Your search keyword '"Shrikant, Mane"' showing total 136 results

1. Multiomic analyses implicate a neurodevelopmental program in the pathogenesis of cerebral arachnoid cysts

Author

Adam J. Kundishora, Garrett Allington, Stephen McGee, Kedous Y. Mekbib, Vladimir Gainullin, Andrew T. Timberlake, Carol Nelson-Williams, Emre Kiziltug, Hannah Smith, Jack Ocken, John Shohfi, August Allocco, Phan Q. Duy, Aladine A. Elsamadicy, Weilai Dong, Shujuan Zhao, Yung-Chun Wang, Hanya M. Qureshi, Michael L. DiLuna, Shrikant Mane, Irina R. Tikhonova, Po-Ying Fu, Christopher Castaldi, Francesc López-Giráldez, James R. Knight, Charuta G. Furey, Bob S. Carter, Shozeb Haider, Andres Moreno-De-Luca, Seth L. Alper, Murat Gunel, Francisca Millan, Richard P. Lifton, Rebecca I. Torene, Sheng Chih Jin, and Kristopher T. Kahle

Subjects

General Medicine, General Biochemistry, Genetics and Molecular Biology

Published

2023

2. HYDINVariants Are a Common Cause of Primary Ciliary Dyskinesia in French Canadians

Author

Adam J. Shapiro, Guillaume Sillon, Daniela D’Agostino, Laurence Baret, Francesc López-Giráldez, Shrikant Mane, Margaret W. Leigh, Stephanie D. Davis, Michael R. Knowles, and Maimoona A. Zariwala

Subjects

Pulmonary and Respiratory Medicine

Published

2023

3. Centers for Mendelian Genomics: A decade of facilitating gene discovery

Author

Samantha M. Baxter, Jennifer E. Posey, Nicole J. Lake, Nara Sobreira, Jessica X. Chong, Steven Buyske, Elizabeth E. Blue, Lisa H. Chadwick, Zeynep H. Coban-Akdemir, Kimberly F. Doheny, Colleen P. Davis, Monkol Lek, Christopher Wellington, Shalini N. Jhangiani, Mark Gerstein, Richard A. Gibbs, Richard P. Lifton, Daniel G. MacArthur, Tara C. Matise, James R. Lupski, David Valle, Michael J. Bamshad, Ada Hamosh, Shrikant Mane, Deborah A. Nickerson, Heidi L. Rehm, Anne O’Donnell-Luria, Marcia Adams, François Aguet, Gulsen Akay, Peter Anderson, Corina Antonescu, Harindra M. Arachchi, Mehmed M. Atik, Christina A. Austin-Tse, Larry Babb, Tamara J. Bacus, Vahid Bahrambeigi, Suganthi Balasubramanian, Yavuz Bayram, Arthur L. Beaudet, Christine R. Beck, John W. Belmont, Jennifer E. Below, Kaya Bilguvar, Corinne D. Boehm, Eric Boerwinkle, Philip M. Boone, Sara J. Bowne, Harrison Brand, Kati J. Buckingham, Alicia B. Byrne, Daniel Calame, Ian M. Campbell, Xiaolong Cao, Claudia Carvalho, Varuna Chander, Jaime Chang, Katherine R. Chao, Ivan K. Chinn, Declan Clarke, Ryan L. Collins, Beryl Cummings, Zain Dardas, Moez Dawood, Kayla Delano, Stephanie P. DiTroia, Harshavardhan Doddapaneni, Haowei Du, Renqian Du, Ruizhi Duan, Mohammad Eldomery, Christine M. Eng, Eleina England, Emily Evangelista, Selin Everett, Jawid Fatih, Adam Felsenfeld, Laurent C. Francioli, Christian D. Frazar, Jack Fu, Emmanuel Gamarra, Tomasz Gambin, Weiniu Gan, Mira Gandhi, Vijay S. Ganesh, Kiran V. Garimella, Laura D. Gauthier, Danielle Giroux, Claudia Gonzaga-Jauregui, Julia K. Goodrich, William W. Gordon, Sean Griffith, Christopher M. Grochowski, Shen Gu, Sanna Gudmundsson, Stacey J. Hall, Adam Hansen, Tamar Harel, Arif O. Harmanci, Isabella Herman, Kurt Hetrick, Hadia Hijazi, Martha Horike-Pyne, Elvin Hsu, Jianhong Hu, Yongqing Huang, Jameson R. Hurless, Steve Jahl, Gail P. Jarvik, Yunyun Jiang, Eric Johanson, Angad Jolly, Ender Karaca, Michael Khayat, James Knight, J. Thomas Kolar, Sushant Kumar, Seema Lalani, Kristen M. Laricchia, Kathryn E. Larkin, Suzanne M. Leal, Gabrielle Lemire, Richard A. Lewis, He Li, Hua Ling, Rachel B. Lipson, Pengfei Liu, Alysia Kern Lovgren, Francesc López-Giráldez, Melissa P. MacMillan, Brian E. Mangilog, Stacy Mano, Dana Marafi, Beth Marosy, Jamie L. Marshall, Renan Martin, Colby T. Marvin, Michelle Mawhinney, Sean McGee, Daniel J. McGoldrick, Michelle Mehaffey, Betselote Mekonnen, Xiaolu Meng, Tadahiro Mitani, Christina Y. Miyake, David Mohr, Shaine Morris, Thomas E. Mullen, David R. Murdock, Mullai Murugan, Donna M. Muzny, Ben Myers, Juanita Neira, Kevin K. Nguyen, Patrick M. Nielsen, Natalie Nudelman, Emily O’Heir, Melanie C. O’Leary, Chrissie Ongaco, Jordan Orange, Ikeoluwa A. Osei-Owusu, Ingrid S. Paine, Lynn S. Pais, Justin Paschall, Karynne Patterson, Davut Pehlivan, Benjamin Pelle, Samantha Penney, Jorge Perez de Acha Chavez, Emma Pierce-Hoffman, Cecilia M. Poli, Jaya Punetha, Aparna Radhakrishnan, Matthew A. Richardson, Eliete Rodrigues, Gwendolin T. Roote, Jill A. Rosenfeld, Erica L. Ryke, Aniko Sabo, Alice Sanchez, Isabelle Schrauwen, Daryl A. Scott, Fritz Sedlazeck, Jillian Serrano, Chad A. Shaw, Tameka Shelford, Kathryn M. Shively, Moriel Singer-Berk, Joshua D. Smith, Hana Snow, Grace Snyder, Matthew Solomonson, Rachel G. Son, Xiaofei Song, Pawel Stankiewicz, Taylorlyn Stephan, V. Reid Sutton, Abigail Sveden, Diana Cornejo Sánchez, Monica Tackett, Michael Talkowski, Machiko S. Threlkeld, Grace Tiao, Miriam S. Udler, Laura Vail, Zaheer Valivullah, Elise Valkanas, Grace E. VanNoy, Qingbo S. Wang, Gao Wang, Lu Wang, Michael F. Wangler, Nicholas A. Watts, Ben Weisburd, Jeffrey M. Weiss, Marsha M. Wheeler, Janson J. White, Clara E. Williamson, Michael W. Wilson, Wojciech Wiszniewski, Marjorie A. Withers, Dane Witmer, Lauren Witzgall, Elizabeth Wohler, Monica H. Wojcik, Isaac Wong, Jordan C. Wood, Nan Wu, Jinchuan Xing, Yaping Yang, Qian Yi, Bo Yuan, Jordan E. Zeiger, Chaofan Zhang, Peng Zhang, Yan Zhang, Xiaohong Zhang, Yeting Zhang, Shifa Zhang, Huda Zoghbi, and Igna van den Veyver

Subjects

Phenotype, Exome Sequencing, Humans, Exome, Genomics, Article, Genetic Association Studies, Genetics (clinical)

Abstract

PURPOSE: Mendelian disease genomic research has undergone a massive transformation over the past decade. With increasing availability of exome and genome sequencing, the role of Mendelian research has expanded beyond data collection, sequencing, and analysis to worldwide data sharing and collaboration. METHODS: Over the past 10 years, the National Institutes of Health–supported Centers for Mendelian Genomics (CMGs) have played a major role in this research and clinical evolution. RESULTS: We highlight the cumulative gene discoveries facilitated by the program, biomedical research leveraged by the approach, and the larger impact on the research community. Beyond generating a list of gene-phenotype relationships and participating in widespread data sharing, the CMGs have created resources, tools, and training for the larger community to foster understanding of genes and genome variation. The CMGs have participated in a wide range of data sharing activities, including deposition of all eligible CMG data into the Analysis, Visualization, and Informatics Lab-space (AnVIL), sharing candidate genes through the Matchmaker Exchange and the CMG website, and sharing variants in Genotypes to Mendelian Phenotypes (Geno2MP) and VariantMatcher. CONCLUSION: The work is far from complete; strengthening communication between research and clinical realms, continued development and sharing of knowledge and tools, and improving access to richly characterized data sets are all required to diagnose the remaining molecularly undiagnosed patients.

Published

2022

4. A Novel Form of Familial Vasopressin Deficient Diabetes Insipidus Transmitted in an X-linked Recessive Manner

Author

Reema Habiby, Daniel G Bichet, Marie-Francoise Arthus, Dervia Connaughton, Shirlee Shril, Shrikant Mane, Amar J Majmundar, Friedhelm Hildebrandt, and Gary L Robertson

Subjects

Male, Receptors, Vasopressin, Aquaporin 2, Vasopressins, Endocrinology, Diabetes and Metabolism, Biochemistry (medical), Clinical Biochemistry, Diabetes Insipidus, Nephrogenic, Biochemistry, Endocrinology, Diabetes Mellitus, Humans, Deamino Arginine Vasopressin, Female, Online Only Articles, Diabetes Insipidus

Abstract

Context Familial pituitary diabetes insipidus has been described only in an autosomal dominant or recessive mode of inheritance. Objective This work aims to determine the cause of a novel form of familial diabetes insipidus (DI) that is controlled by desmopressin therapy but segregates in an X-linked recessive manner. Methods Thirteen members from 3 generations of the kindred with familial DI were studied. Water intake, urine volume, urine osmolality, plasma osmolality, and plasma vasopressin were measured under basal conditions, during fluid deprivation, 3% saline infusion, and water loading. Magnetic resonance images of the posterior pituitary also were obtained. In affected males, the effects of desmopressin therapy and linkage of the DI to markers for chromosome Xq28 were determined. In addition, the genes encoding vasopressin, aquaporin-2, the AVPR2 receptor, and its flanking regions were sequenced. Results This study showed that 4 males from 3 generations of the kindred have DI that is due to a deficiency of vasopressin, is corrected by standard doses of desmopressin, and segregates with markers for the AVPR2 gene in Xq28. However, no mutations were found in AVPR2 or its highly conserved flanking regions. Exome sequencing confirmed these findings and also revealed no deleterious variants in the provasopressin and aquaporin-2 genes. The 4 obligate female carriers osmo-regulated vasopressin in the low normal range. Conclusion X-linked recessive transmission of DI can be due to a defect in either the secretion or the action of vasopressin. Other criteria are necessary to differentiate and manage the 2 disorders correctly.

Published

2022

5. Genetic dysregulation of an endothelial Ras signaling network in vein of Galen malformations

Author

Shujuan Zhao, Kedous Y. Mekbib, Martijn A. van der Ent, Garrett Allington, Andrew Prendergast, Jocelyn E. Chau, Hannah Smith, John Shohfi, Jack Ocken, Daniel Duran, Charuta G. Furey, Hao Thi Le, Phan Q. Duy, Benjamin C. Reeves, Junhui Zhang, Carol Nelson-Williams, Di Chen, Boyang Li, Timothy Nottoli, Suxia Bai, Myron Rolle, Xue Zeng, Weilai Dong, Po-Ying Fu, Yung-Chun Wang, Shrikant Mane, Paulina Piwowarczyk, Katie Pricola Fehnel, Alfred Pokmeng See, Bermans J. Iskandar, Beverly Aagaard-Kienitz, Adam J. Kundishora, Tyrone DeSpenza, Ana B.W. Greenberg, Seblewengel M. Kidanemariam, Andrew T. Hale, James M. Johnston, Eric M. Jackson, Phillip B. Storm, Shih-Shan Lang, William E. Butler, Bob S. Carter, Paul Chapman, Christopher J. Stapleton, Aman B. Patel, Georges Rodesch, Stanislas Smajda, Alejandro Berenstein, Tanyeri Barak, E. Zeynep Erson-Omay, Hongyu Zhao, Andres Moreno-De-Luca, Mark R. Proctor, Edward R. Smith, Darren B. Orbach, Seth L. Alper, Stefania Nicoli, Titus J. Boggon, Richard P. Lifton, Murat Gunel, Philip D. King, Sheng Chih Jin, and Kristopher T. Kahle

Subjects

Article

Abstract

To elucidate the pathogenesis of vein of Galen malformations (VOGMs), the most common and severe congenital brain arteriovenous malformation, we performed an integrated analysis of 310 VOGM proband-family exomes and 336,326 human cerebrovasculature single-cell transcriptomes. We found the Ras suppressor p120 RasGAP (RASA1) harbored a genome-wide significant burden of loss-of-functionde novovariants (p=4.79×10-7). Rare, damaging transmitted variants were enriched in Ephrin receptor-B4 (EPHB4) (p=1.22×10-5), which cooperates with p120 RasGAP to limit Ras activation. Other probands had pathogenic variants inACVRL1,NOTCH1,ITGB1, andPTPN11.ACVRL1variants were also identified in a multi-generational VOGM pedigree. Integrative genomics defined developing endothelial cells as a key spatio-temporal locus of VOGM pathophysiology. Mice expressing a VOGM-specificEPHB4kinase-domain missense variant exhibited constitutive endothelial Ras/ERK/MAPK activation and impaired hierarchical development of angiogenesis-regulated arterial-capillary-venous networks, but only when carrying a “second-hit” allele. These results illuminate human arterio-venous development and VOGM pathobiology and have clinical implications.

Published

2023

6. LRRC23 loss-of-function impairs radial spoke 3 head assembly and causes defective sperm motility underlying male infertility

Author

Jae Yeon Hwang, Pengxin Chai, Shoaib Nawaz, Jungmin Choi, Francesc Lopez-Giraldez, Shabir Hussain, Kaya Bilguvar, Shrikant Mane, Richard P. Lifton, Wasim Ahmad, Kai Zhang, and Jean-Ju Chung

Subjects

Article

Abstract

Radial spokes (RSs) are T-shaped multiprotein complexes in the 9+2 axoneme of motile cilia and flagella that couple the central pair to the peripheral doublet microtubules. RS1, RS2, and RS3 are repeated along the outer microtubule of the axoneme and modulate the activity of dynein, thus ciliary and flagella movement. RS substructures are distinct in spermatozoa from other cells harboring motile cilia in mammals. However, the molecular components of the cell-type specific RS substructures remain largely unknown. Here, we report a leucine-rich repeat-containing protein, LRRC23, is a RS head component indispensable for the RS3 head assembly and flagellar movement in human and mouse sperm. From a Pakistani consanguineous family with infertile males due to reduced sperm motility, we identified a splice site variant of LRRC23 that leads to truncate LRRC23 at the C-terminus. In mutant mouse model mimicking the identified variant, the truncated LRRC23 protein is produced in testis but fails to localize in the mature sperm tail, causing severe sperm motility defects and male infertility. Purified recombinant human LRRC23 does not interacts with RS stalk proteins, but with a head protein, RSPH9, which is abolished by the C-terminus truncation of LRRC23. Cryo-electron tomography and sub-tomogram averaging unambiguously visualized that the RS3 head and sperm-specific RS2-RS3 bridge structure is missing in the LRRC23 mutant sperm. Our study provides new insights into RS3 structure and function in mammalian sperm flagella as well as molecular pathogenicity ofLRRC23underlying reduced sperm motility in infertile human males.

