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2. Clinical exome sequencing for fetuses with ultrasound abnormalities and a suspected Mendelian disorder

Author

Elizabeth A. Normand, Alicia Braxton, Salma Nassef, Patricia A. Ward, Francesco Vetrini, Weimin He, Vipulkumar Patel, Chunjing Qu, Lauren E. Westerfield, Samantha Stover, Avinash V. Dharmadhikari, Donna M. Muzny, Richard A. Gibbs, Hongzheng Dai, Linyan Meng, Xia Wang, Rui Xiao, Pengfei Liu, Weimin Bi, Fan Xia, Magdalena Walkiewicz, Ignatia B. Van den Veyver, Christine M. Eng, and Yaping Yang

Subjects
Fetal structural abnormalities, Exome sequencing, Prenatal, Single-gene disorder, Mendelian disease, Medicine, Genetics, QH426-470
Abstract

Abstract Background Exome sequencing is now being incorporated into clinical care for pediatric and adult populations, but its integration into prenatal diagnosis has been more limited. One reason for this is the paucity of information about the clinical utility of exome sequencing in the prenatal setting. Methods We retrospectively reviewed indications, results, time to results (turnaround time, TAT), and impact of exome results for 146 consecutive “fetal exomes” performed in a clinical diagnostic laboratory between March 2012 and November 2017. We define a fetal exome as one performed on a sample obtained from a fetus or a product of conception with at least one structural anomaly detected by prenatal imaging or autopsy. Statistical comparisons were performed using Fisher’s exact test. Results Prenatal exome yielded an overall molecular diagnostic rate of 32% (n = 46/146). Of the 46 molecular diagnoses, 50% were autosomal dominant disorders (n = 23/46), 41% were autosomal recessive disorders (n = 19/46), and 9% were X-linked disorders (n = 4/46). The molecular diagnostic rate was highest for fetuses with anomalies affecting multiple organ systems and for fetuses with craniofacial anomalies. Out of 146 cases, a prenatal trio exome option designed for ongoing pregnancies was performed on 62 fetal specimens, resulting in a diagnostic yield of 35% with an average TAT of 14 days for initial reporting (excluding tissue culture time). The molecular diagnoses led to refined recurrence risk estimates, altered medical management, and informed reproductive planning for families. Conclusion Exome sequencing is a useful diagnostic tool when fetal structural anomalies suggest a genetic etiology, but other standard prenatal genetic tests did not provide a diagnosis.

Published
2018
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3. Identification of novel candidate disease genes from de novo exonic copy number variants

Author

Tomasz Gambin, Bo Yuan, Weimin Bi, Pengfei Liu, Jill A. Rosenfeld, Zeynep Coban-Akdemir, Amber N. Pursley, Sandesh C. S. Nagamani, Ronit Marom, Sailaja Golla, Lauren Dengle, Heather G. Petrie, Reuben Matalon, Lisa Emrick, Monica B. Proud, Diane Treadwell-Deering, Hsiao-Tuan Chao, Hannele Koillinen, Chester Brown, Nora Urraca, Roya Mostafavi, Saunder Bernes, Elizabeth R. Roeder, Kimberly M. Nugent, Patricia I. Bader, Gary Bellus, Michael Cummings, Hope Northrup, Myla Ashfaq, Rachel Westman, Robert Wildin, Anita E. Beck, LaDonna Immken, Lindsay Elton, Shaun Varghese, Edward Buchanan, Laurence Faivre, Mathilde Lefebvre, Christian P. Schaaf, Magdalena Walkiewicz, Yaping Yang, Sung-Hae L. Kang, Seema R. Lalani, Carlos A. Bacino, Arthur L. Beaudet, Amy M. Breman, Janice L. Smith, Sau Wai Cheung, James R. Lupski, Ankita Patel, Chad A. Shaw, and Paweł Stankiewicz

Subjects
Exon targeted array CGH, Intragenic copy number variants, CNVs, de novo variants, Medicine, Genetics, QH426-470
Abstract

Abstract Background Exon-targeted microarrays can detect small (

Published
2017
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4. Phenotypic and molecular characterisation of CDK13-related congenital heart defects, dysmorphic facial features and intellectual developmental disorders

