein, Katrin, Nguyen, Huu Phuc, Krauss, Joachim K., Blahak, Christian, Strom, Tim M., Sturm, Marc, van de Warrenburg, Bart, Lerche, Holger, Maček, Boris, Synofzik, Matthis, Ossowski, Stephan, Timmann, Dagmar, Wolf, Marc E., Smedley, Damian, Riess, Olaf, Schöls, Ludger, Houlden, Henry, Haack, Tobias B., and Hengel, Holger

Abstract

Biallelic variants in UCHL1have been associated with a progressive early-onset neurodegenerative disorder, autosomal recessive spastic paraplegia type 79. In this study, we investigated heterozygous UCHL1variants on the basis of results from cohort-based burden analyses.

Published

2022

15. Translational profiling of mouse dopaminoceptive neurons reveals a role of PGE2 in dorsal striatum

Author

Montalban, Enrica, primary, Giralt, Albert, additional, Taing, Lieng, additional, Nakamura, Yuki, additional, Martin, Claire, additional, de Pins, Benoit, additional, Pelosi, Assunta, additional, Goutebroze, Laurence, additional, Castell, Laia, additional, Wang, Wei, additional, Neiburga, Kathrina Daila, additional, Vestito, Letizia, additional, Nairn, Angus C., additional, Valjent, Emmanuel, additional, Hervé, Denis, additional, Heintz, Nathaniel, additional, Le Novère, Nicolas Gambardella, additional, Greengard, Paul, additional, Roussarie, Jean-Pierre, additional, and Girault, Jean-Antoine, additional

Published

2020

16. Diverse Species-Specific Phenotypic Consequences of Loss of Function Sorting Nexin 14 Mutations

Author

Bryant, Dale, primary, Seda, Marian, additional, Peskett, Emma, additional, Maurer, Constance, additional, Pomeranz, Gideon, additional, Ghosh, Marcus, additional, Hawkins, Thomas, additional, Cleak, James, additional, Datta, Sanchari, additional, Hariri, Hanaa, additional, Eckert, Kaitlyn M., additional, Jafree, Daniyal J., additional, Walsh, Claire, additional, Demetriou, Charalambos, additional, Ishida, Miho, additional, Alemán-Charlet, Cristina, additional, Vestito, Letizia, additional, Seselgyte, Rimante, additional, McDonald, Jeffrey G., additional, Bitner-Glindzicz, Maria, additional, Hemberger, Myriam, additional, Rihel, Jason, additional, Teboul, Lydia, additional, Henne, Mike, additional, Jenkins, Dagan, additional, Moore, Gudrun E., additional, and Stanier, Philip, additional

Published

2019

17. Missense variants in RPH3Acause defects in excitatory synaptic function and are associated with a clinically variable neurodevelopmental disorder

Author

Pavinato, Lisa, Stanic, Jennifer, Barzasi, Marta, Gurgone, Antonia, Chiantia, Giuseppe, Cipriani, Valentina, Eberini, Ivano, Palazzolo, Luca, Di Luca, Monica, Costa, Alex, Marcantoni, Andrea, Biamino, Elisa, Spada, Marco, Hiatt, Susan M., Kelley, Whitley V., Vestito, Letizia, Sisodiya, Sanjay M., Efthymiou, Stephanie, Chand, Prem, Kaiyrzhanov, Rauan, Bruselles, Alessandro, Cardaropoli, Simona, Tartaglia, Marco, De Rubeis, Silvia, Buxbaum, Joseph D., Smedley, Damian, Ferrero, Giovanni Battista, Giustetto, Maurizio, Gardoni, Fabrizio, and Brusco, Alfredo

Abstract

RPH3Aencodes a protein involved in the stabilization of GluN2A subunit of N-methyl-D-aspartate (NMDA)-type glutamate receptors at the cell surface, forming a complex essential for synaptic plasticity and cognition. We investigated the effect of variants in RPH3Ain patients with neurodevelopmental disorders.

Published

2023

18. Heterozygous UCHL1loss-of-function variants cause a neurodegenerative disorder with spasticity, ataxia, neuropathy, and optic atrophy

Author

Park, Joohyun, Tucci, Arianna, Cipriani, Valentina, Demidov, German, Rocca, Clarissa, Senderek, Jan, Butryn, Michaela, Velic, Ana, Lam, Tanya, Galanaki, Evangelia, Cali, Elisa, Vestito, Letizia, Maroofian, Reza, Deininger, Natalie, Rautenberg, Maren, Admard, Jakob, Hahn, Gesa-Astrid, Bartels, Claudius, van Os, Nienke J.H., Horvath, Rita, Chinnery, Patrick F., Tiet, May Yung, Hewamadduma, Channa, Hadjivassiliou, Marios, Downes, Susan M., Németh, Andrea H., Tofaris, George K., Wood, Nicholas W., Hayer, Stefanie N., Bender, Friedemann, Menden, Benita, Cordts, Isabell, Klein, Katrin, Nguyen, Huu Phuc, Krauss, Joachim K., Blahak, Christian, Strom, Tim M., Sturm, Marc, van de Warrenburg, Bart, Lerche, Holger, Maček, Boris, Synofzik, Matthis, Ossowski, Stephan, Timmann, Dagmar, Wolf, Marc E., Smedley, Damian, Riess, Olaf, Schöls, Ludger, Houlden, Henry, Haack, Tobias B., and Hengel, Holger