Published

2023

7. Utility of promoter hypermethylation in malignant risk stratification of intraductal papillary mucinous neoplasms

Author

Ankit Chhoda, Anup Sharma, Bethsebie Sailo, Haoyu Tang, Nensi Ruzgar, Wan Ying Tan, Lee Ying, Rishabh Khatri, Anand Narayanan, Shrikant Mane, Bony De Kumar, Laura D. Wood, Christine Iacobuzio-Donahue, Christopher L. Wolfgang, John W. Kunstman, Ronald R. Salem, James J. Farrell, and Nita Ahuja

Subjects

Genetics, Molecular Biology, Genetics (clinical), Developmental Biology

Abstract

Background Intraductal papillary mucinous neoplasms (IPMNs), a type of cystic pancreatic cancer (PC) precursors, are increasingly identified on cross-sectional imaging and present a significant diagnostic challenge. While surgical resection of IPMN-related advanced neoplasia, i.e., IPMN-related high-grade dysplasia or PC, is an essential early PC detection strategy, resection is not recommended for IPMN-low-grade dysplasia (LGD) due to minimal risk of carcinogenesis, and significant procedural risks. Based on their promising results in prior validation studies targeting early detection of classical PC, DNA hypermethylation-based markers may serve as a biomarker for malignant risk stratification of IPMNs. This study investigates our DNA methylation-based PC biomarker panel (ADAMTS1, BNC1, and CACNA1G genes) in differentiating IPMN-advanced neoplasia from IPMN-LGDs. Methods Our previously described genome-wide pharmaco-epigenetic method identified multiple genes as potential targets for PC detection. The combination was further optimized and validated for early detection of classical PC in previous case–control studies. These promising genes were evaluated among micro-dissected IPMN tissue (IPMN-LGD: 35, IPMN-advanced neoplasia: 35) through Methylation-Specific PCR. The discriminant capacity of individual and combination of genes were delineated through Receiver Operating Characteristics curve analysis. Results As compared to IPMN-LGDs, IPMN-advanced neoplasia had higher hypermethylation frequency of candidate genes: ADAMTS1 (60% vs. 14%), BNC1 (66% vs. 3%), and CACGNA1G (25% vs. 0%). We observed Area Under Curve (AUC) values of 0.73 for ADAMTS1, 0.81 for BNC1, and 0.63 for CACNA1G genes. The combination of the BNC1/ CACNA1G genes resulted in an AUC of 0.84, sensitivity of 71%, and specificity of 97%. Combining the methylation status of the BNC1/CACNA1G genes, blood-based CA19-9, and IPMN lesion size enhanced the AUC to 0.92. Conclusion DNA-methylation based biomarkers have shown a high diagnostic specificity and moderate sensitivity for differentiating IPMN-advanced neoplasia from LGDs. Addition of specific methylation targets can improve the accuracy of the methylation biomarker panel and enable the development of noninvasive IPMN stratification biomarkers.

Published

2023

8. Genetic Variants in ARHGEF6 Cause Congenital Anomalies of the Kidneys and Urinary Tract in Humans, Mice, and Frogs

Author

Verena Klämbt, Florian Buerger, Chunyan Wang, Thomas Naert, Karin Richter, Theresa Nauth, Anna-Carina Weiss, Tobias Sieckmann, Ethan Lai, Dervla M. Connaughton, Steve Seltzsam, Nina Mann, Amar J. Majmundar, Chen-Han W. Wu, Ana C. Onuchic-Whitford, Shirlee Shril, Sophia Schneider, Luca Schierbaum, Rufeng Dai, Mir Reza Bekheirnia, Marieke Joosten, Omer Shlomovitz, Asaf Vivante, Ehud Banne, Shrikant Mane, Richard P. Lifton, Karin M. Kirschner, Andreas Kispert, Georg Rosenberger, Klaus-Dieter Fischer, Soeren S. Lienkamp, Mirjam M.P. Zegers, and Friedhelm Hildebrandt

Subjects

urinary tract, ALPHA-PIX, Women's cancers Radboud Institute for Molecular Life Sciences [Radboudumc 17], MUTATIONS, Biology and Life Sciences, General Medicine, monogenic kidney disease, REGULATES BRANCHING MORPHOGENESIS, SEQUENCE, pediatric, All institutes and research themes of the Radboud University Medical Center, Nephrology, NUCLEOTIDE EXCHANGE FACTORS, EXTRACELLULAR-MATRIX, INBRED MOUSE, INTEGRIN-LINKED KINASE, PROTEIN NEPHRONECTIN, MDCK CELL-CULTURE, development, CAKUT

Abstract

Background: About 40 disease genes have been described to date for isolated congenital anomalies of the kidneys and urinary tract (CAKUT), the most common cause of childhood chronic kidney disease. However, these genes account for only 20% of cases. ARHGEF6, a guanine nucleotide exchange factor that is implicated in such biologic processes as cell migration and focal adhesion, acts downstream of integrin linked kinase (ILK) and parvin proteins. A genetic variant of ILK that causes murine renal agenesis abrogates the interaction of ILK with a murine focal adhesion protein encoded by Parva, leading to CAKUT in mice with this variant. Methods: To identify novel genes that, when mutated, result in CAKUT, we performed exome sequencing in an international cohort of 1265 families with CAKUT. We also assessed the effects in vitro of wild-type and mutant ARHGEF6 proteins, as well as the effects of Arhgef6 deficiency in mouse and frog models. Results: We detected six different hemizygous variants in the gene ARHGEF6 (which is located on the X chromosome in humans) in eight individuals from six families with CAKUT. In kidney cells, overexpression of wild-type ARHGEF6—but not proband-derived mutant ARHGEF6— increased active levels of CDC42/RAC1, induced lamellipodia formation, and stimulated PARVAdependent cell spreading. ARHGEF6 mutant proteins showed loss of interaction with PARVA. Three-dimensional MDCK cell cultures expressing ARHGEF6 mutant proteins exhibited reduced lumen formation and polarity defects. Arhgef6 deficiency in mouse and frog models recapitulated features of human CAKUT. Conclusions: Deleterious variants in ARHGEF6 may cause dysregulation of integrin-parvinRAC1/CDC42 signaling, thereby leading to X-linked CAKUT.

Published

2023

9. OXGR1 is a candidate disease gene for human calcium oxalate nephrolithiasis

Author

Amar J. Majmundar, Eugen Widmeier, John F. Heneghan, Ankana Daga, Chen-Han Wilfred Wu, Florian Buerger, Hannah Hugo, Ihsan Ullah, Ali Amar, Isabel Ottlewski, Daniela A. Braun, Tilman Jobst-Schwan, Jennifer A. Lawson, Muhammad Yasir Zahoor, Nancy M. Rodig, Velibor Tasic, Caleb P. Nelson, Shagufta Khaliq, Ria Schönauer, Jan Halbritter, John A. Sayer, Hanan M. Fathy, Michelle A. Baum, Shirlee Shril, Shrikant Mane, Seth L. Alper, and Friedhelm Hildebrandt

Subjects

Genetics (clinical)

Abstract

Nephrolithiasis (NL) affects 1 in 11 individuals worldwide, leading to significant patient morbidity. NL is associated with nephrocalcinosis (NC), a risk factor for chronic kidney disease. Causative genetic variants are detected in 11-28% of NL and/or NC, suggesting additional NL/NC-associated genetic loci await discovery. Therefore, we employed genomic approaches to discover novel genetic forms of NL/NC.Exome sequencing and directed sequencing of the OXGR1 locus were performed in a worldwide NL/NC cohort. Putatively deleterious rare OXGR1 variants were functionally characterized.Exome sequencing revealed a heterozygous OXGR1 missense variant (c.371TG, p.L124R) co-segregating with calcium oxalate NL and/or NC disease in an autosomal dominant inheritance pattern within a multi-generational family with five affected individuals. OXGR1 encodes 2-oxoglutarate (α-ketoglutarate) receptor 1 in the distal nephron. In response to its ligand α-ketoglutarate (AKG), OXGR1 stimulates the chloride-bicarbonate exchanger Pendrin, which also regulates transepithelial calcium transport in cortical connecting tubules. Strong amino acid conservation in orthologues and paralogues, severe in silico prediction scores, and extreme rarity in exome population databases suggested the variant was deleterious. Interrogation of the OXGR1 locus in 1107 additional NL/NC families identified five additional deleterious dominant variants in five families with calcium oxalate NL/NC. Rare, potentially deleterious OXGR1 variants were enriched in NL/NC subjects relative to ExAC controls (ΧRare, dominant loss-of-function OXGR1 variants are associated with recurrent calcium oxalate NL/NC disease.

Published

2022

10. Whole-exome sequencing reveals a monogenic cause in 56% of individuals with laterality disorders and associated congenital heart defects

Author

Yarden Sarouf, Amir Vardi, Ben Pode-Shakked, Yishay Ben Moshe, Alvit Veber, Gideon Rechavi, Yair Anikster, Dina Marek-Yagel, Odelia Chorin, Annick Raas-Rothschild, Shrikant Mane, Yoav Bolkier, Yishay Salem, Danit Atias-Varon, Omer Shlomovitz, Elisheva Javasky, Tal Tirosh-Wagner, Uriel Katz, Jeffrey M. Jacobson, Orna Staretz-Chacham, Nechama Shalva, Ortal Barel, David Mishali, Maayan Kagan, Asaf Vivante, and Aviva Eliyahu

Subjects

Heart Defects, Congenital, Proband, Heart malformation, C21orf59, Heterotaxy Syndrome, Cohort Studies, symbols.namesake, Exome Sequencing, Genetics, Humans, Medicine, Disease-causing Mutation, Genetics (clinical), Exome sequencing, Primary ciliary dyskinesia, Sanger sequencing, biology, business.industry, Homozygote, Membrane Proteins, medicine.disease, Mutation, symbols, biology.protein, Intercellular Signaling Peptides and Proteins, business, Heterotaxy

Abstract

BackgroundThe molecular basis of heterotaxy and congenital heart malformations associated with disruption of left–right asymmetry is broad and heterogenous, with over 25 genes implicated in its pathogenesis thus far.ObjectiveWe sought to elucidate the molecular basis of laterality disorders and associated congenital heart defects in a cohort of 30 unrelated probands of Arab–Muslim descent, using next-generation sequencing techniques.MethodsDetailed clinical phenotyping followed by whole-exome sequencing (WES) was pursued for each of the probands and their parents (when available). Sanger sequencing was used for segregation analysis of disease-causing mutations in the families.ResultsUsing WES, we reached a molecular diagnosis for 17 of the 30 probands (56.7%). Genes known to be associated with heterotaxy and/or primary ciliary dyskinesia, in which homozygous pathogenic or likely pathogenic variants were detected, included CFAP53 (CCDC11), CFAP298 (C21orf59), CFAP300, LRRC6, GDF1, DNAAF1, DNAH5, CCDC39, CCDC40, PKD1L1 and TTC25. Additionally, we detected a homozygous disease causing mutation in DAND5, as a novel recessive monogenic cause for heterotaxy in humans. Three additional probands were found to harbour variants of uncertain significance. These included variants in DNAH6, HYDIN, CELSR1 and CFAP46.ConclusionsOur findings contribute to the current knowledge regarding monogenic causes of heterotaxy and its associated congenital heart defects and underscore the role of next-generation sequencing techniques in the diagnostic workup of such patients, and especially among consanguineous families.

Published

2021

11. Mutations in PRDM15 Are a Novel Cause of Galloway-Mowat Syndrome

Author

Ana C. Onuchic-Whitford, Florian Buerger, Slim Mzoughi, Denny Schanze, Beate Ermisch-Omran, Andreas R. Janecke, Susanne J. Kühl, Sven Schumann, Amy Kolb, Anja Werberger, Svjetlana Lovric, Shasha Shi, Verena Klämbt, Neveen A. Soliman, Youying Mao, Tilman Jobst-Schwan, Alma Kuechler, Ronen Schneider, Dagmar Wieczorek, Weizhen Tan, Jan Kadlec, Nina Mann, Franziska Kause, Amar J. Majmundar, Shrikant Mane, Kristina Holton, Ernesto Guccione, Thomas M. Kitzler, Martin Zenker, Amelie T. van der Ven, Makiko Nakayama, Thomas Lennert, Jia Rao, Oliver Gross, Michael J. Schmeisser, Eva Mildenberger, Martin Skalej, Daniela A. Braun, Shirlee Shril, Ernestine Treimer, Richard P. Lifton, Friedhelm Hildebrandt, and Michael Kühl

Subjects

0301 basic medicine, Genetics, Kidney, Medizin, General Medicine, Biology, Disease gene identification, medicine.disease, Phenotype, 3. Good health, Nephropathy, Galloway Mowat syndrome, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Nephrology, Genetic linkage, medicine, Gene, Nephrotic syndrome, 030217 neurology & neurosurgery

Abstract

Background Galloway-Mowat syndrome (GAMOS) is characterized by neurodevelopmental defects and a progressive nephropathy, which typically manifests as steroid-resistant nephrotic syndrome. The prognosis of GAMOS is poor, and the majority of children progress to renal failure. The discovery of monogenic causes of GAMOS has uncovered molecular pathways involved in the pathogenesis of disease. Methods Homozygosity mapping, whole-exome sequencing, and linkage analysis were used to identify mutations in four families with a GAMOS-like phenotype, and high-throughput PCR technology was applied to 91 individuals with GAMOS and 816 individuals with isolated nephrotic syndrome. In vitro and in vivo studies determined the functional significance of the mutations identified. Results Three biallelic variants of the transcriptional regulator PRDM15 were detected in six families with proteinuric kidney disease. Four families with a variant in the protein's zinc-finger (ZNF) domain have additional GAMOS-like features, including brain anomalies, cardiac defects, and skeletal defects. All variants destabilize the PRDM15 protein, and the ZNF variant additionally interferes with transcriptional activation. Morpholino oligonucleotide-mediated knockdown of Prdm15 in Xenopus embryos disrupted pronephric development. Human wild-type PRDM15 RNA rescued the disruption, but the three PRDM15 variants did not. Finally, CRISPR-mediated knockout of PRDM15 in human podocytes led to dysregulation of several renal developmental genes. Conclusions Variants in PRDM15 can cause either isolated nephrotic syndrome or a GAMOS-type syndrome on an allelic basis. PRDM15 regulates multiple developmental kidney genes, and is likely to play an essential role in renal development in humans.

Published

2021

12. Generation of Monogenic Candidate Genes for Human Nephrotic Syndrome Using 3 Independent Approaches

Author

Fowzan S. Alkuraya, Verena Klämbt, Youying Mao, Ana C. Onuchic-Whitford, Weizhen Tan, Richard P. Lifton, Florian Buerger, Amar J. Majmundar, Heidi L. Rehm, Nina Mann, Ronen Schneider, Konstantin Deutsch, Hannah Hugo, Makiko Nakayama, Thomas M. Kitzler, Shrikant Mane, Hanan E. Shamseldin, Shirlee Shril, Eugen Widmeier, and Friedhelm Hildebrandt

Subjects

Candidate gene, 030232 urology & nephrology, 030204 cardiovascular system & hematology, lcsh:RC870-923, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, pediatric nephrology, Complementary DNA, Translational Research, medicine, whole-exome sequencing, Gene, Transcription factor, Exome sequencing, Genetics, Mutation, business.industry, recessive disease, Wilms' tumor, lcsh:Diseases of the genitourinary system. Urology, medicine.disease, Nephrology, Human genome, proteinuria, business

Abstract

Introduction Steroid-resistant nephrotic syndrome (SRNS) is the second most common cause of chronic kidney disease during childhood. Identification of 63 monogenic human genes has delineated 12 distinct pathogenic pathways. Methods Here, we generated 2 independent sets of nephrotic syndrome (NS) candidate genes to augment the discovery of additional monogenic causes based on whole-exome sequencing (WES) data from 1382 families with NS. Results We first identified 63 known monogenic causes of NS in mice from public databases and scientific publications, and 12 of these genes overlapped with the 63 known human monogenic SRNS genes. Second, we used a set of 64 genes that are regulated by the transcription factor Wilms tumor 1 (WT1), which causes SRNS if mutated. Thirteen of these WT1-regulated genes overlapped with human or murine NS genes. Finally, we overlapped these lists of murine and WT1 candidate genes with our list of 120 candidate genes generated from WES in 1382 NS families, to identify novel candidate genes for monogenic human SRNS. Using this approach, we identified 7 overlapping genes, of which 3 genes were shared by all datasets, including SYNPO. We show that loss-of-function of SYNPO leads to decreased CDC42 activity and reduced podocyte migration rate, both of which are rescued by overexpression of wild-type complementary DNA (cDNA), but not by cDNA representing the patient mutation. Conclusion Thus, we identified 3 novel candidate genes for human SRNS using 3 independent, nonoverlapping hypotheses, and generated functional evidence for SYNPO as a novel potential monogenic cause of NS., Graphical abstract

