Your search keyword '"Dakal Tikam Chand"' showing total 15 results

1. Biallelic and monoallelic variants in PLXNA1 are implicated in a novel neurodevelopmental disorder with variable cerebral and eye anomalies

Author

Dworschak, Gabriel C., Punetha, Jaya, Kalanithy, Jeshurun C., Mingardo, Enrico, Erdem, Haktan B., Akdemir, Zeynep C., Karaca, Ender, Mitani, Tadahiro, Marafi, Dana, Fatih, Jawid M., Jhangiani, Shalini N., Hunter, Jill V., Dakal, Tikam Chand, Dhabhai, Bhanupriya, Dabbagh, Omar, Alsaif, Hessa S., Alkuraya, Fowzan S., Maroofian, Reza, Houlden, Henry, Efthymiou, Stephanie, Dominik, Natalia, Salpietro, Vincenzo, Sultan, Tipu, Haider, Shahzad, Bibi, Farah, Thiele, Holger, Hoefele, Julia, Riedhammer, Korbinian M., Wagner, Matias, Guella, Ilaria, Demos, Michelle, Keren, Boris, Buratti, Julien, Charles, Perrine, Nava, Caroline, Heron, Delphine, Heide, Solveig, Valkanas, Elise, Waddell, Leigh B., Jones, Kristi J., Oates, Emily C., Cooper, Sandra T., MacArthur, Daniel, Syrbe, Steffen, Ziegler, Andreas, Platzer, Konrad, Okur, Volkan, Chung, Wendy K., O'Shea, Sarah A., Alcalay, Roy, Fahn, Stanley, Mark, Paul R., Guerrini, Renzo, Vetro, Annalisa, Hudson, Beth, Schnur, Rhonda E., Hoganson, George E., Burton, Jennifer E., McEntagart, Meriel, Lindenberg, Tobias, Yilmaz, Oeznur, Odermatt, Benjamin, Pehlivan, Davut, Posey, Jennifer E., Lupski, James R., Reutter, Heiko, Dworschak, Gabriel C., Punetha, Jaya, Kalanithy, Jeshurun C., Mingardo, Enrico, Erdem, Haktan B., Akdemir, Zeynep C., Karaca, Ender, Mitani, Tadahiro, Marafi, Dana, Fatih, Jawid M., Jhangiani, Shalini N., Hunter, Jill V., Dakal, Tikam Chand, Dhabhai, Bhanupriya, Dabbagh, Omar, Alsaif, Hessa S., Alkuraya, Fowzan S., Maroofian, Reza, Houlden, Henry, Efthymiou, Stephanie, Dominik, Natalia, Salpietro, Vincenzo, Sultan, Tipu, Haider, Shahzad, Bibi, Farah, Thiele, Holger, Hoefele, Julia, Riedhammer, Korbinian M., Wagner, Matias, Guella, Ilaria, Demos, Michelle, Keren, Boris, Buratti, Julien, Charles, Perrine, Nava, Caroline, Heron, Delphine, Heide, Solveig, Valkanas, Elise, Waddell, Leigh B., Jones, Kristi J., Oates, Emily C., Cooper, Sandra T., MacArthur, Daniel, Syrbe, Steffen, Ziegler, Andreas, Platzer, Konrad, Okur, Volkan, Chung, Wendy K., O'Shea, Sarah A., Alcalay, Roy, Fahn, Stanley, Mark, Paul R., Guerrini, Renzo, Vetro, Annalisa, Hudson, Beth, Schnur, Rhonda E., Hoganson, George E., Burton, Jennifer E., McEntagart, Meriel, Lindenberg, Tobias, Yilmaz, Oeznur, Odermatt, Benjamin, Pehlivan, Davut, Posey, Jennifer E., Lupski, James R., and Reutter, Heiko

Abstract

Purpose To investigate the effect of PLXNA1 variants on the phenotype of patients with autosomal dominant and recessive inheritance patterns and to functionally characterize the zebrafish homologs plxna1a and plxna1b during development. Methods We assembled ten patients from seven families with biallelic or de novo PLXNA1 variants. We describe genotype-phenotype correlations, investigated the variants by structural modeling, and used Morpholino knockdown experiments in zebrafish to characterize the embryonic role of plxna1a and plxna1b. Results Shared phenotypic features among patients include global developmental delay (9/10), brain anomalies (6/10), and eye anomalies (7/10). Notably, seizures were predominantly reported in patients with monoallelic variants. Structural modeling of missense variants in PLXNA1 suggests distortion in the native protein. Our zebrafish studies enforce an embryonic role of plxna1a and plxna1b in the development of the central nervous system and the eye. Conclusion We propose that different biallelic and monoallelic variants in PLXNA1 result in a novel neurodevelopmental syndrome mainly comprising developmental delay, brain, and eye anomalies. We hypothesize that biallelic variants in the extracellular Plexin-A1 domains lead to impaired dimerization or lack of receptor molecules, whereas monoallelic variants in the intracellular Plexin-A1 domains might impair downstream signaling through a dominant-negative effect.