Author

Bret L. Bostwick, Scott McLean, Jennifer E. Posey, Haley E. Streff, Karen W. Gripp, Alyssa Blesson, Nina Powell-Hamilton, Jessica Tusi, David A. Stevenson, Ellyn Farrelly, Louanne Hudgins, Yaping Yang, Fan Xia, Xia Wang, Pengfei Liu, Magdalena Walkiewicz, Marianne McGuire, Dorothy K. Grange, Marisa V. Andrews, Marybeth Hummel, Suneeta Madan-Khetarpal, Elena Infante, Zeynep Coban-Akdemir, Karol Miszalski-Jamka, John L. Jefferies, Members of the Undiagnosed Diseases Network, Jill A. Rosenfeld, Lisa Emrick, Kimberly M. Nugent, James R. Lupski, John W. Belmont, Brendan Lee, and Seema R. Lalani

Subjects
CDK13, CHDFIDD, De novo variant, Neurodevelopmental disorders, Agenesis of the corpus callosum, Hypertelorism, Medicine, Genetics, QH426-470
Abstract

Abstract Background De novo missense variants in CDK13 have been described as the cause of syndromic congenital heart defects in seven individuals ascertained from a large congenital cardiovascular malformations cohort. We aimed to further define the phenotypic and molecular spectrum of this newly described disorder. Methods To minimise ascertainment bias, we recruited nine additional individuals with CDK13 pathogenic variants from clinical and research exome laboratory sequencing cohorts. Each individual underwent dysmorphology exam and comprehensive medical history review. Results We demonstrate greater than expected phenotypic heterogeneity, including 33% (3/9) of individuals without structural heart disease on echocardiogram. There was a high penetrance for a unique constellation of facial dysmorphism and global developmental delay, as well as less frequently seen renal and sacral anomalies. Two individuals had novel CDK13 variants (p.Asn842Asp, p.Lys734Glu), while the remaining seven unrelated individuals had a recurrent, previously published p.Asn842Ser variant. Summary of all variants published to date demonstrates apparent restriction of pathogenic variants to the protein kinase domain with clustering in the ATP and magnesium binding sites. Conclusions Here we provide detailed phenotypic and molecular characterisation of individuals with pathogenic variants in CDK13 and propose management guidelines based upon the estimated prevalence of anomalies identified.

Published
2017
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5. The contribution of rare copy number variants in FAS toward pathogenesis of autoimmune lymphoproliferative syndrome

Author

Kathleen Jevtich, Susan Price, Morgan Similuk, Elaine Kulm, Jia Yan, Michael Setzer, Leila Jamal, Luis M. Franco, Rajarshi Ghosh, Magdalena Walkiewicz, and V. Koneti Rao

Subjects
Heterozygote, DNA Copy Number Variations, Autoimmune Lymphoproliferative Syndrome, Splenomegaly, Humans, fas Receptor, Hematology
Abstract

Autoimmune lymphoproliferative syndrome (ALPS) is characterized by chronic nonmalignant lymphadenopathy, splenomegaly, cytopenias, and other autoimmune manifestations. ALPS is caused by lymphocyte accumulation from defects in FAS-mediated apoptosis. Heterozygous germline or somatic pathogenic single nucleotide variants in FAS are the most common molecular etiology of ALPS. Through the Centralized Sequencing Program at the National Institute of Allergy and Infectious Diseases, we performed exome sequencing on subjects with a clinical diagnosis of ALPS, with a subset receiving copy number variant (CNV) analysis. In this cohort, we identified 3 subjects from unrelated families with CNVs at the FAS locus. One subject had a de novo ∼0.828 Mb copy number loss encompassing all of FAS. The second subject had a maternally inherited ∼1.004 Mb copy number loss encompassing all of FAS. The third subject had a paternally inherited ∼0.044 Mb copy number loss encompassing exons 7 through 9 of FAS. Subjects with deletions in FAS had clinical presentations and biomarker profiles similar to those with ALPS and with germline and somatic FAS variants. We demonstrate that CNV analysis should be pursued if there is clinical and biomarker evidence of ALPS because it can lead to a molecular diagnosis and appropriate treatment when FAS sequencing is inconclusive.