Published

2021

13. De novo TRIM8 variants impair its protein localization to nuclear bodies and cause developmental delay, epilepsy, and focal segmental glomerulosclerosis

Author

Verena Klämbt, Youying Mao, Vimla Aggarwal, Arang Kim, Friedhelm Hildebrandt, Mohamad A. Mikati, Vandana Shashi, Anne H. O’Donnell-Luria, Vaidehi Jobanputra, Jeremiah Martino, Vivette D. D'Agati, Minxian Wang, Marcus R. Benz, Shoji Yano, Janine Altmüller, Ali G. Gharavi, Florian Buerger, Enrico Fiaccadori, Richard P. Lifton, Bodo B. Beck, Amy Kolb, Mordi Muorah, David Goldstein, Nina Mann, Martin R. Pollak, Dina Ahram, Heidi Cope, Gian Marco Ghiggeri, Jillian S. Parboosingh, Asmaa S. AbuMaziad, Kamal Khan, Ana C. Onuchic-Whitford, Louise Bier, Emma Pierce-Hoffman, Jonathan E. Zuckerman, Shrikant Mane, Moin A. Saleem, Amar J. Majmundar, Heidi L. Rehm, Ora Yadin, Erin L. Heinzen, Gina Y. Jin, Christelle Moufawad El Achkar, Konstantin Deutsch, Julia Hoefele, Ania Koziell, Gianluca Caridi, Talha Gunduz, Agnieszka Bierzynska, Korbinian M. Riedhammer, Monica Bodria, Ronen Schneider, Julian A. Martinez-Agosto, Thomas M. Kitzler, Shirlee Shril, Ulrike John-Kroegel, Howard Trachtman, Adele Mitrotti, Eleanor G. Seaby, Amanda V. Tyndall, Isabella Pisani, Patricia L. Weng, Tze Y Lim, A. Micheil Innes, John Musgrove, Simone Sanna-Cherchi, and Erica E. Davis

Subjects

Adult, Male, 0301 basic medicine, Proband, medicine.medical_specialty, Nephrotic Syndrome, Developmental Disabilities, 030232 urology & nephrology, Neurogenetics, Nerve Tissue Proteins, Biology, Kidney, Cell Line, Mice, 03 medical and health sciences, Exon, 0302 clinical medicine, Focal segmental glomerulosclerosis, Report, Exome Sequencing, Genetics, medicine, Animals, Humans, Child, Exome, Genetics (clinical), Exome sequencing, Epilepsy, Glomerulosclerosis, Focal Segmental, Podocytes, medicine.disease, 3. Good health, Phenotype, 030104 developmental biology, Codon, Nonsense, Child, Preschool, Mutation, Medical genetics, Female, Intranuclear Space, Carrier Proteins, Nephrotic syndrome

Abstract

Focal segmental glomerulosclerosis (FSGS) is the main pathology underlying steroid-resistant nephrotic syndrome (SRNS) and a leading cause of chronic kidney disease. Monogenic forms of pediatric SRNS are predominantly caused by recessive mutations, while the contribution of de novo variants (DNVs) to this trait is poorly understood. Using exome sequencing (ES) in a proband with FSGS/SRNS, developmental delay, and epilepsy, we discovered a nonsense DNV in TRIM8, which encodes the E3 ubiquitin ligase tripartite motif containing 8. To establish whether TRIM8 variants represent a cause of FSGS, we aggregated exome/genome-sequencing data for 2,501 pediatric FSGS/SRNS-affected individuals and 48,556 control subjects, detecting eight heterozygous TRIM8 truncating variants in affected subjects but none in control subjects (p = 3.28 × 10(−11)). In all six cases with available parental DNA, we demonstrated de novo inheritance (p = 2.21 × 10(−15)). Reverse phenotyping revealed neurodevelopmental disease in all eight families. We next analyzed ES from 9,067 individuals with epilepsy, yielding three additional families with truncating TRIM8 variants. Clinical review revealed FSGS in all. All TRIM8 variants cause protein truncation clustering within the last exon between residues 390 and 487 of the 551 amino acid protein, indicating a correlation between this syndrome and loss of the TRIM8 C-terminal region. Wild-type TRIM8 overexpressed in immortalized human podocytes and neuronal cells localized to nuclear bodies, while constructs harboring patient-specific variants mislocalized diffusely to the nucleoplasm. Co-localization studies demonstrated that Gemini and Cajal bodies frequently abut a TRIM8 nuclear body. Truncating TRIM8 DNVs cause a neuro-renal syndrome via aberrant TRIM8 localization, implicating nuclear bodies in FSGS and developmental brain disease.

Published

2021

14. Combining genomic and epidemiological data to compare the transmissibility of SARS-CoV-2 variants Alpha and Iota

Author

Mary E. Petrone, Jessica E. Rothman, Mallery I. Breban, Isabel M. Ott, Alexis Russell, Erica Lasek-Nesselquist, Hamada Badr, Kevin Kelly, Greg Omerza, Nicholas Renzette, Anne E. Watkins, Chaney C. Kalinich, Tara Alpert, Anderson F. Brito, Rebecca Earnest, Irina R. Tikhonova, Christopher Castaldi, John P. Kelly, Matthew Shudt, Jonathan Plitnick, Erasmus Schneider, Steven Murphy, Caleb Neal, Eva Laszlo, Ahmad Altajar, Claire Pearson, Anthony Muyombwe, Randy Downing, Jafar Razeq, Linda Niccolai, Madeline S. Wilson, Margaret L. Anderson, Jianhui Wang, Chen Liu, Pei Hui, Shrikant Mane, Bradford P. Taylor, William P. Hanage, Marie L. Landry, David R. Peaper, Kaya Bilguvar, Joseph R. Fauver, Chantal B. F. Vogels, Lauren M. Gardner, Virginia E. Pitzer, Kirsten St. George, Mark D. Adams, and Nathan D. Grubaugh

Subjects

Medicine (miscellaneous), General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Abstract

SARS-CoV-2 variants shaped the second year of the COVID-19 pandemic and the discourse around effective control measures. Evaluating the threat posed by a new variant is essential for adapting response efforts when community transmission is detected. In this study, we compare the dynamics of two variants, Alpha and Iota, by integrating genomic surveillance data to estimate the effective reproduction number (Rt) of the variants. We use Connecticut, United States, in which Alpha and Iota co-circulated in 2021. We find that the Rt of these variants were up to 50% larger than that of other variants. We then use phylogeography to show that while both variants were introduced into Connecticut at comparable frequencies, clades that resulted from introductions of Alpha were larger than those resulting from Iota introductions. By monitoring the dynamics of individual variants throughout our study period, we demonstrate the importance of routine surveillance in the response to COVID-19.

Published

2022

15. Whole exome sequencing identified ATP6V1C2 as a novel candidate gene for recessive distal renal tubular acidosis

Author

Tilman Jobst-Schwan, Marcella Greco, Patricia M. Kane, Michelle A. Baum, Verena Klämbt, Shrikant Mane, Seema Hashmi, Seth L. Alper, Jutta Gellermann, Richard P. Lifton, Amar J. Majmundar, Florian Buerger, John F. Heneghan, Friedhelm Hildebrandt, Guido F. Laube, Shirlee Shril, Francesco Emma, Farkhanda Hafeez, Hanan M. Fathy, Rezan Topaloglu, Isabel Ottlewski, Martin Pohl, Danko Milosevic, Boris E. Shmukler, and Maureen Tarsio

Subjects

0301 basic medicine, Vacuolar Proton-Translocating ATPases, Candidate gene, Pathology, medicine.medical_specialty, DNA Mutational Analysis, 030232 urology & nephrology, medicine.disease_cause, Renal tubular acidosis, 03 medical and health sciences, 0302 clinical medicine, Renal tubular dysfunction, Distal renal tubular acidosis, Anion Exchange Protein 1, Erythrocyte, Exome Sequencing, medicine, Humans, Chloride-Bicarbonate Antiporters, Child, Exome sequencing, Kidney, Mutation, business.industry, Forkhead Transcription Factors, Acidosis, Renal Tubular, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, FOXI1, Nephrology, business

Abstract

Distal renal tubular acidosis is a rare renal tubular disorder characterized by hyperchloremic metabolic acidosis and impaired urinary acidification. Mutations in three genes (ATP6V0A4, ATP6V1B1 and SLC4A1) constitute a monogenic causation in 58-70% of familial cases of distal renal tubular acidosis. Recently, mutations in FOXI1 have been identified as an additional cause. Therefore, we hypothesized that further monogenic causes of distal renal tubular acidosis remain to be discovered. Panel sequencing and/or whole exome sequencing was performed in a cohort of 17 families with 19 affected individuals with pediatric onset distal renal tubular acidosis. A causative mutation was detected in one of the three "classical" known distal renal tubular acidosis genes in 10 of 17 families. The seven unsolved families were then subjected to candidate whole exome sequencing analysis. Potential disease causing mutations in three genes were detected: ATP6V1C2, which encodes another kidney specific subunit of the V-type proton ATPase (1 family); WDR72 (2 families), previously implicated in V-ATPase trafficking in cells; and SLC4A2 (1 family), a paralog of the known distal renal tubular acidosis gene SLC4A1. Two of these mutations were assessed for deleteriousness through functional studies. Yeast growth assays for ATP6V1C2 revealed loss-of-function for the patient mutation, strongly supporting ATP6V1C2 as a novel distal renal tubular acidosis gene. Thus, we provided a molecular diagnosis in a known distal renal tubular acidosis gene in 10 of 17 families (59%) with this disease, identified mutations in ATP6V1C2 as a novel human candidate gene, and provided further evidence for phenotypic expansion in WDR72 mutations from amelogenesis imperfecta to distal renal tubular acidosis.

Published

2020

16. Mutation spectrum of congenital heart disease in a consanguineous Turkish population

Author

Weilai Dong, Hande Kaymakcalan, Sheng Chih Jin, Nicholas S. Diab, Cansaran Tanıdır, Ali Seyfi Yalim Yalcin, A. Gulhan Ercan‐Sencicek, Shrikant Mane, Murat Gunel, Richard P. Lifton, Kaya Bilguvar, and Martina Brueckner

Subjects

Heart Defects, Congenital, Consanguinity, Turkey, Mutation, Exome Sequencing, Genetics, Humans, Molecular Biology, Genetics (clinical)

Abstract

While many studies agree that consanguinity increases the rate of congenital heart disease (CHD), few genome analyses have been conducted with consanguineous CHD cohorts.We recruited 73 CHD probands from consanguineous families in Turkey and used whole-exome sequencing (WES) to identify genetic lesions in these patients.On average, each patient had 6.95 rare damaging homozygous variants, 0.68 of which are loss-of-function (LoF) variants. Seven patients (9.6%) carried damaging homozygous variants in five causal CHD genes. Six of those patients exhibited laterality defects (six HTX and one D-TGA). Three additional patients (4.1%) harbored other types of CHD-associated genomic alterations, which overall explained 13.7% (10/73) of the cohort. The contribution from recessive variants in our cohort is higher than 1.8% reported from a cohort of 2871 CHD subjects where 5.6% of subjects met the criteria for consanguinity.Our WES screen of a Turkish consanguineous population with structural CHD revealed its unique genetic architecture. Six of seven damaging homozygous variants in CHD causal genes occur in the setting of laterality defects implies a strong contribution from consanguinity to these defects specifically. Our study thus provided valuable information about the genetic landscape of CHD in consanguineous families in Turkey.

Published

2022

17. Biallelic DAW1 variants cause a motile ciliopathy characterized by laterality defects and subtle ciliary beating abnormalities

Author

Joseph S. Leslie, Rim Hjeij, Asaf Vivante, Elizabeth A. Bearce, Laura Dyer, Jiaolong Wang, Lettie Rawlins, Joanna Kennedy, Nishanka Ubeyratna, James Fasham, Zoe H. Irons, Samuel B. Craig, Julia Koenig, Sebastian George, Ben Pode-Shakked, Yoav Bolkier, Ortal Barel, Shrikant Mane, Kathrine K. Frederiksen, Olivia Wenger, Ethan Scott, Harold E. Cross, Esben Lorentzen, Dominic P. Norris, Yair Anikster, Heymut Omran, Daniel T. Grimes, Andrew H. Crosby, and Emma L. Baple

Subjects

Motile cilia, Axoneme, Proteins, Ciliopathies, Left-right asymmetry, DAW1, Mice, Primary ciliary dyskinesia, Mutation, Humans, Animals, Heterotaxy, Cilia, Genetics (clinical), Zebrafish, Ciliary Motility Disorders

Abstract

Purpose: The clinical spectrum of motile ciliopathies includes laterality defects, hydrocephalus, and infertility as well as primary ciliary dyskinesia when impaired mucociliary clearance results in otosinopulmonary disease. Importantly, approximately 30% of patients with primary ciliary dyskinesia lack a genetic diagnosis. Methods: Clinical, genomic, biochemical, and functional studies were performed alongside in vivo modeling of DAW1 variants. Results: In this study, we identified biallelic DAW1 variants associated with laterality defects and respiratory symptoms compatible with motile cilia dysfunction. In early mouse embryos, we showed that Daw1 expression is limited to distal, motile ciliated cells of the node, consistent with a role in left-right patterning. daw1 mutant zebrafish exhibited reduced cilia motility and left-right patterning defects, including cardiac looping abnormalities. Importantly, these defects were rescued by wild-type, but not mutant daw1, gene expression. In addition, pathogenic DAW1 missense variants displayed reduced protein stability, whereas DAW1 loss-of-function was associated with distal type 2 outer dynein arm assembly defects involving axonemal respiratory cilia proteins, explaining the reduced cilia-induced fluid flow in particle tracking velocimetry experiments. Conclusion: Our data define biallelic DAW1 variants as a cause of human motile ciliopathy and determine that the disease mechanism involves motile cilia dysfunction, explaining the ciliary beating defects observed in affected individuals.

Published

2021

18. Sequencing the CaSR locus in Pakistani stone formers reveals a novel loss-of-function variant atypically associated with nephrolithiasis

Author

Shirlee Shril, Ihsan Ullah, Muhammad Yasir Zahoor, Isabel Ottlewski, Sadaqat Ijaz, Asad Tufail, Friedhelm Hildebrandt, Amjad Riaz, Amar J. Majmundar, Wasim Shehzad, Shrikant Mane, and Hafiza Ammara

Subjects

Male, Locus (genetics), QH426-470, Biology, Nephrolithiasis, Hypocalciuria, Cohort Studies, Kidney Calculi, CaSR, Genetics, medicine, Humans, Genetic Predisposition to Disease, Pakistan, Hypercalciuria, Child, Internal medicine, Genetics (clinical), Exome sequencing, Loss function, Genes, Dominant, Hyperparathyroidism, Calcium sensing receptor, Research, medicine.disease, RC31-1245, Exon skipping, Pedigree, Mutation, Female, Calcium-sensing receptor, medicine.symptom, Rare disease, Receptors, Calcium-Sensing

Abstract

Background Nephrolithiasis (NL) affects 1 in 11 individuals worldwide and causes significant morbidity and cost. Common variants in the calcium sensing receptor gene (CaSR) have been associated with NL. Rare inactivating CaSR variants classically cause hyperparathyroidism, hypercalcemia and hypocalciuria. However, NL and familial hypercalciuria have been paradoxically associated with select inactivating CaSR variants in three kindreds from Europe and Australia. Methods To discover novel NL-associated CaSR variants from a geographically distinct cohort, 57 Pakistani families presenting with pediatric onset NL were recruited. The CaSR locus was analyzed by directed or exome sequencing. Results We detected a heterozygous and likely pathogenic splice variant (GRCh37 Chr3:122000958A>G; GRCh38 Chr3:12228211A>G; NM_000388:c.1609-2A>G) in CaSR in one family with recurrent calcium oxalate stones. This variant would be predicted to cause exon skipping and premature termination (p.Val537Metfs*49). Moreover, a splice variant of unknown significance in an alternative CaSR transcript (GRCh37 Chr3:122000929G>C; GRCh38 Chr3:122282082G >C NM_000388:c.1609-31G >C NM_001178065:c.1609-1G >C) was identified in two additional families. Conclusions Sequencing of the CaSR locus in Pakistani stone formers reveals a novel loss-of-function variant, expanding the connection between the CaSR locus and nephrolithiasis.