Published

2021

2. Biallelic and monoallelic variants in PLXNA1 are implicated in a novel neurodevelopmental disorder with variable cerebral and eye anomalies

Author

Dworschak, Gabriel C., Punetha, Jaya, Kalanithy, Jeshurun C., Mingardo, Enrico, Erdem, Haktan B., Akdemir, Zeynep C., Karaca, Ender, Mitani, Tadahiro, Marafi, Dana, Fatih, Jawid M., Jhangiani, Shalini N., Hunter, Jill V., Dakal, Tikam Chand, Dhabhai, Bhanupriya, Dabbagh, Omar, Alsaif, Hessa S., Alkuraya, Fowzan S., Maroofian, Reza, Houlden, Henry, Efthymiou, Stephanie, Dominik, Natalia, Salpietro, Vincenzo, Sultan, Tipu, Haider, Shahzad, Bibi, Farah, Thiele, Holger, Hoefele, Julia, Riedhammer, Korbinian M., Wagner, Matias, Guella, Ilaria, Demos, Michelle, Keren, Boris, Buratti, Julien, Charles, Perrine, Nava, Caroline, Heron, Delphine, Heide, Solveig, Valkanas, Elise, Waddell, Leigh B., Jones, Kristi J., Oates, Emily C., Cooper, Sandra T., MacArthur, Daniel, Syrbe, Steffen, Ziegler, Andreas, Platzer, Konrad, Okur, Volkan, Chung, Wendy K., O'Shea, Sarah A., Alcalay, Roy, Fahn, Stanley, Mark, Paul R., Guerrini, Renzo, Vetro, Annalisa, Hudson, Beth, Schnur, Rhonda E., Hoganson, George E., Burton, Jennifer E., McEntagart, Meriel, Lindenberg, Tobias, Yilmaz, Oeznur, Odermatt, Benjamin, Pehlivan, Davut, Posey, Jennifer E., Lupski, James R., Reutter, Heiko, Dworschak, Gabriel C., Punetha, Jaya, Kalanithy, Jeshurun C., Mingardo, Enrico, Erdem, Haktan B., Akdemir, Zeynep C., Karaca, Ender, Mitani, Tadahiro, Marafi, Dana, Fatih, Jawid M., Jhangiani, Shalini N., Hunter, Jill V., Dakal, Tikam Chand, Dhabhai, Bhanupriya, Dabbagh, Omar, Alsaif, Hessa S., Alkuraya, Fowzan S., Maroofian, Reza, Houlden, Henry, Efthymiou, Stephanie, Dominik, Natalia, Salpietro, Vincenzo, Sultan, Tipu, Haider, Shahzad, Bibi, Farah, Thiele, Holger, Hoefele, Julia, Riedhammer, Korbinian M., Wagner, Matias, Guella, Ilaria, Demos, Michelle, Keren, Boris, Buratti, Julien, Charles, Perrine, Nava, Caroline, Heron, Delphine, Heide, Solveig, Valkanas, Elise, Waddell, Leigh B., Jones, Kristi J., Oates, Emily C., Cooper, Sandra T., MacArthur, Daniel, Syrbe, Steffen, Ziegler, Andreas, Platzer, Konrad, Okur, Volkan, Chung, Wendy K., O'Shea, Sarah A., Alcalay, Roy, Fahn, Stanley, Mark, Paul R., Guerrini, Renzo, Vetro, Annalisa, Hudson, Beth, Schnur, Rhonda E., Hoganson, George E., Burton, Jennifer E., McEntagart, Meriel, Lindenberg, Tobias, Yilmaz, Oeznur, Odermatt, Benjamin, Pehlivan, Davut, Posey, Jennifer E., Lupski, James R., and Reutter, Heiko

Abstract

Purpose To investigate the effect of PLXNA1 variants on the phenotype of patients with autosomal dominant and recessive inheritance patterns and to functionally characterize the zebrafish homologs plxna1a and plxna1b during development. Methods We assembled ten patients from seven families with biallelic or de novo PLXNA1 variants. We describe genotype-phenotype correlations, investigated the variants by structural modeling, and used Morpholino knockdown experiments in zebrafish to characterize the embryonic role of plxna1a and plxna1b. Results Shared phenotypic features among patients include global developmental delay (9/10), brain anomalies (6/10), and eye anomalies (7/10). Notably, seizures were predominantly reported in patients with monoallelic variants. Structural modeling of missense variants in PLXNA1 suggests distortion in the native protein. Our zebrafish studies enforce an embryonic role of plxna1a and plxna1b in the development of the central nervous system and the eye. Conclusion We propose that different biallelic and monoallelic variants in PLXNA1 result in a novel neurodevelopmental syndrome mainly comprising developmental delay, brain, and eye anomalies. We hypothesize that biallelic variants in the extracellular Plexin-A1 domains lead to impaired dimerization or lack of receptor molecules, whereas monoallelic variants in the intracellular Plexin-A1 domains might impair downstream signaling through a dominant-negative effect.

Published

2021

3. SLC20A1Is Involved in Urinary Tract and Urorectal Development

Author

Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, Reutter, Heiko, Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, and Reutter, Heiko

Abstract

Previous studies in developingXenopusand zebrafish reported that the phosphate transporterslc20a1ais expressed in pronephric kidneys. The recent identification ofSLC20A1as a monoallelic candidate gene for cloacal exstrophy further suggests its involvement in the urinary tract and urorectal development. However, little is known of the functional role ofSLC20A1in urinary tract development. Here, we investigated this using morpholino oligonucleotide knockdown of the zebrafish orthologslc20a1a. This caused kidney cysts and malformations of the cloaca. Moreover, in morphants we demonstrated dysfunctional voiding and hindgut opening defects mimicking imperforate anus in human cloacal exstrophy. Furthermore, we performed immunohistochemistry of an unaffected 6-week-old human embryo and detectedSLC20A1in the urinary tract and the abdominal midline, structures implicated in the pathogenesis of cloacal exstrophy. Additionally, we resequencedSLC20A1in 690 individuals with bladder exstrophy-epispadias complex (BEEC) including 84 individuals with cloacal exstrophy. We identified two additional monoallelicde novovariants. One was identified in a case-parent trio with classic bladder exstrophy, and one additional novelde novovariant was detected in an affected mother who transmitted this variant to her affected son. To study the potential cellular impact ofSLC20A1variants, we expressed them in HEK293 cells. Here, phosphate transport was not compromised, suggesting that it is not a disease mechanism. However, there was a tendency for lower levels of cleaved caspase-3, perhaps implicating apoptosis pathways in the disease. Our results suggestSLC20A1is involved in urinary tract and urorectal development and implicateSLC20A1as a disease-gene for BEEC.