Published
2022

10. Atypical Presentations of Hypomorphic X-Linked SCID

Author

Leah Pettiford, Harris Richard Droghini, Michael Keller, Ottavia Delmonte, Nisha Nagarsheth, Luigi Notarangelo, Sung-Yun Pai, Magdalena Walkiewicz, Dimana Dimitrova, and Kenneth Olivier

Subjects
Immunology, Immunology and Allergy
Published
2023

15. T61. PERSONAL UTILITY OF POLYGENIC RISK SCORES: ATTITUDES AND INTEREST AMONG INDIVIDUALS WITH MAJOR DEPRESSIVE DISORDER AND TREATMENT RESISTANT DEPRESSION

Author

Rachel Gore, Michael Setzer, Colleen Jodarski, Mani Yavi, Elizabeth Ballard, Michael Kamen, Rylee Duncan, Nadjalisse Reynolds-Lallement, Lauren Durland, Kelly Hurst, Magdalena Walkiewicz, Jehannine Austin, Jia Yan, and Morgan Similuk

Subjects
Pharmacology, Psychiatry and Mental health, Neurology, Pharmacology (medical), Neurology (clinical), Biological Psychiatry
Published
2022

16. PRESENTING A MULTIDISCIPLINARY FRAMEWORK FOR RESEARCH GENOME SEQUENCING COUPLED WITH GENETIC COUNSELING AND RETURN OF CLINICALLY VALIDATED PRIMARY AND SECONDARY FINDINGS FOR INDIVIDUALS WITH PSYCHIATRIC DISORDERS

Author

Jia Yan, Rachel Gore, Michael Setzer, Michael Kamen, Colleen Jodarski, Rajarshi Ghosh, Bryce Seifert, Rylee Duncan, GenaLynne Mooneyham, Shu Buckley, Karen F. Berman, Francis J. McMahon, Armin Raznahan, Morgan Similuk, and Magdalena Walkiewicz

Subjects
Pharmacology, Psychiatry and Mental health, Neurology, Pharmacology (medical), Neurology (clinical), Biological Psychiatry
Published
2022

19. SASH3 variants cause a novel form of X-linked combined immunodeficiency with immune dysregulation

Author

Alexandra F. Freeman, Hye Sun Kuehn, Francesca Pala, Naomi Taylor, Tomoki Kawai, Rajarshi Ghosh, Michael T. Zimmermann, Sergio D. Rosenzweig, Katherine R. Calvo, Nikita R. Dsouza, Kerry Dobbs, Julie E. Niemela, Lesia K. Dropulic, Morgan Similuk, Anahita Agharahimi, Raul Urrutia, Danielle Fink, Irene Cortese, Katherine Myint-Hpu, Steven M. Holland, Jonathan J. Lyons, Shamik Majumdar, Douglas B. Kuhns, Stephen R. Daley, Jenna R.E. Bergerson, Marita Bosticardo, Ottavia M. Delmonte, Marie Pouzolles, Magdalena Walkiewicz, Philip M. Murphy, Boaz Palterer, Daniel Velez, Jennifer Stoddard, Luigi D. Notarangelo, and David H. McDermott

Subjects
CD4-Positive T-Lymphocytes, Male, Immunobiology and Immunotherapy, Lymphocyte, Receptors, Antigen, T-Cell, alpha-beta, Immunology, Biology, medicine.disease_cause, X-Linked Combined Immunodeficiency Diseases, Biochemistry, Jurkat cells, Jurkat Cells, Mice, Lymphopenia, medicine, Animals, Humans, X-linked severe combined immunodeficiency, Immunodeficiency, Mice, Knockout, B-Lymphocytes, Chromosomes, Human, X, Signal transducing adaptor protein, Cell Biology, Hematology, Immune dysregulation, medicine.disease, Killer Cells, Natural, medicine.anatomical_structure, Genetic Loci, Child, Preschool, Mutation, Cancer research, Signal transduction, Sterile alpha motif
Abstract