Published

2021

19. Cystin genetic variants cause autosomal recessive polycystic kidney disease associated with altered Myc expression

Author

Chaozhe Yang, Shirlee Shril, Lisa M. Guay-Woodford, Friedhelm Hildebrandt, Hanan M. Fathy, Amber K. O'Connor, Amar J. Majmundar, Naoe Harafuji, Shrikant Mane, Monkol Lek, Daniela A. Braun, Jacob A. Watts, Kristen M. Laricchia, and Robert A. Kesterson

Subjects

Male, Science, Transgene, Down-Regulation, Mice, Transgenic, Biology, urologic and male genital diseases, Kidney, medicine.disease_cause, Article, Proto-Oncogene Proteins c-myc, Mice, Polycystic kidney disease, medicine, Animals, Humans, Genetic Predisposition to Disease, Gene, Polycystic Kidney, Autosomal Recessive, Phenocopy, Mutation, Multidisciplinary, Disease genetics, Cilium, fungi, Genetic Variation, Membrane Proteins, Fusion protein, Phenotype, Autosomal Recessive Polycystic Kidney Disease, Experimental models of disease, Child, Preschool, Cancer research, Medicine

Abstract

Mutation of the Cys1 gene underlies the renal cystic disease in the Cys1cpk/cpk (cpk) mouse that phenocopies human autosomal recessive polycystic kidney disease (ARPKD). Cystin, the protein product of Cys1, is expressed in the primary apical cilia of renal ductal epithelial cells. In previous studies, we showed that cystin regulates Myc expression via interaction with the tumor suppressor, necdin. Here, we demonstrate rescue of the cpk renal phenotype by kidney-specific expression of a cystin-GFP fusion protein encoded by a transgene integrated into the Rosa26 locus. In addition, we show that expression of the cystin-GFP fusion protein in collecting duct cells down-regulates expression of Myc in cpk kidneys. Finally, we report the first human patient with an ARPKD phenotype due to homozygosity for a deleterious splicing variant in CYS1. These findings suggest that mutations in Cys1/CYS1 cause an ARPKD phenotype in mouse and human, respectively, and that the renal cystic phenotype in the mouse is driven by overexpression of the Myc proto-oncogene.

Published

2021

20. Genome‐wide association study of cognitive performance in U.S. veterans with schizophrenia or bipolar disorder

Author

Mihaela Aslan, Philip D. Harvey, John Concato, Larry J. Siever, Anil K. Malhotra, Yiming Hu, Sumitra Muralidhar, David L. Braff, Frederick G. Sayward, Perry L. Miller, Mary Brophy, Tim B. Bigdeli, Qiongshi Lu, Nallakkandi Rajeevan, Yuli Li, Ning Sun, Kei-Hoi Cheung, John Michael Gaziano, Timothy J. O'Leary, Hongyu Zhao, Boyang Li, Shrikant Mane, Quan Chen, Theresa Gleason, Ayman H. Fanous, Tiffany A. Greenwood, Raquel E. Gur, Ronald Przygodszki, and Saiju Pyarajan

Subjects

Adult, Male, Bipolar Disorder, Genotype, Population, Genome-wide association study, Neuropsychological Tests, Polymorphism, Single Nucleotide, Cellular and Molecular Neuroscience, Cognition, medicine, Humans, Bipolar disorder, Cognitive skill, education, Veterans Affairs, Alleles, Genetics (clinical), Aged, Oligonucleotide Array Sequence Analysis, Veterans, education.field_of_study, business.industry, Middle Aged, medicine.disease, Mental illness, United States, United States Department of Veterans Affairs, Psychiatry and Mental health, Schizophrenia, Female, Cognition Disorders, business, Genome-Wide Association Study, Clinical psychology

Abstract

Cognitive impairment is a frequent and serious problem in patients with various forms of severe mental illnesses (SMI), including schizophrenia (SZ) and bipolar disorder (BP). Recent research suggests genetic links to several cognitive phenotypes in both SMI and in the general population. Our goal in this study was to identify potential genomic signatures of cognitive functioning in veterans with severe mental illness and compare them to previous findings for cognition across different populations. Veterans Affairs (VA) Cooperative Studies Program (CSP) Study #572 evaluated cognitive and functional capacity measures among SZ and BP patients. In conjunction with the VA Million Veteran Program, 3,959 European American (1,095 SZ, 2,864 BP) and 2,601 African American (1,095 SZ, 2,864 BP) patients were genotyped using a custom Affymetrix Axiom Biobank array. We performed a genome-wide association study of global cognitive functioning, constructed polygenic scores for SZ and cognition in the general population, and examined genetic correlations with 2,626 UK Biobank traits. Although no single locus attained genome-wide significance, observed allelic effects were strongly consistent with previous studies. We observed robust associations between global cognitive functioning and polygenic scores for cognitive performance, intelligence, and SZ risk. We also identified significant genetic correlations with several cognition-related traits in UK Biobank. In a diverse cohort of U.S. veterans with SZ or BP, we demonstrate broad overlap of common genetic effects on cognition in the general population, and find that greater polygenic loading for SZ risk is associated with poorer cognitive performance.

Published

2019

21. CAKUT and Autonomic Dysfunction Caused by Acetylcholine Receptor Mutations

Author

Toshimitsu Kawate, Amar J. Majmundar, Dervla M. Connaughton, Amelie T. van der Ven, Rufeng Dai, Jameela A. Kari, Caroline M. Kolvenbach, Madeleine J. Tooley, Mohamed A. Shalaby, Ryan E. Hibbs, Erik Henze, Shirlee Shril, Jing Chen, Sherif El Desoky, Nina Mann, Stuart B. Bauer, Lucy Bownass, Hadas Ityel, Richard P. Lifton, Makiko Nakayama, Velibor Tasic, Shrikant Mane, Chen Han W. Wu, Jonathan M. Beckel, Heiko Reutter, Verena Klämbt, Sian Ellard, Weiqun Yu, Franziska Kause, Friedhelm Hildebrandt, Elisa De Franco, Anant Gharpure, and Richard S. Lee

Subjects

Adult, Male, 0301 basic medicine, medicine.medical_specialty, Urinary system, 030232 urology & nephrology, Receptors, Nicotinic, Kidney, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Report, Internal medicine, Genetics, medicine, Humans, Urinary Tract, Genetics (clinical), Upper urinary tract, Acetylcholine receptor, business.industry, Dysautonomia, Prognosis, medicine.disease, Pedigree, Nicotinic acetylcholine receptor, 030104 developmental biology, Endocrinology, Nicotinic agonist, Autonomic Nervous System Diseases, Urogenital Abnormalities, Mutation, Female, medicine.symptom, business, Urinary tract obstruction, Acetylcholine, Follow-Up Studies, medicine.drug

Abstract

Congenital anomalies of the kidney and urinary tract (CAKUT) are the most common cause of chronic kidney disease in the first three decades of life, and in utero obstruction to urine flow is a frequent cause of secondary upper urinary tract malformations. Here, using whole-exome sequencing, we identified three different biallelic mutations in CHRNA3, which encodes the α3 subunit of the nicotinic acetylcholine receptor, in five affected individuals from three unrelated families with functional lower urinary tract obstruction and secondary CAKUT. Four individuals from two families have additional dysautonomic features, including impaired pupillary light reflexes. Functional studies in vitro demonstrated that the mutant nicotinic acetylcholine receptors were unable to generate current following stimulation with acetylcholine. Moreover, the truncating mutations p.Thr337Asnfs(∗)81 and p.Ser340(∗) led to impaired plasma membrane localization of CHRNA3. Although the importance of acetylcholine signaling in normal bladder function has been recognized, we demonstrate for the first time that mutations in CHRNA3 can cause bladder dysfunction, urinary tract malformations, and dysautonomia. These data point to a pathophysiologic sequence by which monogenic mutations in genes that regulate bladder innervation may secondarily cause CAKUT.

Published

2019

22. Exome Sequencing Defines the Molecular Pathogenesis of Vein of Galen Malformation

Author

Joseph M. Zabramski, Daniel Duran, Alejandro Berenstein, Michael L. DiLuna, Jonathan Gaillard, Andrew F. Ducruet, Seth L. Alper, Julio D Montejo, Shreyas Panchagnula, Carol Nelson-Williams, Sheng Chih Jin, Kaya Bilguvar, Adam J. Kundishora, Charles C. Matouk, Beverly Aagaard-Kienitz, August A Allocco, Mark W. Youngblood, Shrikant Mane, Jennifer Klein, Charuta G. Furey, Mohammad Mansuri, Murat Gunel, Richard P. Lifton, Jungmin Choi, Xue Zeng, Alberto Vera, Georges Rodesch, Sierra B Conine, Michelle Sorscher, Jason K. Karimy, Edward R. Smith, Kristopher T. Kahle, Andrew T. Timberlake, Darren B. Orbach, and Qiongshi Lu

Subjects

Pathology, medicine.medical_specialty, medicine.anatomical_structure, business.industry, medicine, Molecular pathogenesis, Surgery, Neurology (clinical), Vein, business, Exome sequencing

Published

2019

23. ALG9 Mutation Carriers Develop Kidney and Liver Cysts

Author

William J Triffo, Bryn S. Moore, Ashima Gulati, Vicente E. Torres, Stefan Somlo, Shrikant Mane, Alex R. Chang, Whitney Besse, Tooraj Mirshahi, Jonathan Z. Luo, and Dustin N. Hartzel

Subjects

0301 basic medicine, Cystic kidney, Candidate gene, PKD1, Polycystic liver disease, 030232 urology & nephrology, Autosomal dominant polycystic kidney disease, General Medicine, Biology, medicine.disease, Kidney cysts, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Nephrology, Polycystic kidney disease, medicine, Cancer research, medicine.symptom, Protein maturation

Abstract

Background Mutations in PKD1 or PKD2 cause typical autosomal dominant polycystic kidney disease (ADPKD), the most common monogenic kidney disease. Dominantly inherited polycystic kidney and liver diseases on the ADPKD spectrum are also caused by mutations in at least six other genes required for protein biogenesis in the endoplasmic reticulum, the loss of which results in defective production of the PKD1 gene product, the membrane protein polycystin-1 (PC1). Methods We used whole-exome sequencing in a cohort of 122 patients with genetically unresolved clinical diagnosis of ADPKD or polycystic liver disease to identify a candidate gene, ALG9, and in vitro cell-based assays of PC1 protein maturation to functionally validate it. For further validation, we identified carriers of ALG9 loss-of-function mutations and noncarrier matched controls in a large exome-sequenced population-based cohort and evaluated the occurrence of polycystic phenotypes in both groups. Results Two patients in the clinically defined cohort had rare loss-of-function variants in ALG9, which encodes a protein required for addition of specific mannose molecules to the assembling N-glycan precursors in the endoplasmic reticulum lumen. In vitro assays showed that inactivation of Alg9 results in impaired maturation and defective glycosylation of PC1. Seven of the eight (88%) cases selected from the population-based cohort based on ALG9 mutation carrier state who had abdominal imaging after age 50; seven (88%) had at least four kidney cysts, compared with none in matched controls without ALG9 mutations. Conclusions ALG9 is a novel disease gene in the genetically heterogeneous ADPKD spectrum. This study supports the utility of phenotype characterization in genetically-defined cohorts to validate novel disease genes, and provide much-needed genotype-phenotype correlations.

Published

2019

24. CELA2A mutations predispose to early-onset atherosclerosis and metabolic syndrome and affect plasma insulin and platelet activation

Author

Richard G. Kibbey, John Hwa, Michael H. Nathanson, Arya Mani, James S. Broughton, Ephraim N. Weiss, Adebowale J. Adeniran, Mateus T. Guerra, Richard P. Lifton, Miklós Sahin-Tóth, Fred S. Gorelick, Tarun Tyagi, Mitra Mani, Shrikant Mane, Bani Azari, Jeffrey R. Bender, Nelson Ugwu, Gerald Kayingo, Emily Smith, Mohsen Fathzadeh, Renata Belfort-DeAguiar, Sunny Chung, Rebecca L. Cardone, András Szabó, and Fatemehsadat Esteghamat

Subjects

Adult, Male, medicine.medical_specialty, medicine.medical_treatment, Biology, Linkage Disequilibrium, Article, Islets of Langerhans, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Genetics, medicine, Humans, Insulin, Genetic Predisposition to Disease, Platelet activation, Age of Onset, Pancreatic elastase, Exome sequencing, 030304 developmental biology, Metabolic Syndrome, chemistry.chemical_classification, 0303 health sciences, Pancreatic Elastase, Serine Endopeptidases, Elastase, Middle Aged, Atherosclerosis, Platelet Activation, medicine.disease, Phenotype, Pedigree, Endocrinology, Enzyme, chemistry, Case-Control Studies, Mutation, Female, Insulin Resistance, Metabolic syndrome, 030217 neurology & neurosurgery

Abstract

Factors that underlie the clustering of metabolic syndrome traits are not fully known. We performed whole exome sequence analysis in kindreds with extreme phenotypes of early-onset atherosclerosis and metabolic syndrome and identified novel loss-of-function mutations in the gene encoding the pancreatic elastase CELA2A. We further show that CELA2A is a circulating enzyme that reduces platelet hyperactivation, triggers both insulin secretion and degradation, and increases insulin sensitivity. CELA2A plasma levels rise postprandially and parallel insulin levels in humans. Loss of these functions by the mutant proteins provides insight into disease mechanisms and suggests that CELA2A could be an attractive therapeutic target., Editorial summary: Exome sequencing identifies loss-of-function CELA2A mutations in families with early-onset atherosclerosis and metabolic syndrome. Functional studies show that CELA2A is a circulating enzyme that reduces platelet activation, triggers insulin secretion and degradation, and increases insulin sensitivity.

Published

2019

25. Contributions of Rare Gene Variants to Familial and Sporadic FSGS

Author

Justin Chun, Minxian Wang, Ava Benjamin, Richard P. Lifton, Giulio Genovese, Andrea L. Uscinski Knob, David J. Friedman, Gerald B. Appel, Shrikant Mane, Martin R. Pollak, and Maris S. Wilkins

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, DNA Mutational Analysis, Disease, Biology, urologic and male genital diseases, Young Adult, Focal segmental glomerulosclerosis, SETD2, Exome Sequencing, medicine, Humans, False Positive Reactions, Age of Onset, Child, Exome, Gene, Genetic Association Studies, Exome sequencing, Genetics, Glomerulosclerosis, Focal Segmental, General Medicine, Apolipoprotein L1, medicine.disease, female genital diseases and pregnancy complications, Human genetics, Basic Research, Nephrology, Case-Control Studies, Child, Preschool, Mutation, Medical genetics, Female

Abstract

Background Over the past two decades, the importance of genetic factors in the development of FSGS has become increasingly clear. However, despite many known monogenic causes of FSGS, single gene defects explain only 30% of cases. Methods To investigate mutations underlying FSGS, we sequenced 662 whole exomes from individuals with sporadic or familial FSGS. After quality control, we analyzed the exome data from 363 unrelated family units with sporadic or familial FSGS and compared this to data from 363 ancestry-matched controls. We used rare variant burden tests to evaluate known disease-associated genes and potential new genes. Results We validated several FSGS-associated genes that show a marked enrichment of deleterious rare variants among the cases. However, for some genes previously reported as FSGS related, we identified rare variants at similar or higher frequencies in controls. After excluding such genes, 122 of 363 cases (33.6%) had rare variants in known disease-associated genes, but 30 of 363 controls (8.3%) also harbored rare variants that would be classified as "causal" if detected in cases; applying American College of Medical Genetics filtering guidelines (to reduce the rate of false-positive claims that a variant is disease related) yielded rates of 24.2% in cases and 5.5% in controls. Highly ranked new genes include SCAF1, SETD2, and LY9. Network analysis showed that top-ranked new genes were located closer than a random set of genes to known FSGS genes. Conclusions Although our analysis validated many known FSGS-causing genes, we detected a nontrivial number of purported "disease-causing" variants in controls, implying that filtering is inadequate to allow clinical diagnosis and decision making. Genetic diagnosis in patients with FSGS is complicated by the nontrivial rate of variants in known FSGS genes among people without kidney disease.