Published

2020

4. SLC20A1Is Involved in Urinary Tract and Urorectal Development

Author

Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, Reutter, Heiko, Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, and Reutter, Heiko

Abstract

Previous studies in developingXenopusand zebrafish reported that the phosphate transporterslc20a1ais expressed in pronephric kidneys. The recent identification ofSLC20A1as a monoallelic candidate gene for cloacal exstrophy further suggests its involvement in the urinary tract and urorectal development. However, little is known of the functional role ofSLC20A1in urinary tract development. Here, we investigated this using morpholino oligonucleotide knockdown of the zebrafish orthologslc20a1a. This caused kidney cysts and malformations of the cloaca. Moreover, in morphants we demonstrated dysfunctional voiding and hindgut opening defects mimicking imperforate anus in human cloacal exstrophy. Furthermore, we performed immunohistochemistry of an unaffected 6-week-old human embryo and detectedSLC20A1in the urinary tract and the abdominal midline, structures implicated in the pathogenesis of cloacal exstrophy. Additionally, we resequencedSLC20A1in 690 individuals with bladder exstrophy-epispadias complex (BEEC) including 84 individuals with cloacal exstrophy. We identified two additional monoallelicde novovariants. One was identified in a case-parent trio with classic bladder exstrophy, and one additional novelde novovariant was detected in an affected mother who transmitted this variant to her affected son. To study the potential cellular impact ofSLC20A1variants, we expressed them in HEK293 cells. Here, phosphate transport was not compromised, suggesting that it is not a disease mechanism. However, there was a tendency for lower levels of cleaved caspase-3, perhaps implicating apoptosis pathways in the disease. Our results suggestSLC20A1is involved in urinary tract and urorectal development and implicateSLC20A1as a disease-gene for BEEC.

Published

2020

5. SLC20A1Is Involved in Urinary Tract and Urorectal Development

Author

Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, Reutter, Heiko, Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, and Reutter, Heiko

Abstract

Previous studies in developingXenopusand zebrafish reported that the phosphate transporterslc20a1ais expressed in pronephric kidneys. The recent identification ofSLC20A1as a monoallelic candidate gene for cloacal exstrophy further suggests its involvement in the urinary tract and urorectal development. However, little is known of the functional role ofSLC20A1in urinary tract development. Here, we investigated this using morpholino oligonucleotide knockdown of the zebrafish orthologslc20a1a. This caused kidney cysts and malformations of the cloaca. Moreover, in morphants we demonstrated dysfunctional voiding and hindgut opening defects mimicking imperforate anus in human cloacal exstrophy. Furthermore, we performed immunohistochemistry of an unaffected 6-week-old human embryo and detectedSLC20A1in the urinary tract and the abdominal midline, structures implicated in the pathogenesis of cloacal exstrophy. Additionally, we resequencedSLC20A1in 690 individuals with bladder exstrophy-epispadias complex (BEEC) including 84 individuals with cloacal exstrophy. We identified two additional monoallelicde novovariants. One was identified in a case-parent trio with classic bladder exstrophy, and one additional novelde novovariant was detected in an affected mother who transmitted this variant to her affected son. To study the potential cellular impact ofSLC20A1variants, we expressed them in HEK293 cells. Here, phosphate transport was not compromised, suggesting that it is not a disease mechanism. However, there was a tendency for lower levels of cleaved caspase-3, perhaps implicating apoptosis pathways in the disease. Our results suggestSLC20A1is involved in urinary tract and urorectal development and implicateSLC20A1as a disease-gene for BEEC.

Published

2020

6. Advanced glycation end products and protein carbonyl levels in plasma reveal sex-specific differences in Parkinson's and Alzheimer's disease

Author

Sharma, Amit, Weber, Daniela, Raupbach, Jana, Dakal, Tikam Chand, Fliessbach, Klaus, Ramirez, Alfredo, Grune, Tilman, Wuellner, Ullrich, Sharma, Amit, Weber, Daniela, Raupbach, Jana, Dakal, Tikam Chand, Fliessbach, Klaus, Ramirez, Alfredo, Grune, Tilman, and Wuellner, Ullrich