Published

2023

19. Heterozygous UCHL1 loss-of-function variants cause a neurodegenerative disorder with spasticity, ataxia, neuropathy, and optic atrophy

Author

Park, Joohyun, Tucci, Arianna, Cipriani, Valentina, Demidov, German, Rocca, Clarissa, Senderek, Jan, Butryn, Michaela, Velic, Ana, Lam, Tanya, Galanaki, Evangelia, Cali, Elisa, Vestito, Letizia, Maroofian, Reza, Deininger, Natalie, Rautenberg, Maren, Admard, Jakob, Hahn, Gesa-Astrid, Bartels, Claudius, van Os, Nienke J.H., Horvath, Rita, Chinnery, Patrick F., Tiet, May Yung, Hewamadduma, Channa, Hadjivassiliou, Marios, Downes, Susan M., Németh, Andrea H., Tofaris, George K., Wood, Nicholas W., Hayer, Stefanie N., Bender, Friedemann, Menden, Benita, Cordts, Isabell, Klein, Katrin, Nguyen, Huu Phuc, Krauss, Joachim K., Blahak, Christian, Strom, Tim M., Sturm, Marc, van de Warrenburg, Bart, Lerche, Holger, Maček, Boris, Synofzik, Matthis, Ossowski, Stephan, Timmann, Dagmar, Wolf, Marc E., Smedley, Damian, Riess, Olaf, Schöls, Ludger, Houlden, Henry, Haack, Tobias B., and Hengel, Holger

20. De novo and inherited monoallelic variants in TUBA4A cause ataxia and spasticity.

Author

Benkirane M, Bonhomme M, Morsy H, Safgren SL, Marelli C, Chaussenot A, Smedley D, Cipriani V, de Sainte-Agathe JM, Ding C, Larrieu L, Vestito L, Margot H, Lesca G, Ramond F, Castrioto A, Baux D, Verheijen J, Sansa E, Giunti P, Haetty A, Bergougnoux A, Pointaux M, Ardouin O, Van Goethem C, Vincent MC, Hadjivassiliou M, Cossée M, Rouaud T, Bartsch O, Freeman WD, Wierenga KJ, Klee EW, Vandrovcova J, Houlden H, Debant A, and Koenig M

Subjects

Humans, Male, Female, Middle Aged, Adult, Aged, Cerebellar Ataxia genetics, Spinocerebellar Ataxias genetics, Pedigree, Cohort Studies, France, Intellectual Disability, Optic Atrophy, Tubulin genetics, Muscle Spasticity genetics, Mutation, Missense genetics

Abstract

Alpha-tubulin 4A encoding gene (TUBA4A) has been associated with familial amyotrophic lateral sclerosis and frontotemporal dementia, based on identification of likely pathogenic variants in patients from distinct amyotrophic lateral sclerosis and frontotemporal dementia cohorts. By screening a multicentric French cohort of 448 unrelated probands presenting with cerebellar ataxia, we identified ultra-rare TUBA4A missense variants, all being absent from public databases and predicted pathogenic by multiple in silico tools. In addition, gene burden analyses in the 100 000 Genomes project (100KGP) showed enrichment of TUBA4A rare variants in the inherited ataxia group compared to controls [odds ratio: 57.0847 (10.2-576.7); P = 4.02 ×10-7]. Taken together, we report 12 patients presenting with spasticity and/or cerebellar ataxia and harbouring a predicted pathogenic TUBA4A missense mutation, including five confirmed de novo cases and a mutation previously reported in a large family presenting with spastic ataxia. Cultured fibroblasts from three patients harbouring distinct TUBA4A missense showed significant alterations in microtubule organization and dynamics, providing insight of TUBA4A variants pathogenicity. Our data confirm the identification of a hereditary spastic ataxia disease gene with variable age of onset, expanding the clinical spectrum of TUBA4A associated phenotypes., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

21. Rare disease gene association discovery from burden analysis of the 100,000 Genomes Project data.

Author

Cipriani V, Vestito L, Magavern EF, Jacobsen JO, Arno G, Behr ER, Benson KA, Bertoli M, Bockenhauer D, Bowl MR, Burley K, Chan LF, Chinnery P, Conlon P, Costa M, Davidson AE, Dawson SJ, Elhassan E, Flanagan SE, Futema M, Gale DP, García-Ruiz S, Corcia CG, Griffin HR, Hambleton S, Hicks AR, Houlden H, Houlston RS, Howles SA, Kleta R, Lekkerkerker I, Lin S, Liskova P, Mitchison H, Morsy H, Mumford AD, Newman WG, Neatu R, O'Toole EA, Ong AC, Pagnamenta AT, Rahman S, Rajan N, Robinson PN, Ryten M, Sadeghi-Alavijeh O, Sayer JA, Shovlin CL, Taylor JC, Teltsh O, Tomlinson I, Tucci A, Turnbull C, van Eerde AM, Ware JS, Watts LM, Webster AR, Westbury SK, Zheng SL, Caulfield M, and Smedley D