Published

2019

26. COL4A1 mutations as a potential novel cause of autosomal dominant CAKUT in humans

Author

Friedhelm Hildebrandt, Velibor Tasic, Shrikant Mane, Jameela A. Kari, Natasa Stajic, Nina Mann, Shirlee Shril, Richard P. Lifton, Zaheer Valivullah, Thomas M. Kitzler, Monkol Lek, Stefan Kohl, Sherif El Desoky, Ronen Schneider, Chen-Han W. Wu, Rufeng Dai, Amar J. Majmundar, Makiko Nakayama, Prabha Senguttuvan, Radovan Bogdanovic, Dervla M. Connaughton, and Caroline M. Kolvenbach

Subjects

Collagen Type IV, Male, Heterozygote, Nephrotic Syndrome, DNA Mutational Analysis, Web Browser, Biology, Kidney, medicine.disease_cause, Article, Congenital Abnormalities, Evolution, Molecular, 03 medical and health sciences, Nephronophthisis, Databases, Genetic, Exome Sequencing, Genetics, medicine, Humans, Missense mutation, Allele, Urinary Tract, Alleles, Genetic Association Studies, Genetics (clinical), Exome sequencing, 030304 developmental biology, 0303 health sciences, Mutation, 030305 genetics & heredity, Computational Biology, Heterozygote advantage, Genomics, Kidney Diseases, Cystic, medicine.disease, Porencephaly, Human genetics, Phenotype, Amino Acid Substitution, Genetic Loci, Female

Abstract

INTRODUCTION: Congenital anomalies of the kidney and urinary tract (CAKUT) are the most common cause of chronic kidney disease (~45%) that manifests before 30 years of age. The genetic locus containing COL4A1 (13q33–34) has been implicated in vesicoureteral reflux (VUR), but mutations in COL4A1 have not been reported in CAKUT. We hypothesized that COL4A1 mutations cause CAKUT in humans. METHODS: We performed whole exome sequencing (WES) in 550 families with CAKUT. As negative control cohorts we used WES sequencing data from patients with nephronophthisis (NPHP) with no genetic cause identified (n=257) and with nephrotic syndrome (NS) due to monogenic causes (n=100). RESULTS: We identified a not previously reported heterozygous missense variant in COL4A1 in three siblings with isolated VUR. When examining 549 families with CAKUT, we identified nine additional different heterozygous missense mutations in COL4A1 in 11 individuals from 11 unrelated families with CAKUT, while no COL4A1 mutations were identified in a control cohort with NPHP and only one in the cohort with NS. Most individuals (12/14) had isolated CAKUT with no extrarenal features. The predominant phenotype was VUR (9/14). There were no clinical features of the COL4A1-related disorders (e.g., HANAC syndrome, porencephaly, tortuosity of retinal arteries). Whereas COL4A1-related disorders are typically caused by glycine substitutions in the collagenous domain (84.4% of variants), only one variant in our cohort is a glycine substitution within the collagenous domain (1/10). CONCLUSION: We identified heterozygous COL4A1 mutations as a potential novel autosomal dominant cause of CAKUT that is allelic to the established COL4A1-related disorders and predominantly caused by non-glycine substitutions.

Published

2019

27. Autoantibodies neutralizing type I IFNs are present in

Author

Paul, Bastard, Adrian, Gervais, Tom, Le Voyer, Jérémie, Rosain, Quentin, Philippot, Jérémy, Manry, Eleftherios, Michailidis, Hans-Heinrich, Hoffmann, Shohei, Eto, Marina, Garcia-Prat, Lucy, Bizien, Alba, Parra-Martínez, Rui, Yang, Liis, Haljasmägi, Mélanie, Migaud, Karita, Särekannu, Julia, Maslovskaja, Nicolas, de Prost, Yacine, Tandjaoui-Lambiotte, Charles-Edouard, Luyt, Blanca, Amador-Borrero, Alexandre, Gaudet, Julien, Poissy, Pascal, Morel, Pascale, Richard, Fabrice, Cognasse, Jesus, Troya, Sophie, Trouillet-Assant, Alexandre, Belot, Kahina, Saker, Pierre, Garçon, Jacques G, Rivière, Jean-Christophe, Lagier, Stéphanie, Gentile, Lindsey B, Rosen, Elana, Shaw, Tomohiro, Morio, Junko, Tanaka, David, Dalmau, Pierre-Louis, Tharaux, Damien, Sene, Alain, Stepanian, Bruno, Megarbane, Vasiliki, Triantafyllia, Arnaud, Fekkar, James R, Heath, José Luis, Franco, Juan-Manuel, Anaya, Jordi, Solé-Violán, Luisa, Imberti, Andrea, Biondi, Paolo, Bonfanti, Riccardo, Castagnoli, Ottavia M, Delmonte, Yu, Zhang, Andrew L, Snow, Steven M, Holland, Catherine, Biggs, Marcela, Moncada-Vélez, Andrés Augusto, Arias, Lazaro, Lorenzo, Soraya, Boucherit, Boubacar, Coulibaly, Dany, Anglicheau, Anna M, Planas, Filomeen, Haerynck, Sotirija, Duvlis, Robert L, Nussbaum, Tayfun, Ozcelik, Sevgi, Keles, Ahmed A, Bousfiha, Jalila, El Bakkouri, Carolina, Ramirez-Santana, Stéphane, Paul, Qiang, Pan-Hammarström, Lennart, Hammarström, Annabelle, Dupont, Alina, Kurolap, Christine N, Metz, Alessandro, Aiuti, Giorgio, Casari, Vito, Lampasona, Fabio, Ciceri, Lucila A, Barreiros, Elena, Dominguez-Garrido, Mateus, Vidigal, Mayana, Zatz, Diederik, van de Beek, Sabina, Sahanic, Ivan, Tancevski, Yurii, Stepanovskyy, Oksana, Boyarchuk, Yoko, Nukui, Miyuki, Tsumura, Loreto, Vidaur, Stuart G, Tangye, Sonia, Burrel, Darragh, Duffy, Lluis, Quintana-Murci, Adam, Klocperk, Nelli Y, Kann, Anna, Shcherbina, Yu-Lung, Lau, Daniel, Leung, Matthieu, Coulongeat, Julien, Marlet, Rutger, Koning, Luis Felipe, Reyes, Angélique, Chauvineau-Grenier, Fabienne, Venet, Guillaume, Monneret, Michel C, Nussenzweig, Romain, Arrestier, Idris, Boudhabhay, Hagit, Baris-Feldman, David, Hagin, Joost, Wauters, Isabelle, Meyts, Adam H, Dyer, Sean P, Kennelly, Nollaig M, Bourke, Rabih, Halwani, Narjes Saheb, Sharif-Askari, Karim, Dorgham, Jérome, Sallette, Souad Mehlal, Sedkaoui, Suzan, AlKhater, Raúl, Rigo-Bonnin, Francisco, Morandeira, Lucie, Roussel, Donald C, Vinh, Sisse Rye, Ostrowski, Antonio, Condino-Neto, Carolina, Prando, Anastasiia, Bonradenko, András N, Spaan, Laurent, Gilardin, Jacques, Fellay, Stanislas, Lyonnet, Kaya, Bilguvar, Richard P, Lifton, Shrikant, Mane, Mark S, Anderson, Bertrand, Boisson, Vivien, Béziat, Shen-Ying, Zhang, Evangelos, Vandreakos, Olivier, Hermine, Aurora, Pujol, Pärt, Peterson, Trine H, Mogensen, Lee, Rowen, James, Mond, Stéphanie, Debette, Xavier, de Lamballerie, Xavier, Duval, France, Mentré, Marie, Zins, Pere, Soler-Palacin, Roger, Colobran, Guy, Gorochov, Xavier, Solanich, Sophie, Susen, Javier, Martinez-Picado, Didier, Raoult, Marc, Vasse, Peter K, Gregersen, Lorenzo, Piemonti, Carlos, Rodríguez-Gallego, Luigi D, Notarangelo, Helen C, Su, Kai, Kisand, Satoshi, Okada, Anne, Puel, Emmanuelle, Jouanguy, Charles M, Rice, Pierre, Tiberghien, Qian, Zhang, Aurélie, Cobat, Laurent, Abel, and Hind, Hamzeh-Cognasse

Subjects

Adult, Aged, 80 and over, Adolescent, Critical Illness, Infant, Newborn, COVID-19, Infant, Interferon-alpha, Middle Aged, Antibodies, Neutralizing, Young Adult, Case-Control Studies, Child, Preschool, Immunoglobulin G, Interferon Type I, Humans, Child, Aged, Autoantibodies

Abstract

Circulating autoantibodies (auto-Abs) neutralizing high concentrations (10 ng/mL, in plasma diluted 1 to 10) of IFN-α and/or -ω are found in about 10% of patients with critical COVID-19 pneumonia, but not in subjects with asymptomatic infections. We detect auto-Abs neutralizing 100-fold lower, more physiological, concentrations of IFN-α and/or -ω (100 pg/mL, in 1/10 dilutions of plasma) in 13.6% of 3,595 patients with critical COVID-19, including 21% of 374 patients80 years, and 6.5% of 522 patients with severe COVID-19. These antibodies are also detected in 18% of the 1,124 deceased patients (aged 20 days-99 years; mean: 70 years). Moreover, another 1.3% of patients with critical COVID-19 and 0.9% of the deceased patients have auto-Abs neutralizing high concentrations of IFN-β. We also show, in a sample of 34,159 uninfected subjects from the general population, that auto-Abs neutralizing high concentrations of IFN-α and/or -ω are present in 0.18% of individuals between 18 and 69 years, 1.1% between 70 and 79 years, and 3.4%80 years. Moreover, the proportion of subjects carrying auto-Abs neutralizing lower concentrations is greater in a subsample of 10,778 uninfected individuals: 1% of individuals70 years, 2.3% between 70 and 80 years, and 6.3%80 years. By contrast, auto-Abs neutralizing IFN-β do not become more frequent with age. Auto-Abs neutralizing type I IFNs predate SARS-CoV-2 infection and sharply increase in prevalence after the age of 70 years. They account for about 20% of both critical COVID-19 cases in the over-80s, and total fatal COVID-19 cases.

Published

2021

28. Reverse phenotyping facilitates disease allele calling in exome sequencing of patients with CAKUT

Author

Luca Schierbaum, Amar J. Majmundar, Friedhelm Hildebrandt, Hanan M. Fathy, Avram Z. Traum, Bixia Zheng, Ankana Daga, Sophia Schneider, Florian Buerger, Konstantin Deutsch, Mohammed Shalaby, Steve Seltzsam, Rufeng Dai, Caroline M. Kolvenbach, Jameela A. Kari, Daanya Salmanullah, Michelle A. Baum, Ronen Schneider, Verena Klämbt, Youying Mao, Nancy Rodig, Kirollos Yousef, Deborah R. Stein, Loai A. Eid, Michael A. J. Ferguson, Neveen A. Soliman, Isabel Ottlewski, Franziska Kause, Makiko Nakayama, Sherif El Desoky, Ethan W. Lai, Nina Mann, Hazem S. Awad, Stuart B. Bauer, Michael J. Somers, Dalia Pantel, Velibor Tasic, Ana C. Onuchic-Whitford, Shrikant Mane, Chunyan Wang, Dervla M. Connaughton, Chen-Han Wilfred Wu, Ghaleb Daouk, Shirlee Shril, and Camille Nicolas-Frank

Subjects

Genetics, Vesico-Ureteral Reflux, business.industry, Disease, medicine.disease, Kidney, Phenotype, Article, Clinical diagnosis, Urogenital Abnormalities, medicine, Humans, Exome, Allele, business, Urinary Tract, Gene, Clinical syndrome, Genetics (clinical), Exome sequencing, Alleles, Kidney disease

Abstract

Purpose Congenital anomalies of the kidneys and urinary tract (CAKUT) constitute the leading cause of chronic kidney disease in children. In total, 174 monogenic causes of isolated or syndromic CAKUT are known. However, syndromic features may be overlooked when the initial clinical diagnosis of CAKUT is made. We hypothesized that the yield of a molecular genetic diagnosis by exome sequencing (ES) can be increased by applying reverse phenotyping, by re-examining the case for signs/symptoms of the suspected clinical syndrome that results from the genetic variant detected by ES. Methods We conducted ES in an international cohort of 731 unrelated families with CAKUT. We evaluated ES data for variants in 174 genes, in which variants are known to cause isolated or syndromic CAKUT. In cases in which ES suggested a previously unreported syndromic phenotype, we conducted reverse phenotyping. Results In 83 of 731 (11.4%) families, we detected a likely CAKUT-causing genetic variant consistent with an isolated or syndromic CAKUT phenotype. In 19 of these 83 families (22.9%), reverse phenotyping yielded syndromic clinical findings, thereby strengthening the genotype–phenotype correlation. Conclusion We conclude that employing reverse phenotyping in the evaluation of syndromic CAKUT genes by ES provides an important tool to facilitate molecular genetic diagnostics in CAKUT.

Published

2021

29. Rare association of obstructed supracardiac total anomalous pulmonary venous connection with coarctation of aorta: case report

Author

Shrikant Mane

Abstract

Coexistence of TAPVC (total anomalous pulmonary venous connection) and coarctation of aorta rarely occurs. Newborn weighing 2.4 kg admitted in Sangli civil hospital NICU with respiratory distress with cyanosis. Chest X-ray of baby was suggestive of ground glass appearance of bilateral lung fields and cardiomegaly. SpO2 of baby was fluctuating between 85 to 90% on nasal CPAP. 2D echo showed baby was having obstructed supracardiac TAPVC with severe discrete post-ductal coarctation of aorta. There was stretched PFO shunting R-L and small PDA shunting R-L. Baby was planned for emergency surgery but couldn’t make it to operation theatre and succumbed within 30 hours of life. Till now there are very few case reports of TAPVC with coarctation but no case of obstructed supracardiac TAPVC with coarctation has been reported.

Published

2022

30. Recessive NOS1AP variants impair actin remodeling and cause glomerulopathy in humans and mice

Author

Amar J. Majmundar, Daniela A. Braun, Verena Klämbt, Youying Mao, Ali Amar, Ihsan Ullah, Florian Buerger, Caroline M. Kolvenbach, Neveen A. Soliman, Ker Sin Tan, Ana C. Onuchic-Whitford, Rufeng Dai, Friedhelm Hildebrandt, Shirlee Shril, Julie D. Forman-Kay, Chin Heng Chen, Marwa M. Nabhan, Andreas Heilos, Daanya Salmanullah, Richard P. Lifton, Kaitlyn Eddy, Konstantin Deutsch, Michelle Scurr, Renate Kain, Isabel Ottlewski, Melissa H. Little, Ronen Schneider, Thomas A. Forbes, Nina Mann, Makiko Nakayama, Eugen Widmeier, Seymour Rosen, Sara E. Howden, Amy Kolb, Thomas M. Kitzler, Shrikant Mane, Ethan W. Lai, Mickael Krzeminski, and Christoph Aufricht

Subjects

0303 health sciences, Gene knockdown, Multidisciplinary, Podosome, 030232 urology & nephrology, Actin remodeling, Glomerulosclerosis, macromolecular substances, Biology, medicine.disease, 3. Good health, Cell biology, Podocyte, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Glomerulopathy, medicine, Filopodia, Exome sequencing, 030304 developmental biology

Abstract

Nephrotic syndrome (NS) is a leading cause of chronic kidney disease. We found recessive NOS1AP variants in two families with early-onset NS by exome sequencing. Overexpression of wild-type (WT) NOS1AP, but not cDNA constructs bearing patient variants, increased active CDC42 and promoted filopodia and podosome formation. Pharmacologic inhibition of CDC42 or its effectors, formin proteins, reduced NOS1AP-induced filopodia formation. NOS1AP knockdown reduced podocyte migration rate (PMR), which was rescued by overexpression of WT Nos1ap but not by constructs bearing patient variants. PMR in NOS1AP knockdown podocytes was also rescued by constitutively active CDC42Q61L or the formin DIAPH3 Modeling a NOS1AP patient variant in knock-in human kidney organoids revealed malformed glomeruli with increased apoptosis. Nos1apEx3-/Ex3- mice recapitulated the human phenotype, exhibiting proteinuria, foot process effacement, and glomerulosclerosis. These findings demonstrate that recessive NOS1AP variants impair CDC42/DIAPH-dependent actin remodeling, cause aberrant organoid glomerulogenesis, and lead to a glomerulopathy in humans and mice.