Abstract

Neurodegenerative diseases (NDD) such as Alzheimer's (AD) and Parkinson's disease (PD) are distinct clinical entities, however, the aggregation of key neuronal proteins, presumably leading to neuronal demise appears to represent a common mechanism. It has become evident, that advanced glycation end products (AGEs) trigger the accumulation of such modified proteins, which eventually contributes to pathological aspect of NDDs. Increased levels of AGEs are found in amyloid plaques in AD brains and in both advanced and early PD (incidental Lewy body disease). The molecular mechanisms by which AGE dependent modifications may modulate the susceptibility towards NDDs, however, remain enigmatic and it is unclear, whether AGEs may serve as biomarker of NDD. In the present study, we examined AGEs (CML: Carboxymethyllysine and CEL: Carboxyethyllysine), markers of oxidative stress and micronutrients in the plasma of PD and AD patients and controls. As compared to healthy controls, AD females displayed lower levels of CEL while higher levels of CML were found in AD and PD patients. A somewhat similar pattern was observed for protein carbonyls (PC), revealing lower values exclusively in AD females, whereas AD males displayed significantly higher values compared to healthy controls and PD. Sex-specific differences were also observed for other relevant markers such as malondialdehyde, 3-nitrotyrosine, gamma-tocopherols, retinol, plasma proteins and alpha-carotene, while alpha-tocopherols, beta-carotene, lutein/zeaxanthin, beta-cryptoxanthin and lycopene showed no relevant association. Taken together, our study suggests yet unappreciated differences of the distribution of AGEs among the sexes in NDD. We therefore suggest to make a clear distinction between sexes when analyzing oxidative (AGEs)-related stress and carbonyl-related stress and vitamins.

Published

2020

7. Human exome and mouse embryonic expression data implicateZFHX3,TRPS1, andCHD7in human esophageal atresia

Author

Zhang, Rong, Gehlen, Jan, Kawalia, Amit, Melissari, Maria-Theodora, Dakal, Tikam Chand, Menon, Athira M., Hoefele, Julia, Riedhammer, Korbinian, Waffenschmidt, Lea, Fabian, Julia, Breuer, Katinka, Kalanithy, Jeshurun, Hilger, Alina Christine, Sharma, Amit, Hoelscher, Alice, Boemers, Thomas M., Pauly, Markus, Leutner, Andreas, Fuchs, Joerg, Seitz, Guido, Ludwikowski, Barbara M., Gomez, Barbara, Hubertus, Jochen, Heydweiller, Andreas, Kurz, Ralf, Leonhardt, Johannes, Kosch, Ferdinand, Holland-Cunz, Stefan, Muensterer, Oliver, Ure, Beno, Schmiedeke, Eberhard, Neser, Joerg, Degenhardt, Petra, Maerzheuser, Stefanie, Kleine, Katharina, Schaefer, Mattias, Spychalski, Nicole, Deffaa, Oliver J., Gosemann, Jan-Hendrik, Lacher, Martin, Heilmann-Heimbach, Stefanie, Zwink, Nadine, Jenetzky, Ekkehart, Ludwig, Michael, Grote, Phillip, Schumacher, Johannes, Thiele, Holger, Reutter, Heiko, Zhang, Rong, Gehlen, Jan, Kawalia, Amit, Melissari, Maria-Theodora, Dakal, Tikam Chand, Menon, Athira M., Hoefele, Julia, Riedhammer, Korbinian, Waffenschmidt, Lea, Fabian, Julia, Breuer, Katinka, Kalanithy, Jeshurun, Hilger, Alina Christine, Sharma, Amit, Hoelscher, Alice, Boemers, Thomas M., Pauly, Markus, Leutner, Andreas, Fuchs, Joerg, Seitz, Guido, Ludwikowski, Barbara M., Gomez, Barbara, Hubertus, Jochen, Heydweiller, Andreas, Kurz, Ralf, Leonhardt, Johannes, Kosch, Ferdinand, Holland-Cunz, Stefan, Muensterer, Oliver, Ure, Beno, Schmiedeke, Eberhard, Neser, Joerg, Degenhardt, Petra, Maerzheuser, Stefanie, Kleine, Katharina, Schaefer, Mattias, Spychalski, Nicole, Deffaa, Oliver J., Gosemann, Jan-Hendrik, Lacher, Martin, Heilmann-Heimbach, Stefanie, Zwink, Nadine, Jenetzky, Ekkehart, Ludwig, Michael, Grote, Phillip, Schumacher, Johannes, Thiele, Holger, and Reutter, Heiko

Abstract

Introduction Esophageal atresia with or without tracheoesophageal fistula (EA/TEF) occurs approximately 1 in 3.500 live births representing the most common malformation of the upper digestive tract. Only half a century ago, EA/TEF was fatal among affected newborns suggesting that the steady birth prevalence might in parts be due to mutationalde novoevents in genes involved in foregut development. Methods To identify mutationalde novoevents in EA/TEF patients, we surveyed the exome of 30 case-parent trios. Identified and confirmedde novovariants were prioritized usingin silicoprediction tools. To investigate the embryonic role of genes harboring prioritizedde novovariants we performed targeted analysis of mouse transcriptome data of esophageal tissue obtained at the embryonic day (E) E8.5, E12.5, and postnatal. Results In total we prioritized 14 novelde novovariants in 14 different genes (APOL2,EEF1D,CHD7,FANCB,GGT6,KIAA0556,NFX1,NPR2,PIGC,SLC5A2,TANC2,TRPS1,UBA3, andZFHX3) and eight rarede novovariants in eight additional genes (CELSR1,CLP1,GPR133,HPS3,MTA3,PLEC,STAB1, andPPIP5K2). Through personal communication during the project, we identified an additional EA/TEF case-parent trio with a rarede novovariant inZFHX3.In silicoprediction analysis of the identified variants and comparative analysis of mouse transcriptome data of esophageal tissue obtained at E8.5, E12.5, and postnatal prioritizedCHD7,TRPS1, andZFHX3as EA/TEF candidate genes. Re-sequencing ofZFHX3in additional 192 EA/TEF patients did not identify further putative EA/TEF-associated variants. Conclusion Our study suggests that rare mutationalde novoevents in genes involved in foregut development contribute to the development of EA/TEF.