Sterile alpha motif (SAM) and Src homology-3 (SH3) domain-containing 3 (SASH3), also called SH3-containing lymphocyte protein (SLY1), is a putative adaptor protein that is postulated to play an important role in the organization of signaling complexes and propagation of signal transduction cascades in lymphocytes. The SASH3 gene is located on the X-chromosome. Here, we identified 3 novel SASH3 deleterious variants in 4 unrelated male patients with a history of combined immunodeficiency and immune dysregulation that manifested as recurrent sinopulmonary, cutaneous, and mucosal infections and refractory autoimmune cytopenias. Patients exhibited CD4+ T-cell lymphopenia, decreased T-cell proliferation, cell cycle progression, and increased T-cell apoptosis in response to mitogens. In vitro T-cell differentiation of CD34+ cells and molecular signatures of rearrangements at the T-cell receptor α (TRA) locus were indicative of impaired thymocyte survival. These patients also manifested neutropenia and B-cell and natural killer (NK)-cell lymphopenia. Lentivirus-mediated transfer of the SASH3 complementary DNA–corrected protein expression, in vitro proliferation, and signaling in SASH3-deficient Jurkat and patient-derived T cells. These findings define a new type of X-linked combined immunodeficiency in humans that recapitulates many of the abnormalities reported in mice with Sly1–/– and Sly1Δ/Δ mutations, highlighting an important role of SASH3 in human lymphocyte function and survival.

Published
2021

21. Linkage-specific deubiquitylation by OTUD5 defines an embryonic pathway intolerant to genomic variation

Author

Sander Pajusalu, Inga Talvik, Raymond Y. Wang, Daniel L. Kastner, Achim Werner, Mohammed Abul Basar, Precilla D'Souza, Katrin Õunap, Yutaka Nishimura, Johji Inazawa, Ken Saida, Ellen Macnamara, David B. Beck, Anthony J. Asmar, Kristin W. Barañano, Hirotsugu Oda, Marlies Kempers, Weiyi Mu, Naomichi Matsumoto, Joann Bodurtha, Tomoki Kosho, Joyce J. Thompson, Pedro P. Rocha, Ivona Aksentijevich, Apratim Mitra, Magdalena Walkiewicz, Tomoko Tamada, Ryan K. Dale, Satoshi Okada, Daniela Tiaki Uehara, Noriko Miyake, and Cynthia J. Tifft

Subjects
ARID1A, Biochemistry, Chromatin remodeling, 03 medical and health sciences, 0302 clinical medicine, All institutes and research themes of the Radboud University Medical Center, Ubiquitin, Gene expression, Genetics, Humans, Enhancer, Research Articles, 030304 developmental biology, 0303 health sciences, Multidisciplinary, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], biology, Histone deacetylase 2, Ubiquitination, SciAdv r-articles, Human Genetics, Genomics, Phenotype, Chromatin, Cell biology, biology.protein, 030217 neurology & neurosurgery, Research Article, Signal Transduction
Abstract

Disease-causing mutations in a linkage-specific deubiquitylase provide insights into chromatin remodeling during embryogenesis., Reversible modification of proteins with linkage-specific ubiquitin chains is critical for intracellular signaling. Information on physiological roles and underlying mechanisms of particular ubiquitin linkages during human development are limited. Here, relying on genomic constraint scores, we identify 10 patients with multiple congenital anomalies caused by hemizygous variants in OTUD5, encoding a K48/K63 linkage–specific deubiquitylase. By studying these mutations, we find that OTUD5 controls neuroectodermal differentiation through cleaving K48-linked ubiquitin chains to counteract degradation of select chromatin regulators (e.g., ARID1A/B, histone deacetylase 2, and HCF1), mutations of which underlie diseases that exhibit phenotypic overlap with OTUD5 patients. Loss of OTUD5 during differentiation leads to less accessible chromatin at neuroectodermal enhancers and aberrant gene expression. Our study describes a previously unidentified disorder we name LINKED (LINKage-specific deubiquitylation deficiency–induced Embryonic Defects) syndrome and reveals linkage-specific ubiquitin cleavage from chromatin remodelers as an essential signaling mode that coordinates chromatin remodeling during embryogenesis.