Published

2021

31. Integrative Genomics Implicates Genetic Disruption of Prenatal Neurogenesis in Congenital Hydrocephalus

Author

Edith Mbabazi Kabachelor, William E. Butler, James M. Johnston, Kristopher T. Kahle, Carol Nelson-Williams, James R. Broach, Kaya Bilguvar, August A Allocco, Laura R. Ment, Andrew T. Timberlake, Peña, Peter Ssenyonga, Shozeb Haider, Christopher Castaldi, Arnaud Marlier, Bulent Guclu, Xue Zen, Steven J. Schiff, Rebecca L. Walker, Benjamin C. Reeves, James R. Knight, William J. Sullivan, Michael L. DiLuna, Weilai Dong, Bermans J. Iskandar, Yasar Bayri, Gregory G. Heuer, Boyang Li, Michael L.J. Apuzzo, Yener Sahin, Charuta G. Furey, Shreyas Panchagnula, Daniel H. Geschwind, Hannah Smith, Richard P. Lifton, Duy Phan, Michael C. Sierant, Sheng Chih Jin, Eric M. Jackson, Edward R. Smith, Tyrone DeSpenza, Irina Tikhonova, Murat Gunel, Andres Moreno-De-Luca, Nenad Sestan, Boris Keren, June Goto, Seth L. Alper, Charles C. Duncan, Adam J. Kundishora, Shrikant Mane, Ellen J. Hoffman, Francesco T. Mangano, Helena, Ashley Dunbar, Jason K. Karimy, Benjamin C. Warf, David D. Limbrick, Qiongshi Lu, Christine Hehnly, Sierra B Conine, and Li Ge

Subjects

Proband, business.industry, Neurogenesis, Genomics, Prenatal care, Bioinformatics, Congenital hydrocephalus, Neuron differentiation, Medicine, Surgery, Neurology (clinical), business, Neural development, Exome

Published

2020

32. Beyond the tubule: pathological variants of

Author

Jennifer R, Charlton, Weizhen, Tan, Ghaleb, Daouk, Lisa, Teot, Seymour, Rosen, Kevin M, Bennett, Aleksandra, Cwiek, Sejin, Nam, Francesco, Emma, François, Jouret, João Paulo, Oliveira, Lisbeth, Tranebjærg, Carina, Frykholm, Shrikant, Mane, Friedhelm, Hildebrandt, Tarak, Srivastava, Tina, Storm, Erik Ilsø, Christensen, and Rikke, Nielsen

Subjects

Adult, Male, Mice, Knockout, Adolescent, urogenital system, Kidney Glomerulus, Genetic Variation, Middle Aged, urologic and male genital diseases, Low Density Lipoprotein Receptor-Related Protein-2, Mice, Young Adult, Child, Preschool, Animals, Humans, Female, Genetic Predisposition to Disease, Renal Insufficiency, Chronic, Child, Research Article

Abstract

Pathogenic variants in the LRP2 gene, encoding the multiligand receptor megalin, cause a rare autosomal recessive syndrome: Donnai-Barrow/Facio-Oculo-Acoustico-Renal (DB/FOAR) syndrome. Because of the rarity of the syndrome, the long-term consequences of the tubulopathy on human renal health have been difficult to ascertain, and the human clinical condition has hitherto been characterized as a benign tubular condition with asymptomatic low-molecular-weight proteinuria. We investigated renal function and morphology in a murine model of DB/FOAR syndrome and in patients with DB/FOAR. We analyzed glomerular filtration rate in mice by FITC-inulin clearance and clinically characterized six families, including nine patients with DB/FOAR and nine family members. Urine samples from patients were analyzed by Western blot analysis and biopsy materials were analyzed by histology. In the mouse model, we used histological methods to assess nephrogenesis and postnatal renal structure and contrast-enhanced magnetic resonance imaging to assess glomerular number. In megalin-deficient mice, we found a lower glomerular filtration rate and an increase in the abundance of injury markers, such as kidney injury molecule-1 and N-acetyl-β-d-glucosaminidase. Renal injury was validated in patients, who presented with increased urinary kidney injury molecule-1, classical markers of chronic kidney disease, and glomerular proteinuria early in life. Megalin-deficient mice had normal nephrogenesis, but they had 19% fewer nephrons in early adulthood and an increased fraction of nephrons with disconnected glomerulotubular junction. In conclusion, megalin dysfunction, as present in DB/FOAR syndrome, confers an increased risk of progression into chronic kidney disease.

Published

2020

33. Recessive

Author

Amar J, Majmundar, Florian, Buerger, Thomas A, Forbes, Verena, Klämbt, Ronen, Schneider, Konstantin, Deutsch, Thomas M, Kitzler, Sara E, Howden, Michelle, Scurr, Ker Sin, Tan, Mickaël, Krzeminski, Eugen, Widmeier, Daniela A, Braun, Ethan, Lai, Ihsan, Ullah, Ali, Amar, Amy, Kolb, Kaitlyn, Eddy, Chin Heng, Chen, Daanya, Salmanullah, Rufeng, Dai, Makiko, Nakayama, Isabel, Ottlewski, Caroline M, Kolvenbach, Ana C, Onuchic-Whitford, Youying, Mao, Nina, Mann, Marwa M, Nabhan, Seymour, Rosen, Julie D, Forman-Kay, Neveen A, Soliman, Andreas, Heilos, Renate, Kain, Christoph, Aufricht, Shrikant, Mane, Richard P, Lifton, Shirlee, Shril, Melissa H, Little, and Friedhelm, Hildebrandt

Subjects

Mice, Nephrotic Syndrome, Podocytes, Animals, Formins, Humans, Kidney Diseases, Actins, Adaptor Proteins, Signal Transducing

Abstract

Nephrotic syndrome (NS) is a leading cause of chronic kidney disease. We found recessive

Published

2020

34. Whole Exome Sequencing of Severe Asthma Identifies Novel Gene Association Candidates

Author

Jose L. Gomez, Xiting Yan, Geoffrey Chupp, Z. Wang, Shrikant Mane, and N. Shan

Subjects

Novel gene, business.industry, Severe asthma, Medicine, Computational biology, business, Exome sequencing

Published

2020

35. PD52-06 COMPUTATIONAL IMMUNOGENOMIC MODELING OF IMMUNOEVASIVE AGGRESSIVE PROSTATE CANCER

Author

Angela Busta, Erickson Geoffrey, Howard Korman, Harry Stylli, Jason Hafron, Kenneth Kernen, Philip W. Kantoff, Shrikant Mane, Rima Tinawi-Aljundi, Amin I. Kassis, Mathew Putzi, Kirk J. Wojno, Elyse Marriott, and Ricardo Henao

Subjects

Oncology, medicine.medical_specialty, Prostate biopsy, genetic structures, medicine.diagnostic_test, business.industry, Urology, medicine.disease, Peripheral blood, Prostate cancer, Rna expression, Internal medicine, Medicine, business

Abstract

INTRODUCTION AND OBJECTIVE:Peripheral blood CD14/CD2 RNA expression ratios have shown associations with prostate biopsy features. The objectives of this study are: 1) To develop a computational imm...

Published

2020

36. Neonatal multisystem inflammatory syndrome associated with prenatal maternal SARS-CoV-2 exposure: a case series

Author

Harish J. Tambekar, Satish D. Ashtekar, Shishir P. Mirgunde, Swati Khot, and Shrikant Mane

Abstract

Multisystem inflammatory syndrome (MIS-C) in children (MIS-C) associated with severe acute respiratory syndrome coronavirus-2 (SARS-CoV2) is well recognised in children, however, rarely reported in newborns. It usually presents as fever and multiorgan involvement, with blood investigations showing increased inflammatory markers weeks after exposure to SARS-CoV-2. Unlike older children, the mechanism is unique in neonates as COVID-19 infection and the subsequent inflammatory reaction leading to MIS-C occur in two different individuals. We reviewed the perinatal history, clinical features, and outcomes of 3 neonates with features consistent with MIS-N related to maternal SARS-CoV-2, from August 2021 to December 2021. Anti-SARS-CoV-2 IgG and IgM antibodies were tested in all neonates. Clinical picture comprised multiorgan dysfunction (gastrointestinal, cardiorespiratory, haematological and dermatological), positive inflammatory markers, high ferritin and high D-dimer levels, elevated Cardiac enzymes. Blood cultures were sterile. Positive anti-SARS-CoV-2 IgG in both the mother and the infant, along with epidemiological evidence of maternal contact with COVID-19, clinched the diagnosis of MIS-C. Immunomodulatory drugs (intravenous immunoglobulin and systemic steroids) were administered. Multisystem inflammatory syndrome should be considered as a differential diagnosis in all critically ill neonates, particularly with maternal history of COVID-19 infection or epidemiological contact. This neonatal presentation is the reflection of fetal inflammatory response syndrome associated with maternal SARS-CoV-2 infection. Having no fever throughout the course of illness, in some neonates, suggests that neonates respond differently compared with children.

Published

2022

37. Clonal evolution analysis of paired anaplastic and well-differentiated thyroid carcinomas reveals shared common ancestor

Author

James R. Knight, Norman G. Nicolson, Richard P. Lifton, John W. Kunstman, Shrikant Mane, Reju Korah, Tobias Carling, Sara Abou Azar, Andrea Barbieri, Weilai Dong, Kaya Bilguvar, and Jungmin Choi

Subjects

Adult, Male, 0301 basic medicine, Cancer Research, Carcinogenesis, Somatic cell, medicine.medical_treatment, DNA Mutational Analysis, Biology, Thyroid Carcinoma, Anaplastic, Somatic evolution in cancer, Clonal Evolution, Cohort Studies, Thyroid carcinoma, Anaplastic thyroid carcinoma, 03 medical and health sciences, Genetics, medicine, Humans, Exome, Thyroid Neoplasms, Exome sequencing, Aged, Ancestor, Aged, 80 and over, Thyroidectomy, Cell Differentiation, DNA, Neoplasm, Sequence Analysis, DNA, Middle Aged, Well differentiated, 030104 developmental biology, Evolutionary biology, Female

Abstract

Foci of papillary or follicular thyroid carcinoma are frequently noted in thyroidectomy specimens of anaplastic thyroid carcinoma (ATC). However, whether ATCs evolve from these co-existing well-differentiated thyroid carcinomas (WDTCs) has not been well-understood. To investigate the progression of ATC in patients with co-existing WDTCs, five ATC tumors with co-existing WDTCs and matching normal tissues were whole-exome sequenced. After mapping the somatic alteration landscape, evolutionary lineages were constructed by sub-clone analysis. Though each tumor harbored at least some unique private mutations, all five ATCs demonstrated numerous overlapping mutations with matched WDTCs. Clonal analysis further demonstrated that each ATC/WDTC pair shared a common ancestor, with some pairs diverging early in their evolution and others in which the ATC seems to arise directly from a sub-clone of the WDTC. Though the precise lineal relationship remains ambiguous, based on the genetic relationship, our study clearly suggests a shared origin of ATC and WDTC.

Published

2018

38. Mutations in multiple components of the nuclear pore complex cause nephrotic syndrome

Author

Larissa Kerecuk, Tilman Jobst-Schwan, Weizhen Tan, Khalid A. Alhasan, Mais Hashem, Shrikant Mane, Jonathan Marquez, Seema Hashmi, Shahid Mahmood Baig, Svjetlana Lovric, Heon Yung Gee, Kaitlyn Eddy, Johanna Magdalena Schmidt, Sara Gonçalves, Jillian K. Warejko, Ayaz Khan, Mustafa K. Khokha, Charlotte A. Hoogstraten, Hannah Hugo, Mercedes Ubetagoyena, Birgit Budde, M. Asif, Amar J. Majmundar, Jennifer A. Lawson, Qian Shen, Gema Ariceta, Angelika A. Noegel, Tobias Hermle, Eugen Widmeier, Susanne Motameny, Nilufar Mohebbi, Friedhelm Hildebrandt, Janine Altmüller, Richard P. Lifton, Kathrin Schrage, Thomas M. Kitzler, Muhammad Sajid Hussain, Amy Kolb, Hanan M. Fathy, Arwa Ishaq A. Khayyat, Ankana Daga, Robert B. Ettenger, David Schapiro, Daniela A. Braun, Erkin Serdaroglu, Shirlee Shril, Hong Xu, Syeda Seema Waseem, Fowzan S. Alkuraya, Jia Rao, Ronen Schneider, C. Patrick Lusk, Daniel P. Gale, Corinne Antignac, Peter Nürnberg, Wolfram Antonin, Shazia Ashraf, and Abubakar Moawia

Subjects

0301 basic medicine, Nephrotic Syndrome, Protein subunit, Xenopus Proteins, medicine.disease_cause, Cell Line, Xenopus laevis, 03 medical and health sciences, medicine, Animals, Humans, Nuclear pore, Allele, Gene, Zebrafish, Genetics, Mutation, biology, Effector, General Medicine, Zebrafish Proteins, biology.organism_classification, Phenotype, Nuclear Pore Complex Proteins, Disease Models, Animal, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], 030104 developmental biology, Gene Knockdown Techniques

Abstract

Item does not contain fulltext Steroid-resistant nephrotic syndrome (SRNS) almost invariably progresses to end-stage renal disease. Although more than 50 monogenic causes of SRNS have been described, a large proportion of SRNS remains unexplained. Recently, it was discovered that mutations of NUP93 and NUP205, encoding 2 proteins of the inner ring subunit of the nuclear pore complex (NPC), cause SRNS. Here, we describe mutations in genes encoding 4 components of the outer rings of the NPC, namely NUP107, NUP85, NUP133, and NUP160, in 13 families with SRNS. Using coimmunoprecipitation experiments, we showed that certain pathogenic alleles weakened the interaction between neighboring NPC subunits. We demonstrated that morpholino knockdown of nup107, nup85, or nup133 in Xenopus disrupted glomerulogenesis. Re-expression of WT mRNA, but not of mRNA reflecting mutations from SRNS patients, mitigated this phenotype. We furthermore found that CRISPR/Cas9 knockout of NUP107, NUP85, or NUP133 in podocytes activated Cdc42, an important effector of SRNS pathogenesis. CRISPR/Cas9 knockout of nup107 or nup85 in zebrafish caused developmental anomalies and early lethality. In contrast, an in-frame mutation of nup107 did not affect survival, thus mimicking the allelic effects seen in humans. In conclusion, we discovered here that mutations in 4 genes encoding components of the outer ring subunits of the NPC cause SRNS and thereby provide further evidence that specific hypomorphic mutations in these essential genes cause a distinct, organ-specific phenotype.

Published

2018

39. Genetic variants in the LAMA5 gene in pediatric nephrotic syndrome

Author

Jillian K. Warejko, Shazia Ashraf, Jia Rao, Friedhelm Hildebrandt, Johanna Magdalena Schmidt, Tobias Hermle, Makiko Nakayama, Amar J. Majmundar, Eugen Widmeier, Weizhen Tan, Tilman Jobst-Schwan, Shrikant Mane, Ronen Schneider, Sevcan A. Bakkaloglu, Ghaleb Daouk, Richard P. Lifton, Ankana Daga, Jameela A. Kari, Sherif El Desoky, Charlotte A. Hoogstraten, Hannah Hugo, Shirlee Shril, David Schapiro, and Daniela A. Braun

Subjects

Adult, Male, Nephrotic Syndrome, Adolescent, DNA Mutational Analysis, 030232 urology & nephrology, 030204 cardiovascular system & hematology, medicine.disease_cause, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Gene mapping, Exome Sequencing, medicine, Humans, Hypoalbuminemia, Child, Gene, Exome sequencing, Genetics, Transplantation, Mutation, business.industry, Homozygote, Infant, Newborn, Infant, Prognosis, medicine.disease, Disease gene identification, Pedigree, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], Phenotype, Nephrology, Child, Preschool, Female, Laminin, ORIGINAL ARTICLES, business, Nephrotic syndrome, Immunosuppressive Agents, Orthologous Gene

Abstract

Item does not contain fulltext BACKGROUND: Nephrotic syndrome (NS), a chronic kidney disease, is characterized by significant loss of protein in the urine causing hypoalbuminemia and edema. In general, approximately 15% of childhood-onset cases do not respond to steroid therapy and are classified as steroid-resistant NS (SRNS). In approximately 30% of cases with SRNS, a causative mutation can be detected in one of 44 monogenic SRNS genes. The gene LAMA5 encodes laminin-alpha5, an essential component of the glomerular basement membrane. Mice with a hypomorphic mutation in the orthologous gene Lama5 develop proteinuria and hematuria. METHODS: To identify additional monogenic causes of NS, we performed whole exome sequencing in 300 families with pediatric NS. In consanguineous families we applied homozygosity mapping to identify genomic candidate loci for the underlying recessive mutation. RESULTS: In three families, in whom mutations in known NS genes were excluded, but in whom a recessive, monogenic cause of NS was strongly suspected based on pedigree information, we identified homozygous variants of unknown significance (VUS) in the gene LAMA5. While all affected individuals had nonsyndromic NS with an early onset of disease, their clinical outcome and response to immunosuppressive therapy differed notably. CONCLUSION: We here identify recessive VUS in the gene LAMA5 in patients with partially treatment-responsive NS. More data will be needed to determine the impact of these VUS in disease management. However, familial occurrence of disease, data from genetic mapping and a mouse model that recapitulates the NS phenotypes suggest that these genetic variants may be inherited factors that contribute to the development of NS in pediatric patients.