Published

2020

8. SLC20A1Is Involved in Urinary Tract and Urorectal Development

Author

Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Laeckgren, Goran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, Reutter, Heiko, Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Laeckgren, Goran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, and Reutter, Heiko

Abstract

Previous studies in developingXenopusand zebrafish reported that the phosphate transporterslc20a1ais expressed in pronephric kidneys. The recent identification ofSLC20A1as a monoallelic candidate gene for cloacal exstrophy further suggests its involvement in the urinary tract and urorectal development. However, little is known of the functional role ofSLC20A1in urinary tract development. Here, we investigated this using morpholino oligonucleotide knockdown of the zebrafish orthologslc20a1a. This caused kidney cysts and malformations of the cloaca. Moreover, in morphants we demonstrated dysfunctional voiding and hindgut opening defects mimicking imperforate anus in human cloacal exstrophy. Furthermore, we performed immunohistochemistry of an unaffected 6-week-old human embryo and detectedSLC20A1in the urinary tract and the abdominal midline, structures implicated in the pathogenesis of cloacal exstrophy. Additionally, we resequencedSLC20A1in 690 individuals with bladder exstrophy-epispadias complex (BEEC) including 84 individuals with cloacal exstrophy. We identified two additional monoallelicde novovariants. One was identified in a case-parent trio with classic bladder exstrophy, and one additional novelde novovariant was detected in an affected mother who transmitted this variant to her affected son. To study the potential cellular impact ofSLC20A1variants, we expressed them in HEK293 cells. Here, phosphate transport was not compromised, suggesting that it is not a disease mechanism. However, there was a tendency for lower levels of cleaved caspase-3, perhaps implicating apoptosis pathways in the disease. Our results suggestSLC20A1is involved in urinary tract and urorectal development and implicateSLC20A1as a disease-gene for BEEC.

Published

2020

9. SLC20A1Is Involved in Urinary Tract and Urorectal Development

Author

Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, Reutter, Heiko, Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, and Reutter, Heiko

Abstract

Previous studies in developingXenopusand zebrafish reported that the phosphate transporterslc20a1ais expressed in pronephric kidneys. The recent identification ofSLC20A1as a monoallelic candidate gene for cloacal exstrophy further suggests its involvement in the urinary tract and urorectal development. However, little is known of the functional role ofSLC20A1in urinary tract development. Here, we investigated this using morpholino oligonucleotide knockdown of the zebrafish orthologslc20a1a. This caused kidney cysts and malformations of the cloaca. Moreover, in morphants we demonstrated dysfunctional voiding and hindgut opening defects mimicking imperforate anus in human cloacal exstrophy. Furthermore, we performed immunohistochemistry of an unaffected 6-week-old human embryo and detectedSLC20A1in the urinary tract and the abdominal midline, structures implicated in the pathogenesis of cloacal exstrophy. Additionally, we resequencedSLC20A1in 690 individuals with bladder exstrophy-epispadias complex (BEEC) including 84 individuals with cloacal exstrophy. We identified two additional monoallelicde novovariants. One was identified in a case-parent trio with classic bladder exstrophy, and one additional novelde novovariant was detected in an affected mother who transmitted this variant to her affected son. To study the potential cellular impact ofSLC20A1variants, we expressed them in HEK293 cells. Here, phosphate transport was not compromised, suggesting that it is not a disease mechanism. However, there was a tendency for lower levels of cleaved caspase-3, perhaps implicating apoptosis pathways in the disease. Our results suggestSLC20A1is involved in urinary tract and urorectal development and implicateSLC20A1as a disease-gene for BEEC.

Published

2020

10. Human exome and mouse embryonic expression data implicateZFHX3,TRPS1, andCHD7in human esophageal atresia

Author

Zhang, Rong, Gehlen, Jan, Kawalia, Amit, Melissari, Maria-Theodora, Dakal, Tikam Chand, Menon, Athira M., Hoefele, Julia, Riedhammer, Korbinian, Waffenschmidt, Lea, Fabian, Julia, Breuer, Katinka, Kalanithy, Jeshurun, Hilger, Alina Christine, Sharma, Amit, Hoelscher, Alice, Boemers, Thomas M., Pauly, Markus, Leutner, Andreas, Fuchs, Joerg, Seitz, Guido, Ludwikowski, Barbara M., Gomez, Barbara, Hubertus, Jochen, Heydweiller, Andreas, Kurz, Ralf, Leonhardt, Johannes, Kosch, Ferdinand, Holland-Cunz, Stefan, Muensterer, Oliver, Ure, Beno, Schmiedeke, Eberhard, Neser, Joerg, Degenhardt, Petra, Maerzheuser, Stefanie, Kleine, Katharina, Schaefer, Mattias, Spychalski, Nicole, Deffaa, Oliver J., Gosemann, Jan-Hendrik, Lacher, Martin, Heilmann-Heimbach, Stefanie, Zwink, Nadine, Jenetzky, Ekkehart, Ludwig, Michael, Grote, Phillip, Schumacher, Johannes, Thiele, Holger, Reutter, Heiko, Zhang, Rong, Gehlen, Jan, Kawalia, Amit, Melissari, Maria-Theodora, Dakal, Tikam Chand, Menon, Athira M., Hoefele, Julia, Riedhammer, Korbinian, Waffenschmidt, Lea, Fabian, Julia, Breuer, Katinka, Kalanithy, Jeshurun, Hilger, Alina Christine, Sharma, Amit, Hoelscher, Alice, Boemers, Thomas M., Pauly, Markus, Leutner, Andreas, Fuchs, Joerg, Seitz, Guido, Ludwikowski, Barbara M., Gomez, Barbara, Hubertus, Jochen, Heydweiller, Andreas, Kurz, Ralf, Leonhardt, Johannes, Kosch, Ferdinand, Holland-Cunz, Stefan, Muensterer, Oliver, Ure, Beno, Schmiedeke, Eberhard, Neser, Joerg, Degenhardt, Petra, Maerzheuser, Stefanie, Kleine, Katharina, Schaefer, Mattias, Spychalski, Nicole, Deffaa, Oliver J., Gosemann, Jan-Hendrik, Lacher, Martin, Heilmann-Heimbach, Stefanie, Zwink, Nadine, Jenetzky, Ekkehart, Ludwig, Michael, Grote, Phillip, Schumacher, Johannes, Thiele, Holger, and Reutter, Heiko