Published
2021

22. eP400: Utility of genome sequencing in CNV identification in an immune disorders cohort

Author

Bryce Seifert, Morgan Similuk, Michael Setzer, Jia Yan, Michael Kamen, Colleen Jodarski, Leila Jamal, Kathleen Jevtich, Yunting Yu, Rylee Duncan, Devin Hunt, Madison Mixer, Breanna Beers, Vasu Kuram, Justin Lack, Eric Karlins, Andrew Oler, Rajarshi Ghosh, Jenna Bergerson, Alexandra Freeman, Ivan Fuss, Michail Lionakis, Warren Strober, Gulbu Uzel, Christa Zerbe, Steven Holland, Weimin Bi, Luis Franco, and Magdalena Walkiewicz-Yvon

Subjects
Genetics (clinical)
Published
2022

25. eP133: Genome sequencing and chromosomal microarray as a tool for evaluating phenotypic variability in individuals with X and Y chromosome variations

Author

Rachel Gore, Morgan Similuk, Jia Yan, Michael Setzer, Michael Kamen, Colleen Jodarski, Aleksandra Dakic, Erin Torres, Jonathan Blumenthal, Rylee Duncan, Devin Hunt, Madison Mixer, Breanna Beers, Yunting Yu, Kathleen Jevtich, Bryce Seifert, Rajarshi Ghosh, Armin Raznahan, and Magdalena Walkiewicz-Yvon

Subjects
Genetics (clinical)
Published
2022

28. Immunodeficiency and bone marrow failure with mosaic and germline TLR8 gain of function

Author

Marina Cella, Mary C. Dinauer, Elaine Kulm, Michelle A. Ritter, Jahnavi Aluri, Alicia Bach, Elise M. Rizzi, Christina Bemrich-Stolz, Maleewan Kitcharoensakkul, Magdalena Walkiewicz, Jack J. Bleesing, Yi Shan Lee, James A. Connelly, Amy M. Scurlock, Laura G. Schuettpelz, Marwan Shinawi, Shirley M. Abraham, Saara Kaviany, V. Koneti Rao, Jonathan D. Powell, Jeffrey J. Bednarski, Peggy L. Kendall, Luana Chiquetto Paracatu, Raphaela Goldbach-Mansky, Christopher D. Putnam, Michael T. Harmon, Adriana Almeida de Jesus, Scott W. Canna, Stacie M. Jones, Morgan Similuk, Matthew M. Demczko, Nermina Saucier, Suk See De Ravin, Michael Joyce, Molly P. Keppel, and Megan A. Cooper

Subjects
Adult, Male, Immunobiology and Immunotherapy, Adolescent, Pancytopenia, medicine.medical_treatment, T-Lymphocytes, Immunology, Neutropenia, Lymphocyte Activation, Biochemistry, Young Adult, Immune system, Immunity, medicine, Humans, Child, Immunodeficiency, Inflammation, B-Lymphocytes, business.industry, Mosaicism, Bone marrow failure, Immunologic Deficiency Syndromes, Infant, Cell Differentiation, Cell Biology, Hematology, Bone Marrow Failure Disorders, medicine.disease, Prognosis, Pedigree, Transplantation, Haematopoiesis, Cytokine, Toll-Like Receptor 8, Child, Preschool, Gain of Function Mutation, Cytokines, Female, business, Follow-Up Studies
Abstract

Inborn errors of immunity (IEI) are a genetically heterogeneous group of disorders with a broad clinical spectrum. Identification of molecular and functional bases of these disorders is important for diagnosis, treatment, and an understanding of the human immune response. We identified 6 unrelated males with neutropenia, infections, lymphoproliferation, humoral immune defects, and in some cases bone marrow failure associated with 3 different variants in the X-linked gene TLR8, encoding the endosomal Toll-like receptor 8 (TLR8). Interestingly, 5 patients had somatic variants in TLR8 with

Published
2020

29. RNA sequencing identifies a cryptic exon caused by a deep intronic variant in NDUFB10 resulting in isolated Complex I deficiency

Author

David R. Thorburn, Cas Simons, Gemma R Brett, David A. Stroud, Susan M. White, Guy Helman, Tiong Yang Tan, Zornitza Stark, Daniella H Hock, John Christodoulou, Magdalena Walkiewicz, Lynn Pais, Alison G. Compton, R De Paoli-Iseppi, and Michael B. Clark

Subjects
Genetics, education.field_of_study, Mitochondrial disease, Population, Intron, RNA, Biology, medicine.disease, Stop codon, DNA sequencing, medicine, education, Exome, Allele frequency
Abstract