Published

2018

40. Genomic and Phenomic Correlates of Suicidality Among US Veterans With Schizophrenia or Bipolar Disorder

Author

Saiju Pyarajan, Philip D. Harvey, Mihaela Aslan, Larry J. Siever, John Concato, Frederick G. Sayward, Perry L. Miller, Ayman H. Fanous, David A. Nielsen, Sumitra Muralidhar, Alan C. Swann, David P. Graham, Mary Brophy, Shrikant Mane, Theresa Gleason, Roseann E. Peterson, Yuli Li, Timothy J. O'Leary, Ronald Przygodszki, Kei-Hoi Cheung, J. Michael Gaziano, Anna V. Wilkinson, Million Veteran Program, Nikhil Khankari, Jacquelyn L. Meyers, Tim B. Bigdeli, Thomas R. Kosten, Grant D. Huang, Nallakkandi Rajeevan, and Hongyu Zhao

Subjects

medicine.medical_specialty, business.industry, Schizophrenia, medicine, Bipolar disorder, medicine.disease, Psychiatry, business, Biological Psychiatry

Published

2021

41. Whole exome sequencing frequently detects a monogenic cause in early onset nephrolithiasis and nephrocalcinosis

Author

Deborah R. Stein, Weizhen Tan, Amar J. Majmundar, Richard P. Lifton, David Schapiro, Daniela A. Braun, Jan Halbritter, Christian Hanna, John A. Sayer, Margarita Halty, Avram Z. Traum, Sherif M. El-Desoky, Velibor Tasic, Shrikant Mane, Friedhelm Hildebrandt, Asaf Vivante, Michelle A. Baum, Shirlee Shril, Seema Hashmi, Michael A. J. Ferguson, Zoran Gucev, Caleb P. Nelson, Avi Katz, Ghaleb Daouk, Heon Yung Gee, Neveen A. Soliman, Tilman Jobst-Schwan, Michael J. Somers, Eugen Widmeier, Danko Milosevic, Ari J. Wassner, Jameela A. Kari, Hanan M. Fathy, Ankana Daga, Andrew L. Schwaderer, Jennifer A. Lawson, Jillian K. Warejko, and Nancy Rodig

Subjects

Genetic Markers, Male, 0301 basic medicine, Heredity, Adolescent, 030232 urology & nephrology, Disease, Consanguinity, Biology, Nephrolithiasis, Bioinformatics, Article, Young Adult, Kidney Calculi, 03 medical and health sciences, 0302 clinical medicine, Predictive Value of Tests, Risk Factors, Exome Sequencing, medicine, Humans, Genetic Predisposition to Disease, Genetic Testing, Age of Onset, Child, Gene, Genetic Association Studies, Exome sequencing, Ultrasonography, Genetics, Phenocopy, Incidence (epidemiology), Infant, Prognosis, medicine.disease, Pedigree, Nephrocalcinosis, Phenotype, 030104 developmental biology, Nephrology, Child, Preschool, Mutation, Mutation (genetic algorithm), Disease Progression, Female, nephrolithiasis, nephrocalcinosis, monogenic cause, whole exome sequencing, Tomography, X-Ray Computed

Abstract

The incidence of nephrolithiasis continues to rise. Previously, we showed that a monogenic cause could be detected in 11.4% of individuals with adult-onset nephrolithiasis or nephrocalcinosis and in 16.7-20.8% of individuals with onset before 18 years of age, using gene panel sequencing of 30 genes known to cause nephrolithiasis/nephrocalcinosis. To overcome the limitations of panel sequencing, we utilized whole exome sequencing in 51 families, who presented before age 25 years with at least one renal stone or with a renal ultrasound finding of nephrocalcinosis to identify the underlying molecular genetic cause of disease. In 15 of 51 families, we detected a monogenic causative mutation by whole exome sequencing. A mutation in seven recessive genes ( AGXT, ATP6V1B1, CLDN16, CLDN19, GRHPR, SLC3A1, SLC12A1 ), in one dominant gene ( SLC9A3R1 ), and in one gene ( SLC34A1 ) with both recessive and dominant inheritance was detected. Seven of the 19 different mutations were not previously described as disease-causing. In one family, a causative mutation in one of 117 genes that may represent phenocopies of nephrolithiasis-causing genes was detected. In nine of 15 families, the genetic diagnosis may have specific implications for stone management and prevention. Several factors that correlated with the higher detection rate in our cohort were younger age at onset of nephrolithiasis/nephrocalcinosis, presence of multiple affected members in a family, and presence of consanguinity. Thus, we established whole exome sequencing as an efficient approach toward a molecular genetic diagnosis in individuals with nephrolithiasis/nephrocalcinosis who manifest before age 25 years.

Published

2018

42. Whole-Exome Sequencing Identifies Causative Mutations in Families with Congenital Anomalies of the Kidney and Urinary Tract

Author

Kassaundra Amann, Richard P. Lifton, Shirlee Shril, Weizhen Tan, Aravind Selvin, Avram Z. Traum, Jameela A. Kari, Nancy Rodig, Rufeng Dai, Leslie Spaneas, David Schapiro, Daniela A. Braun, Jing Chen, Michelle A. Baum, Friedhelm Hildebrandt, Julian Schulz, Shazia Ashraf, Heiko Reutter, Ali Amar, Ronen Schneider, Prabha Senguttuvan, Michael A. J. Ferguson, Weining Lu, Thomas M. Kitzler, Hannah Hugo, Makiko Nakayama, Radovan Bogdanovic, Asaf Vivante, Daniel G. MacArthur, Hanan M. Fathy, Charlotte A. Hoogstraaten, Simone Sanna-Cherchi, Sherif El Desoky, Ghaleb Daouk, Natasa Stajic, Loai A. Eid, Deborah R. Stein, Amar J. Majmundar, Ankana Daga, Michael W. Wilson, Caroline M. Kolvenbach, Franziska Kause, Hazem S. Awad, Heidi L. Rehm, Velibor Tasic, Jillian K. Warejko, Shrikant Mane, Monkol Lek, Tobias Hermle, Richard S. Lee, Muna Al-Saffar, Neveen A. Soliman, Nina Mann, Stuart B. Bauer, Amelie T. van der Ven, Kristen M. Laricchia, Daw-Yang Hwang, Hadas Ityel, Danko Milosevic, Dervla M. Connaughton, Michael J. Somers, Eugen Widmeier, Tilman Jobst-Schwan, and Johanna Magdalena Schmidt

Subjects

0301 basic medicine, 030232 urology & nephrology, Disease, Biology, medicine.disease_cause, Kidney, Risk Assessment, Sensitivity and Specificity, 03 medical and health sciences, Mice, 0302 clinical medicine, Genotype, Exome Sequencing, medicine, Animals, Humans, Genetic Predisposition to Disease, Sex Distribution, Urinary Tract, Gene, Exome sequencing, Genetics, Phenocopy, Vesico-Ureteral Reflux, Mutation, Incidence, General Medicine, medicine.disease, Prognosis, Phenotype, Pedigree, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], 030104 developmental biology, Basic Research, Nephrology, Urogenital Abnormalities, Congenital Anomalies of the Kidney and Urinary Tract (CAKUT), Vesico-ureteral Reflux (VUR), Whole Exome Sequencing (WES), monogenic disease causation, renal developmental gene, Kidney disease

Abstract

Item does not contain fulltext BACKGROUND: Congenital anomalies of the kidney and urinary tract (CAKUT) are the most prevalent cause of kidney disease in the first three decades of life. Previous gene panel studies showed monogenic causation in up to 12% of patients with CAKUT. METHODS: We applied whole-exome sequencing to analyze the genotypes of individuals from 232 families with CAKUT, evaluating for mutations in single genes known to cause human CAKUT and genes known to cause CAKUT in mice. In consanguineous or multiplex families, we additionally performed a search for novel monogenic causes of CAKUT. RESULTS: In 29 families (13%), we detected a causative mutation in a known gene for isolated or syndromic CAKUT that sufficiently explained the patient's CAKUT phenotype. In three families (1%), we detected a mutation in a gene reported to cause a phenocopy of CAKUT. In 15 of 155 families with isolated CAKUT, we detected deleterious mutations in syndromic CAKUT genes. Our additional search for novel monogenic causes of CAKUT in consanguineous and multiplex families revealed a potential single, novel monogenic CAKUT gene in 19 of 232 families (8%). CONCLUSIONS: We identified monogenic mutations in a known human CAKUT gene or CAKUT phenocopy gene as the cause of disease in 14% of the CAKUT families in this study. Whole-exome sequencing provides an etiologic diagnosis in a high fraction of patients with CAKUT and will provide a new basis for the mechanistic understanding of CAKUT. 01 september 2018

Published

2018

43. Molecular and cellular reorganization of neural circuits in the human lineage

Author

Ed S. Lein, Yuka Imamura Kawasawa, Mingfeng Li, Melissa K. Edler, James P. Noonan, Mario Skarica, Marta Melé, Raquel Garcia Perez, Nenad Sestan, Joel E. Kleinman, Mihovil Pletikos, Patrick R. Hof, Kyle A. Meyer, Bernardo Stutz, Forrest O. Gulden, Alexa R. Stephenson, John D. Elsworth, Mary Ann Raghanti, Thomas M. Hyde, Daniel R. Weinberger, Mark Gerstein, Matthew W. State, Akemi Shibata, John J. Ely, Ying Zhu, Tiago Carvalho, Marco Onorati, Chet C. Sherwood, Richard P. Lifton, André M. M. Sousa, Mark Reimers, Fuchen Liu, Shrikant Mane, Tamas L. Horvath, Robert R. Kitchen, Tomas Marques-Bonet, James A. Knowles, Andrew T.N. Tebbenkamp, National Institutes of Health (US), Kavli Institute for Theoretical Physics, James S. McDonnell Foundation, National Institute of Neurological Disorders and Stroke (US), Ministerio de Economía y Competitividad (España), Howard Hughes Medical Institute, and Generalitat de Catalunya

Subjects

0301 basic medicine, Cell type, Lineage (genetic), Pan troglodytes, Neocortex, Computational biology, Bioinformatics, Macaque, Article, Transcriptomes, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, Interneurons, biology.animal, Neural Pathways, medicine, Animals, Humans, Sistema nerviós, Ximpanzé comú, Gene, Phylogeny, Multidisciplinary, biology, Gene Expression Profiling, Human brain, Gene expression profiling, Escorça cerebral, 030104 developmental biology, medicine.anatomical_structure, Cercopitècids, Macaca, 030217 neurology & neurosurgery

Abstract

To better understand the molecular and cellular differences in brain organization between human and nonhuman primates, we performed transcriptome sequencing of 16 regions of adult human, chimpanzee, and macaque brains. Integration with human single-cell transcriptomic data revealed global, regional, and cell-type–specific species expression differences in genes representing distinct functional categories. We validated and further characterized the human specificity of genes enriched in distinct cell types through histological and functional analyses, including rare subpallial-derived interneurons expressing dopamine biosynthesis genes enriched in the human striatum and absent in the nonhuman African ape neocortex. Our integrated analysis of the generated data revealed diverse molecular and cellular features of the phylogenetic reorganization of the human brain across multiple levels, with relevance for brain function and disease., Data was generated as part of the PsychENCODE Consortium, supported by MH103339, MH106934, and MH110926. Additional support was provided by NIH grants MH109904, MH106874, AG048918, DK111178, and NS092988 (National Chimpanzee Brain Resource), the Kavli Foundation, the James S. McDonnell Foundation, NSF grant BCS-1316829, MINECO BFU2014-55090-P (FEDER), Howard Hughes International Early Career, and Secretaria d’Universitats i Recerca del Departament d’Economia i Coneixement de la Generalitat de Catalunya.

Published

2017

44. Whole Exome Sequencing of Patients with Steroid-Resistant Nephrotic Syndrome

Author

Heon Yung Gee, Richard P. Lifton, Aytül Noyan, Stefan Kohl, Weizhen Tan, Michael A. J. Ferguson, Neveen A. Soliman, Deborah R. Stein, Jing Chen, Svjetlana Lovric, J. Magdalena Schmidt, Jameela A. Kari, Avram Z. Traum, Jia Rao, Gil Chernin, Sherif El Desoky, Radovan Bogdanovic, Nadine Benador, Werner L. Pabst, Hanan M. Fathy, Jeffrey B. Kopp, Jillian K. Warejko, Asaf Vivante, Henry Fehrenbach, Detlef Bockenhauer, Carolin E. Sadowski, Velibor Tasic, Robert B. Ettenger, Amelie T. van der Ven, Shrikant Mane, Ankana Daga, Jeffrey Hopcian, Martin Zenker, Markus J. Kemper, Amar J. Majmundar, Erkin Serdaroglu, Ronen Schneider, Fatih Ozaltin, Ghaleb Daouk, Natasa Stajic, Nancy Rodig, Jennifer A. Lawson, Reyner Loza Munarriz, Melissa A. Cadnapaphornchai, Hadas Ityel, Shazia Ashraf, Rainer Büscher, Dominik N. Müller, Makiko Nakayama, Michelle A. Baum, Seema Hashmi, Ludmila Podracka, David Schapiro, Daniela A. Braun, Shirlee Shril, Michael J. Somers, Eugen Widmeier, Tilman Jobst-Schwan, Friedhelm Hildebrandt, Sevcan A. Bakkaloglu, and Tobias Hermle

Subjects

Adult, Genetic Markers, Male, 0301 basic medicine, Pediatrics, medicine.medical_specialty, Candidate gene, Heredity, Nephrotic Syndrome, Adolescent, Epidemiology, DNA Mutational Analysis, Medizin, 030232 urology & nephrology, Critical Care and Intensive Care Medicine, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Mutation Rate, Predictive Value of Tests, Exome Sequencing, medicine, Humans, Genetic Predisposition to Disease, Age of Onset, Child, Exome, Congenital nephrotic syndrome, Genetic Association Studies, Exome sequencing, Phenocopy, Transplantation, business.industry, Infant, Original Articles, Prognosis, medicine.disease, Pedigree, Steroid-resistant nephrotic syndrome, Phenotype, 030104 developmental biology, Nephrology, Child, Preschool, Mutation, Female, Age of onset, business, Nephrotic syndrome

Abstract

Background and objectives Steroid-resistant nephrotic syndrome overwhelmingly progresses to ESRD. More than 30 monogenic genes have been identified to cause steroid-resistant nephrotic syndrome. We previously detected causative mutations using targeted panel sequencing in 30% of patients with steroid-resistant nephrotic syndrome. Panel sequencing has a number of limitations when compared with whole exome sequencing. We employed whole exome sequencing to detect monogenic causes of steroid-resistant nephrotic syndrome in an international cohort of 300 families. Design, setting, participants, & measurements Three hundred thirty-five individuals with steroid-resistant nephrotic syndrome from 300 families were recruited from April of 1998 to June of 2016. Age of onset was restricted to Results In 74 of 300 families (25%), we identified a causative mutation in one of 20 genes known to cause steroid-resistant nephrotic syndrome. In 11 families (3.7%), we detected a mutation in a gene that causes a phenocopy of steroid-resistant nephrotic syndrome. This is consistent with our previously published identification of mutations using a panel approach. We detected a causative mutation in a known steroid-resistant nephrotic syndrome gene in 38% of consanguineous families and in 13% of nonconsanguineous families, and 48% of children with congenital nephrotic syndrome. A total of 68 different mutations were detected in 20 of 33 steroid-resistant nephrotic syndrome genes. Fifteen of these mutations were novel. NPHS1, PLCE1, NPHS2, and SMARCAL1 were the most common genes in which we detected a mutation. In another 28% of families, we detected mutations in one or more candidate genes for steroid-resistant nephrotic syndrome. Conclusions Whole exome sequencing is a sensitive approach toward diagnosis of monogenic causes of steroid-resistant nephrotic syndrome. A molecular genetic diagnosis of steroid-resistant nephrotic syndrome may have important consequences for the management of treatment and kidney transplantation in steroid-resistant nephrotic syndrome.