Abstract

To discover rare disease-gene associations, we developed a gene burden analytical framework and applied it to rare, protein-coding variants from whole genome sequencing of 35,008 cases with rare diseases and their family members recruited to the 100,000 Genomes Project (100KGP). Following in silico triaging of the results, 88 novel associations were identified including 38 with existing experimental evidence. We have published the confirmation of one of these associations, hereditary ataxia with UCHL1 , and independent confirmatory evidence has recently been published for four more. We highlight a further seven compelling associations: hypertrophic cardiomyopathy with DYSF and SLC4A3 where both genes show high/specific heart expression and existing associations to skeletal dystrophies or short QT syndrome respectively; monogenic diabetes with UNC13A with a known role in the regulation of β cells and a mouse model with impaired glucose tolerance; epilepsy with KCNQ1 where a mouse model shows seizures and the existing long QT syndrome association may be linked; early onset Parkinson's disease with RYR1 with existing links to tremor pathophysiology and a mouse model with neurological phenotypes; anterior segment ocular abnormalities associated with POMK showing expression in corneal cells and with a zebrafish model with developmental ocular abnormalities; and cystic kidney disease with COL4A3 showing high renal expression and prior evidence for a digenic or modifying role in renal disease. Confirmation of all 88 associations would lead to potential diagnoses in 456 molecularly undiagnosed cases within the 100KGP, as well as other rare disease patients worldwide, highlighting the clinical impact of a large-scale statistical approach to rare disease gene discovery.

Published

2023

22. Functional genomics provide key insights to improve the diagnostic yield of hereditary ataxia.

Author

Chen Z, Tucci A, Cipriani V, Gustavsson EK, Ibañez K, Reynolds RH, Zhang D, Vestito L, García AC, Sethi S, Brenton JW, García-Ruiz S, Fairbrother-Browne A, Gil-Martinez AL, Wood N, Hardy JA, Smedley D, Houlden H, Botía J, and Ryten M

Subjects

Adult, Humans, Ataxia diagnosis, Ataxia genetics, Genomics, Genetic Testing, Spinocerebellar Degenerations genetics, Cerebellar Ataxia diagnosis, Cerebellar Ataxia genetics

Abstract

Improvements in functional genomic annotation have led to a critical mass of neurogenetic discoveries. This is exemplified in hereditary ataxia, a heterogeneous group of disorders characterised by incoordination from cerebellar dysfunction. Associated pathogenic variants in more than 300 genes have been described, leading to a detailed genetic classification partitioned by age-of-onset. Despite these advances, up to 75% of patients with ataxia remain molecularly undiagnosed even following whole genome sequencing, as exemplified in the 100 000 Genomes Project. This study aimed to understand whether we can improve our knowledge of the genetic architecture of hereditary ataxia by leveraging functional genomic annotations, and as a result, generate insights and strategies that raise the diagnostic yield. To achieve these aims, we used publicly-available multi-omics data to generate 294 genic features, capturing information relating to a gene's structure, genetic variation, tissue-specific, cell-type-specific and temporal expression, as well as protein products of a gene. We studied these features across genes typically causing childhood-onset, adult-onset or both types of disease first individually, then collectively. This led to the generation of testable hypotheses which we investigated using whole genome sequencing data from up to 2182 individuals presenting with ataxia and 6658 non-neurological probands recruited in the 100 000 Genomes Project. Using this approach, we demonstrated a high short tandem repeat (STR) density within childhood-onset genes suggesting that we may be missing pathogenic repeat expansions within this cohort. This was verified in both childhood- and adult-onset ataxia patients from the 100 000 Genomes Project who were unexpectedly found to have a trend for higher repeat sizes even at naturally-occurring STRs within known ataxia genes, implying a role for STRs in pathogenesis. Using unsupervised analysis, we found significant similarities in genomic annotation across the gene panels, which suggested adult- and childhood-onset patients should be screened using a common diagnostic gene set. We tested this within the 100 000 Genomes Project by assessing the burden of pathogenic variants among childhood-onset genes in adult-onset patients and vice versa. This demonstrated a significantly higher burden of rare, potentially pathogenic variants in conventional childhood-onset genes among individuals with adult-onset ataxia. Our analysis has implications for the current clinical practice in genetic testing for hereditary ataxia. We suggest that the diagnostic rate for hereditary ataxia could be increased by removing the age-of-onset partition, and through a modified screening for repeat expansions in naturally-occurring STRs within known ataxia-associated genes, in effect treating these regions as candidate pathogenic loci., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2023