Abstract

Introduction Esophageal atresia with or without tracheoesophageal fistula (EA/TEF) occurs approximately 1 in 3.500 live births representing the most common malformation of the upper digestive tract. Only half a century ago, EA/TEF was fatal among affected newborns suggesting that the steady birth prevalence might in parts be due to mutationalde novoevents in genes involved in foregut development. Methods To identify mutationalde novoevents in EA/TEF patients, we surveyed the exome of 30 case-parent trios. Identified and confirmedde novovariants were prioritized usingin silicoprediction tools. To investigate the embryonic role of genes harboring prioritizedde novovariants we performed targeted analysis of mouse transcriptome data of esophageal tissue obtained at the embryonic day (E) E8.5, E12.5, and postnatal. Results In total we prioritized 14 novelde novovariants in 14 different genes (APOL2,EEF1D,CHD7,FANCB,GGT6,KIAA0556,NFX1,NPR2,PIGC,SLC5A2,TANC2,TRPS1,UBA3, andZFHX3) and eight rarede novovariants in eight additional genes (CELSR1,CLP1,GPR133,HPS3,MTA3,PLEC,STAB1, andPPIP5K2). Through personal communication during the project, we identified an additional EA/TEF case-parent trio with a rarede novovariant inZFHX3.In silicoprediction analysis of the identified variants and comparative analysis of mouse transcriptome data of esophageal tissue obtained at E8.5, E12.5, and postnatal prioritizedCHD7,TRPS1, andZFHX3as EA/TEF candidate genes. Re-sequencing ofZFHX3in additional 192 EA/TEF patients did not identify further putative EA/TEF-associated variants. Conclusion Our study suggests that rare mutationalde novoevents in genes involved in foregut development contribute to the development of EA/TEF.

Published

2020

11. Advanced glycation end products and protein carbonyl levels in plasma reveal sex-specific differences in Parkinson's and Alzheimer's disease

Author

Sharma, Amit, Weber, Daniela, Raupbach, Jana, Dakal, Tikam Chand, Fliessbach, Klaus, Ramirez, Alfredo, Grune, Tilman, Wuellner, Ullrich, Sharma, Amit, Weber, Daniela, Raupbach, Jana, Dakal, Tikam Chand, Fliessbach, Klaus, Ramirez, Alfredo, Grune, Tilman, and Wuellner, Ullrich

Abstract

Neurodegenerative diseases (NDD) such as Alzheimer's (AD) and Parkinson's disease (PD) are distinct clinical entities, however, the aggregation of key neuronal proteins, presumably leading to neuronal demise appears to represent a common mechanism. It has become evident, that advanced glycation end products (AGEs) trigger the accumulation of such modified proteins, which eventually contributes to pathological aspect of NDDs. Increased levels of AGEs are found in amyloid plaques in AD brains and in both advanced and early PD (incidental Lewy body disease). The molecular mechanisms by which AGE dependent modifications may modulate the susceptibility towards NDDs, however, remain enigmatic and it is unclear, whether AGEs may serve as biomarker of NDD. In the present study, we examined AGEs (CML: Carboxymethyllysine and CEL: Carboxyethyllysine), markers of oxidative stress and micronutrients in the plasma of PD and AD patients and controls. As compared to healthy controls, AD females displayed lower levels of CEL while higher levels of CML were found in AD and PD patients. A somewhat similar pattern was observed for protein carbonyls (PC), revealing lower values exclusively in AD females, whereas AD males displayed significantly higher values compared to healthy controls and PD. Sex-specific differences were also observed for other relevant markers such as malondialdehyde, 3-nitrotyrosine, gamma-tocopherols, retinol, plasma proteins and alpha-carotene, while alpha-tocopherols, beta-carotene, lutein/zeaxanthin, beta-cryptoxanthin and lycopene showed no relevant association. Taken together, our study suggests yet unappreciated differences of the distribution of AGEs among the sexes in NDD. We therefore suggest to make a clear distinction between sexes when analyzing oxidative (AGEs)-related stress and carbonyl-related stress and vitamins.