Published

2017

45. Contribution of rare inherited and de novo variants in 2,871 congenital heart disease probands

Author

Cecelia W. Lo, Stephen Sanders, Sarah U. Morton, Irina R. Tikhonoa, Samir Zaidi, Elizabeth Goldmuntz, Hongjian Qi, Richard B. Kim, Jonathan R. Kaltman, Jonathan G. Seidman, Xue Zeng, Jason Homsy, George A. Porter, W. Scott Watkins, Deepak Srivastava, Weni Chang, Martin Tristani-Firouzi, Seema Mital, James R. Knight, Qiongshi Lu, Steven R. DePalma, John E. Deanfield, Christopher Castaldi, J. William Gaynor, Yufeng Shen, Bruce D. Gelb, Mark W. Russell, Richard P. Lifton, Alessandro Giardini, Kaya Bilguvar, Wendy K. Chung, Jane W. Newburger, H. Joseph Yost, Sheng Chih Jin, Mark Yandell, Martina Brueckner, Shrikant Mane, Robert D. Bjornson, Wei Chien Hung, Amy E. Roberts, Junhui Zhang, Christine E. Seidman, Michael C. Sierant, Hongyu Zhao, and Shozeb Haider

Subjects

Heart Defects, Congenital, Risk, Adult, Male, 0301 basic medicine, Proband, Heterozygote, Heart disease, Gene Expression, Genome-wide association study, Biology, Medical and Health Sciences, Article, Growth Differentiation Factor 1, Congenital, 03 medical and health sciences, Genotype, Genetics, medicine, Humans, Genetic Predisposition to Disease, Exome, cardiovascular diseases, Autistic Disorder, Child, Exome sequencing, Heart Defects, Tetralogy of Fallot, Myosin Heavy Chains, Homozygote, Case-control study, High-Throughput Nucleotide Sequencing, Biological Sciences, Vascular Endothelial Growth Factor Receptor-3, medicine.disease, Pedigree, 3. Good health, Editorial, 030104 developmental biology, Case-Control Studies, Mutation, Female, Cardiac Myosins, Genome-Wide Association Study, Developmental Biology

Abstract

Congenital heart disease (CHD) is the leading cause of mortality from birth defects. Here, exome sequencing of a single cohort of 2,871 CHD probands, including 2,645 parent-offspring trios, implicated rare inherited mutations in 1.8%, including a recessive founder mutation in GDF1 accounting for ∼5% of severe CHD in Ashkenazim, recessive genotypes in MYH6 accounting for ∼11% of Shone complex, and dominant FLT4 mutations accounting for 2.3% of Tetralogy of Fallot. De novo mutations (DNMs) accounted for 8% of cases, including ∼3% of isolated CHD patients and ∼28% with both neurodevelopmental and extra-cardiac congenital anomalies. Seven genes surpassed thresholds for genome-wide significance, and 12 genes not previously implicated in CHD had >70% probability of being disease related. DNMs in ∼440 genes were inferred to contribute to CHD. Striking overlap between genes with damaging DNMs in probands with CHD and autism was also found.

Published

2017

46. GABBR2mutations determine phenotype in rett syndrome and epileptic encephalopathy

Author

Ki Joong Kim, Jong Hee Chae, Jae Young Seong, Hyosuk Cho, Seok-Geun Lee, Kathryn G. Miller, Sang-Yoon Park, Eunjung Na, Suzanne D. DeBrosse, Kaya Bilguvar, Je Sang Lee, Hee Jung Choi, Lindsay B. Henderson, Hosung Jung, Roseànne S. Ebel, Irina Tikhonova, Jea Yeok Hong, Yong Seung Hwang, Cheryl Clow, Murim Choi, Jin Sook Lee, Yongjin Yoo, Jinhong Wie, Shrikant Mane, Christopher Castaldi, Eun Jin Kim, Yoo Na Lee, Chansik Hong, Natasha Shur, Byung Chan Lim, Jane Jung, Yong Beom Shin, Youngha Lee, Rebecca Willaert, and Insuk So

Subjects

0301 basic medicine, Genetics, Mutation, Rett syndrome, Biology, medicine.disease, medicine.disease_cause, Phenotype, MECP2, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Neurology, Genotype, medicine, Neurology (clinical), GABBR2, Exome, 030217 neurology & neurosurgery, Exome sequencing

Abstract

Objective: Rett syndrome (RTT) and epileptic encephalopathy (EE) are devastating neurodevelopmental disorders with distinct diagnostic criteria. However, highly heterogeneous and overlapping clinical features often allocate patients into the boundary of the two conditions, complicating accurate diagnosis and appropriate medical interventions. Therefore, we investigated the specific molecular mechanism that allows an understanding of the pathogenesis and relationship of these two conditions. Methods: We screened novel genetic factors from 34 RTT-like patients without MECP2 mutations, which account for ∼90% of RTT cases, by whole exome sequencing. The biological function of the discovered variants was assessed in cell culture and Xenopus tropicalis models. Results: We identified a recurring de novo variant in GABAB receptor R2 (GABBR2) that reduces the receptor function, whereas different GABBR2 variants in EE patients possess a more profound effect in reducing receptor activity and are more responsive to agonist rescue in an animal model. Interpretation: GABBR2 is a genetic factor that determines RTT- or EE-like phenotype expression depending on the variant positions. GABBR2-mediated GABA signaling is a crucial factor in determining the severity and nature of neurodevelopmental phenotypes. This article is protected by copyright. All rights reserved.

Published

2017

47. Isolated polycystic liver disease genes define effectors of polycystin-1 function

Author

Ashima Gulati, Jungmin Choi, Sohan Punia, Richard P. Lifton, Shrikant Mane, Anna Rachel Gallagher, Sorin V. Fedeles, Murim Choi, Simone Sanna-Cherchi, Terry Watnick, Vicente E. Torres, York Pei, James R. Knight, Emily B. Huang, Ke Dong, Whitney Besse, Esa Tahvanainen, Pia Tahvanainen, and Stefan Somlo

Subjects

0301 basic medicine, Candidate gene, 030232 urology & nephrology, Autosomal dominant polycystic kidney disease, Biology, Kidney cysts, 03 medical and health sciences, 0302 clinical medicine, SEC63, Clinical investigation, medicine, Isolated polycystic liver disease, Gene, Exome sequencing, Polycystin-1, Genetics, Effector, business.industry, PRKCSH, Cilium, General Medicine, medicine.disease, Autosomal Recessive Polycystic Kidney Disease, 3. Good health, 030104 developmental biology, 030220 oncology & carcinogenesis, Cancer research, medicine.symptom, Corrigendum, business, Function (biology)

Abstract

Dominantly inherited isolated polycystic liver disease (PCLD) consists of liver cysts that are radiologically and pathologically identical to those seen in autosomal dominant polycystic kidney disease, but without clinically relevant kidney cysts. The causative genes are known for fewer than 40% of PCLD index cases. Here, we have used whole exome sequencing in a discovery cohort of 102 unrelated patients who were excluded for mutations in the 2 most common PCLD genes, PRKCSH and SEC63, to identify heterozygous loss-of-function mutations in 3 additional genes, ALG8, GANAB, and SEC61B. Similarly to PRKCSH and SEC63, these genes encode proteins that are integral to the protein biogenesis pathway in the endoplasmic reticulum. We inactivated these candidate genes in cell line models to show that loss of function of each results in defective maturation and trafficking of polycystin-1, the central determinant of cyst pathogenesis. Despite acting in a common pathway, each PCLD gene product demonstrated distinct effects on polycystin-1 biogenesis. We also found enrichment on a genome-wide basis of heterozygous mutations in the autosomal recessive polycystic kidney disease gene PKHD1, indicating that adult PKHD1 carriers can present with clinical PCLD. These findings define genetic and biochemical modulators of polycystin-1 function and provide a more complete definition of the spectrum of dominant human polycystic diseases.

Published

2017

48. Mutational landscape of uterine and ovarian carcinosarcomas implicates histone genes in epithelial–mesenchymal transition

Author

Moses Lee, Serena Wong, Carlton L. Schwab, Emiliano Cocco, Laura Zanotti, Franco Odicino, Pei Hui, Federica Predolini, Charles M. Quick, Peter E. Schwartz, Chiara Romani, Elena Bonazzoli, Antonella Ravaggi, Sergio Pecorelli, Joseph Schlessinger, Stefania Bellone, Titus J. Boggon, Renata A. Tassi, Carla Donzelli, Richard P. Lifton, Amy L. Stiegler, Murim Choi, Roberto Angioli, Salvatore Lopez, Laura Ardighieri, Alessandro D. Santin, Paola Todeschini, Elisabetta Bandiera, Jungmin Choi, Jonathan Black, Mark Bi, Babak Edraki, Masoud Azodi, Fabio Facchetti, Kaya Bilguvar, Natalia Buza, Shrikant Mane, Siming Zhao, Elena Ratner, Durga Thakral, Corrado Terranova, Marcella Falchetti, Dan-Arin Silasi, Eliana Bignotti, Diana P. English, Luca Zammataro, and Maysa M. Abu-Khalaf

Subjects

Exome sequencing, 0301 basic medicine, Epithelial-Mesenchymal Transition, Class I Phosphatidylinositol 3-Kinases, Ovarian carcinosarcoma, Uterine carcinosarcoma, Multidisciplinary, Uterine serous carcinoma, Histones, 03 medical and health sciences, 0302 clinical medicine, Carcinosarcoma, Gene cluster, Histone H2A, medicine, Carcinoma, Humans, PTEN, Epithelial–mesenchymal transition, Telomerase, Aged, Aged, 80 and over, Ovarian Neoplasms, biology, PTEN Phosphohydrolase, Biological Sciences, Middle Aged, medicine.disease, DNA-Binding Proteins, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Histone, 030220 oncology & carcinogenesis, Mutation, Uterine Neoplasms, Cancer research, biology.protein, Female, CHD4, Tumor Suppressor Protein p53

Abstract

Carcinosarcomas (CSs) of the uterus and ovary are highly aggressive neoplasms containing both carcinomatous and sarcomatous elements. We analyzed the mutational landscape of 68 uterine and ovarian CSs by whole-exome sequencing. We also performed multiregion whole-exome sequencing comprising two carcinoma and sarcoma samples from six tumors to resolve their evolutionary histories. The results demonstrated that carcinomatous and sarcomatous elements derive from a common precursor having mutations typical of carcinomas. In addition to mutations in cancer genes previously identified in uterine and ovarian carcinomas such as TP53, PIK3CA, PPP2R1A, KRAS, PTEN, CHD4, and BCOR, we found an excess of mutations in genes encoding histone H2A and H2B, as well as significant amplification of the segment of chromosome 6p harboring the histone gene cluster containing these genes. We also found frequent deletions of the genes TP53 and MBD3 (a member with CHD4 of the nucleosome remodeling deacetylase complex) and frequent amplification of chromosome segments containing the genes PIK3CA, TERT, and MYC. Stable transgenic expression of H2A and H2B in a uterine serous carcinoma cell line demonstrated that mutant, but not wild-type, histones increased expression of markers of epithelial–mesenchymal transition (EMT) as well as tumor migratory and invasive properties, suggesting a role in sarcomatous transformation. Comparison of the phylogenetic relationships of carcinomatous and sarcomatous elements of the same tumors demonstrated separate lineages leading to these two components. These findings define the genetic landscape of CSs and suggest therapeutic targets for these highly aggressive neoplasms.

Published

2016

49. Mutations in the Histone Modifier PRDM6 Are Associated with Isolated Nonsyndromic Patent Ductus Arteriosus

Author

Jürgen Ruland, Mohsen Fathzadeh, Likun Tian, Richard P. Lifton, Eric N. Olson, Mohammad Kazemi, Farhad Montazeri, Mitra Mani, Mohammad Hashemi, Lakshman Subrahmanyan, Brian G. Coon, Carol Nelson-Williams, Michael L. Begleiter, Shrikant Mane, Murim Choi, Hongyu Zhao, Henry T. Lynch, Emily M. Smith, Na Li, Arya Mani, Samir Zaidi, Mohaddeseh Behjati, Anand Narayanan, and Xiaoqing Yu

Subjects

Male, 0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Methyltransferase, Cellular differentiation, Immunoblotting, Fluorescent Antibody Technique, Muscle Proteins, 030204 cardiovascular system & hematology, Biology, Muscle, Smooth, Vascular, Article, Epigenesis, Genetic, Histones, 03 medical and health sciences, 0302 clinical medicine, Ductus arteriosus, Genetics, medicine, Humans, Genetics(clinical), Epigenetics, Nuclear protein, Ductus Arteriosus, Patent, Cells, Cultured, Genetics (clinical), Loss function, Correction, Cell Differentiation, Human genetics, Pedigree, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Histone, Histone methyltransferase, Mutation, cardiovascular system, biology.protein, Female, Transcription Factors

Abstract

Nonsyndromic patent ductus arteriosus (PDA) is a common congenital heart defect (CHD) with both inherited and acquired causes, but the disease mechanisms have remained elusive. Using combined genome-wide linkage analysis and whole-exome sequencing (WES), we identified independent mutations in PRDM6, which encodes a nuclear protein that is specific to vascular smooth muscle cells (VSMC), has histone methyl transferase activities, and acts as a transcriptional suppressor of contractile proteins. In vitro assays showed that the mutations cause loss of function either by intracellular redistribution of the protein and/or by alteration of its methyltransferase activities. Wild-type embryonic ductus arteriosus (DA) exhibited high levels of PRDM6, which rapidly declined postnatally as the number of VSMCs necessary for ductus contraction increased. This dynamic change suggests that PRDM6 plays a key role in maintaining VSMCs in an undifferentiated stage in order to promote their proliferation and that its loss of activity results in premature differentiation and impaired remodeling of the DA. Our findings identify PRDM6 mutations as underlying genetic causes of nonsyndromic isolated PDA in humans and implicates the wild-type protein in epigenetic regulation of ductus remodeling.

Published

2016

50. Author Correction: Mutations disrupting neuritogenesis genes confer risk for cerebral palsy

Author

Mahalia S.B. Frank, Chao Gao, Brandon S. Guida, Dani L. Webber, Aureliane Elie, Bohao Zhang, Kelly Harper, Richard P. Lifton, Dengna Zhu, Jesia G. Berry, Iona Novak, Xiaoyang Wang, Antigone Papavasileiou, Yana A. Wilson, Francesc López-Giráldez, Michael C Fahey, Sergio Padilla-Lopez, Boris Keren, Jozef Gecz, Jeff L. Waugh, Shozeb Haider, Michael C. Sierant, Kyle Retterer, Sandra Whalen, Yangong Wang, Lance H. Rodan, Clare L. van Eyk, Megan Cho, Qiongshi Lu, Sheetal Shetty, John P. Phillips, Stephen Pastore, John B. Vincent, Chongchen Zhou, Sara A. Lewis, Bethany Y. Norton, Xue Zeng, Timothy Feyma, Qing Shang, Mark A. Corbett, Janice E. Brunstrom-Hernandez, Susan M Reid, Julie S. Cohen, Michael C. Kruer, Christopher Castaldi, Nadia Badawi, Spencer Vaughan, Qinghe Xing, Sandra M. Nordlie, Daniela C. Zarnescu, Angela E. Lin, David J. Amor, Sarah McIntyre, Julien Buratti, Jennifer Heim, Shrikant Mane, Yiran Xu, Suzanna C. MacLennan, Helen Magee, Somayeh Bakhtiari, Amar H. Sheth, Changlian Zhu, Alastair H. MacLennan, Kylie E. Crompton, Kaya Bilguvar, Sheng Chih Jin, Junhui Zhang, Diane Doummar, Francisca Millan, Irina Tikhonova, Ali Fatemi, Dinah Reddihough, Lei Xia, Hongyu Zhao, James Liu, James R. Knight, and Boyang Li

Subjects

Genetics, MEDLINE, medicine, Biology, Bioinformatics, medicine.disease, Gene, Cerebral palsy

Published

2021