The diagnosis of mitochondrial disorders remains a challenging and often unmet need. We sought to investigate a sibling pair with suspected mitochondrial disease and a clinical presentation notable for global developmental delay, poor growth, sensorineural hearing loss, and brain MRI abnormalities, both with early death. Following uninformative exome and genome sequencing of the family quartet, RNA sequencing was pursued as an orthogonal testing strategy. RNA sequencing of fibroblasts from the older sibling identified the presence of a cryptic exon in intron 1 of NDUFB10, that included an in-frame stop codon. NDUFB10 encodes a subunit of mitochondrial OXPHOS complex I. Differential expression analysis relative to control samples suggested significantly decreased expression. The cryptic exon was found to contain a rare intronic variant, NM_004548.3:c.131-442G>C, that was homozygous in both affected siblings and absent from population allele frequency databases. Immunoblot and quantitative proteomic analysis of fibroblasts from the older sibling revealed decreased abundance of complex I subunits associated with NDUFB10, providing evidence of isolated complex I deficiency. Biallelic variants in NDUFB10 have previously been reported in a single individual with infantile-onset mitochondrial disease. We present data implicating a deep intronic variant in NDUFB10 as the cause of mitochondrial disease in two further individuals. This variant results in loss of expression and overall destabilization of mitochondrial OXPHOS complex I and highlights the importance of RNA sequencing as a complementary diagnostic tool in patients undergoing genome-wide diagnostic evaluation.

Published
2020
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30. Frequency of Bronchiectasis Related Variants in an Idiopathic Pulmonary Nontuberculous Mycobacteria (PNTM) Population in the National Institute of Allergy and Infectious Disease (NIAID) Centralized Sequencing Initiative

Author

H. Namkoong, Andrew J. Oler, Magdalena Walkiewicz, Morgan Similuk, Daniel Veltri, K. Kumar, and O. Kenneth

Subjects
education.field_of_study, Allergy, Bronchiectasis, biology, business.industry, Population, biology.organism_classification, medicine.disease, Infectious disease (medical specialty), Immunology, medicine, Nontuberculous mycobacteria, education, business
Published
2020

31. Regulation of human development by ubiquitin chain editing of chromatin remodelers

Author

Precilla D'Souza, Anthony J. Asmar, Daniela Tiaki Uehara, Weiyi Mu, Marlies Kempers, Tomoki Kosho, Ryan K. Dale, David B. Beck, Pedro P. Rocha, Cynthia J. Tifft, Naomichi Matsumoto, Ellen Macnamara, Apratim Mitra, Satoshi Okada, Noriko Miyake, Raymond Y. Wang, Ken Saida, Daniel L. Kastner, Magdalena Walkiewicz, Achim Werner, Yutaka Nishimura, Joann Bodurtha, Joyce J. Thompson, Johi Inazawa, Ivona Aksentijevich, Hirotsugu Oda, Mohammed Abul Basar, and Kristin W. Barañano

Subjects
Ubiquitin, biology, ARID1A, biology.protein, Neural crest, Enhancer, Induced pluripotent stem cell, Embryonic stem cell, Chromatin remodeling, Cell biology, Chromatin
Abstract

Embryonic development occurs through commitment of pluripotent stem cells to differentiation programs that require highly coordinated changes in gene expression. Chromatin remodeling of gene regulatory elements is a critical component of how such changes are achieved. While many factors controlling chromatin dynamics are known, mechanisms of how different chromatin regulators are orchestrated during development are not well understood. Here, we describe LINKED (LINKage-specific-deubiquitylation-deficiency-induced Embryonic Defects) syndrome, a novel multiple congenital anomaly disorder caused by hypomorphic hemizygous missense variants in the deubiquitylase OTUD5/DUBA. Studying LINKED mutations in vitro, in mouse, and in models of neuroectodermal differentiation of human pluripotent stem cells, we uncover a novel regulatory circuit that coordinates chromatin remodeling pathways during early differentiation. We show that the K48-linkage-specific deubiquitylation activity of OTUD5 is essential for murine and human development and, if reduced, leads to aberrant cell-fate specification. OTUD5 controls differentiation through preventing the degradation of multiple chromatin regulators including ARID1A/B and HDAC2, mutation of which underlie developmental syndromes that exhibit phenotypic overlap with LINKED patients. Accordingly, loss of OTUD5 during early differentiation leads to less accessible chromatin at neural and neural crest enhancers and thus aberrant rewiring of gene expression networks. Our work identifies a novel mechanistic link between phenotypically related developmental disorders and an essential function for linkagespecific ubiquitin editing of substrate groups (i.e. chromatin remodeling complexes) during early cellfate decisions – a regulatory concept, we predict to be a general feature of embryonic development.