Published

2020

12. SLC20A1Is Involved in Urinary Tract and Urorectal Development

Author

Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Laeckgren, Goran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, Reutter, Heiko, Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Laeckgren, Goran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, and Reutter, Heiko

Abstract

Previous studies in developingXenopusand zebrafish reported that the phosphate transporterslc20a1ais expressed in pronephric kidneys. The recent identification ofSLC20A1as a monoallelic candidate gene for cloacal exstrophy further suggests its involvement in the urinary tract and urorectal development. However, little is known of the functional role ofSLC20A1in urinary tract development. Here, we investigated this using morpholino oligonucleotide knockdown of the zebrafish orthologslc20a1a. This caused kidney cysts and malformations of the cloaca. Moreover, in morphants we demonstrated dysfunctional voiding and hindgut opening defects mimicking imperforate anus in human cloacal exstrophy. Furthermore, we performed immunohistochemistry of an unaffected 6-week-old human embryo and detectedSLC20A1in the urinary tract and the abdominal midline, structures implicated in the pathogenesis of cloacal exstrophy. Additionally, we resequencedSLC20A1in 690 individuals with bladder exstrophy-epispadias complex (BEEC) including 84 individuals with cloacal exstrophy. We identified two additional monoallelicde novovariants. One was identified in a case-parent trio with classic bladder exstrophy, and one additional novelde novovariant was detected in an affected mother who transmitted this variant to her affected son. To study the potential cellular impact ofSLC20A1variants, we expressed them in HEK293 cells. Here, phosphate transport was not compromised, suggesting that it is not a disease mechanism. However, there was a tendency for lower levels of cleaved caspase-3, perhaps implicating apoptosis pathways in the disease. Our results suggestSLC20A1is involved in urinary tract and urorectal development and implicateSLC20A1as a disease-gene for BEEC.

Published

2020

13. SLC20A1 is involved in urinary tract and urorectal development

Author

Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Öznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina Christine, Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjöld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Rösch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schäfer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Rooij, Iris Antonia Leonarda Martina van, Bökenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, Reutter, Heiko, Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Öznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina Christine, Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjöld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Rösch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schäfer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Rooij, Iris Antonia Leonarda Martina van, Bökenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, and Reutter, Heiko

Abstract

Previous studies in developing Xenopus and zebrafish reported that the phosphate transporter slc20a1a is expressed in pronephric kidneys. The recent identification of SLC20A1 as a monoallelic candidate gene for cloacal exstrophy further suggests its involvement in the urinary tract and urorectal development. However, little is known of the functional role of SLC20A1 in urinary tract development. Here, we investigated this using morpholino oligonucleotide knockdown of the zebrafish ortholog slc20a1a. This caused kidney cysts and malformations of the cloaca. Moreover, in morphants we demonstrated dysfunctional voiding and hindgut opening defects mimicking imperforate anus in human cloacal exstrophy. Furthermore, we performed immunohistochemistry of an unaffected 6-week-old human embryo and detected SLC20A1 in the urinary tract and the abdominal midline, structures implicated in the pathogenesis of cloacal exstrophy. Additionally, we resequenced SLC20A1 in 690 individuals with bladder exstrophy-epispadias complex (BEEC) including 84 individuals with cloacal exstrophy. We identified two additional monoallelic de novo variants. One was identified in a case-parent trio with classic bladder exstrophy, and one additional novel de novo variant was detected in an affected mother who transmitted this variant to her affected son. To study the potential cellular impact of SLC20A1 variants, we expressed them in HEK293 cells. Here, phosphate transport was not compromised, suggesting that it is not a disease mechanism. However, there was a tendency for lower levels of cleaved caspase-3, perhaps implicating apoptosis pathways in the disease. Our results suggest SLC20A1 is involved in urinary tract and urorectal development and implicate SLC20A1 as a disease-gene for BEEC.

Published

2020

14. Human exome and mouse embryonic expression data implicate ZFHX3, TRPS1, and CHD7 in human esophageal atresia

Author

Pastor Santos-Cortez, Regie Lyn, Zhang, Rong, Gehlen, Jan, Kawalia, Amit, Melissari, Maria-Theodora, Dakal, Tikam Chand, Menon, Athira M., Höfele, Julia, Riedhammer, Korbinian, Waffenschmidt, Lea, Fabian, Julia, Breuer, Katinka, Kalanithy, Jeshurun, Hilger, Alina Christine, Sharma, Amit, Hölscher, Alice, Boemers, Thomas M., Pauly, Markus, Leutner, Andreas, Fuchs, Jörg, Seitz, Guido, Ludwikowski, Barbara, Gomez, Barbara, Hubertus, Jochen, Heydweiller, Andreas, Kurz, Ralf, Leonhardt, Johannes, Kosch, Ferdinand, Holland-Cunz, Stefan, Münsterer, Oliver, Ure, Beno, Schmiedeke, Eberhard, Neser, Jörg, Degenhardt, Petra, Märzheuser, Stefanie, Kleine, Katharina, Schäfer, Mattias, Spychalski, Nicole, Deffaa, Oliver J., Gosemann, Jan-Hendrik, Lacher, Martin, Heilmann-Heimbach, Stefanie, Zwink, Nadine, Jenetzky, Ekkehart, Ludwig, Michael, Grote, Phillip, Schumacher, Johannes, Thiele, Holger, Reutter, Heiko, Pastor Santos-Cortez, Regie Lyn, Zhang, Rong, Gehlen, Jan, Kawalia, Amit, Melissari, Maria-Theodora, Dakal, Tikam Chand, Menon, Athira M., Höfele, Julia, Riedhammer, Korbinian, Waffenschmidt, Lea, Fabian, Julia, Breuer, Katinka, Kalanithy, Jeshurun, Hilger, Alina Christine, Sharma, Amit, Hölscher, Alice, Boemers, Thomas M., Pauly, Markus, Leutner, Andreas, Fuchs, Jörg, Seitz, Guido, Ludwikowski, Barbara, Gomez, Barbara, Hubertus, Jochen, Heydweiller, Andreas, Kurz, Ralf, Leonhardt, Johannes, Kosch, Ferdinand, Holland-Cunz, Stefan, Münsterer, Oliver, Ure, Beno, Schmiedeke, Eberhard, Neser, Jörg, Degenhardt, Petra, Märzheuser, Stefanie, Kleine, Katharina, Schäfer, Mattias, Spychalski, Nicole, Deffaa, Oliver J., Gosemann, Jan-Hendrik, Lacher, Martin, Heilmann-Heimbach, Stefanie, Zwink, Nadine, Jenetzky, Ekkehart, Ludwig, Michael, Grote, Phillip, Schumacher, Johannes, Thiele, Holger, and Reutter, Heiko

Abstract

Introduction: Esophageal atresia with or without tracheoesophageal fistula (EA/TEF) occurs approximately 1 in 3.500 live births representing the most common malformation of the upper digestive tract. Only half a century ago, EA/TEF was fatal among affected newborns suggesting that the steady birth prevalence might in parts be due to mutational de novo events in genes involved in foregut development. Methods: To identify mutational de novo events in EA/TEF patients, we surveyed the exome of 30 case-parent trios. Identified and confirmed de novo variants were prioritized using in silico prediction tools. To investigate the embryonic role of genes harboring prioritized de novo variants we performed targeted analysis of mouse transcriptome data of esophageal tissue obtained at the embryonic day (E) E8.5, E12.5, and postnatal. Results: In total we prioritized 14 novel de novo variants in 14 different genes (APOL2, EEF1D, CHD7, FANCB, GGT6, KIAA0556, NFX1, NPR2, PIGC, SLC5A2, TANC2, TRPS1, UBA3, and ZFHX3) and eight rare de novo variants in eight additional genes (CELSR1, CLP1, GPR133, HPS3, MTA3, PLEC, STAB1, and PPIP5K2). Through personal communication during the project, we identified an additional EA/TEF case-parent trio with a rare de novo variant in ZFHX3. In silico prediction analysis of the identified variants and comparative analysis of mouse transcriptome data of esophageal tissue obtained at E8.5, E12.5, and postnatal prioritized CHD7, TRPS1, and ZFHX3 as EA/TEF candidate genes. Re-sequencing of ZFHX3 in additional 192 EA/TEF patients did not identify further putative EA/TEF-associated variants. Conclusion: Our study suggests that rare mutational de novo events in genes involved in foregut development contribute to the development of EA/TEF.

Published

2020

15. SLC20A1Is Involved in Urinary Tract and Urorectal Development

Author

Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, Reutter, Heiko, Rieke, Johanna Magdalena, Zhang, Rong, Braun, Doreen, Yilmaz, Oeznur, Japp, Anna S., Lopes, Filipa M., Pleschka, Michael, Hilger, Alina C., Schneider, Sophia, Newman, William G., Beaman, Glenda M., Nordenskjoeld, Agneta, Ebert, Anne-Karoline, Promm, Martin, Roesch, Wolfgang H., Stein, Raimund, Hirsch, Karin, Schaefer, Frank-Mattias, Schmiedeke, Eberhard, Boemers, Thomas M., Lacher, Martin, Kluth, Dietrich, Gosemann, Jan-Hendrik, Anderberg, Magnus, Barker, Gillian, Holmdahl, Gundela, Läckgren, Göran, Keene, David, Cervellione, Raimondo M., Giorgio, Elisa, Di Grazia, Massimo, Feitz, Wouter F. J., Marcelis, Carlo L. M., Van Rooij, Iris A. L. M., Boekenkamp, Arend, Beckers, Goedele M. A., Keegan, Catherine E., Sharma, Amit, Dakal, Tikam Chand, Wittler, Lars, Grote, Phillip, Zwink, Nadine, Jenetzky, Ekkehart, Brusco, Alfredo, Thiele, Holger, Ludwig, Michael, Schweizer, Ulrich, Woolf, Adrian S., Odermatt, Benjamin, and Reutter, Heiko

Abstract

Previous studies in developingXenopusand zebrafish reported that the phosphate transporterslc20a1ais expressed in pronephric kidneys. The recent identification ofSLC20A1as a monoallelic candidate gene for cloacal exstrophy further suggests its involvement in the urinary tract and urorectal development. However, little is known of the functional role ofSLC20A1in urinary tract development. Here, we investigated this using morpholino oligonucleotide knockdown of the zebrafish orthologslc20a1a. This caused kidney cysts and malformations of the cloaca. Moreover, in morphants we demonstrated dysfunctional voiding and hindgut opening defects mimicking imperforate anus in human cloacal exstrophy. Furthermore, we performed immunohistochemistry of an unaffected 6-week-old human embryo and detectedSLC20A1in the urinary tract and the abdominal midline, structures implicated in the pathogenesis of cloacal exstrophy. Additionally, we resequencedSLC20A1in 690 individuals with bladder exstrophy-epispadias complex (BEEC) including 84 individuals with cloacal exstrophy. We identified two additional monoallelicde novovariants. One was identified in a case-parent trio with classic bladder exstrophy, and one additional novelde novovariant was detected in an affected mother who transmitted this variant to her affected son. To study the potential cellular impact ofSLC20A1variants, we expressed them in HEK293 cells. Here, phosphate transport was not compromised, suggesting that it is not a disease mechanism. However, there was a tendency for lower levels of cleaved caspase-3, perhaps implicating apoptosis pathways in the disease. Our results suggestSLC20A1is involved in urinary tract and urorectal development and implicateSLC20A1as a disease-gene for BEEC.

Published

2020