Published
2020

32. List of Contributors

Author

Ganesh Acharya, Michael Aertsen, Yalda Afshar, Cande V. Ananth, Michael Ashworth, Patrick Au, Spyros Bakalis, Guillaume Benoist, Colleen G. Bilancia, Caterina M. Bilardo, Louise D. Bryant, Colin R. Butler, Frank Van Calenbergh, Steve N. Caritis, Lyn S. Chitty, Patricia Collins, James Cook, Howard Cuckle, Anna L. David, Luc De Catte, Paolo De Coppi, Elisabeth de Jong-Pleij, Bart De Keersmaecker, Jan Deprest, Roland Devlieger, Guido M. de Wert, Jan E. Dickinson, Mark Dilworth, Wybo J. Dondorp, Caroline E. Dunk, Thomas R. Everett, Jane Fisher, Henry L. Galan, Mythily Ganapathi, Helena M. Gardiner, Cecilia Gotherstrom, Richard Harding, Jenny Hewison, Richard J. Hewitt, Liran Hiersch, Melissa Hill, Sara L. Hillman, An Hindryckx, Stuart B. Hooper, Berthold Huppertz, J. Ciaran Hutchinson, Jon Hyett, Luc Joyeux, Davor Jurkovic, John C. Kingdom, Sylvie Langlois, Lara S. Lemon, Marianne Leruez-Ville, Liesbeth Lewi, Brynn Levy, Y.W. Loke, Enrico Lopriore, George A. Macones, Fergal D. Malone, Anahit Martirosian, Fionnuala McAuliffe, Annie R.A. McDougall, Kenneth J. Moise, Ashley Moffett, Sieglinde M. Müllers, Ran Neiger, John P. Newnham, Sarah G. Obican, Anthony O. Odibo, Dick Oepkes, Pranav P. Pandya, Lawrence D. Platt, Rosalind Pratt, Kuhan Rajah, Rashmi Rao, Jute Richter, Joshua I. Rosenbloom, Francesca Maria Russo, Anthony R. Scialli, Neil J. Sebire, Andrew Sharkey, Susan C. Shelmerdine, Colin Sibley, Saul Snowise, Sylke Steggerda, Emily J. Su, Mary Tang, Arjan B. Te Pas, Alan T. Tita, Fred Ushakov, Ignatia B. Van den Veyver, Jeanine M. van Klink, Raman Venkataramanan, Yves Ville, Magdalena Walkiewicz, Colin Wallis, Lilian Walther-Jallow, Ronald J. Wapner, Magnus Westgren, Scott W. White, Louise C. Wilson, R. Douglas Wilson, Dian Winkelhorst, Paul J.D. Winyard, Christoph Wohlmuth, Karen Wou, Yuval Yaron, Kwok Yin Leung, and Angela Yulia

Published
2020

34. Phenotypic expansion in DDX3X - a common cause of intellectual disability in females

Author

Alper Gezdirici, Christine M. Eng, Shan Chen, John W. Belmont, Elif Yilmaz Gulec, James R. Lupski, Yi-Chien Lee, Mohammad K. Eldomery, Rui Xiao, Magalie S. Leduc, Donna M. Muzny, Jennifer E. Posey, Fernando Scaglia, Zeynep Coban Akdemir, Jill A. Rosenfeld, Xia Wang, Francesco Vetrini, Michael M. Khayat, Richard A. Gibbs, Magdalena Walkiewicz, LaDonna Immken, Lionel Van Maldergem, Paolo Moretti, Theresa Mihalic Mosher, Yaping Yang, Anne Slavotinek, Brendan Lee, Jill M. Harris, Fan Xia, Weimin He, Adam W. Hansen, Pengfei Liu, Carlos A. Bacino, Yunru Shao, Yunyun Jiang, Davut Pehlivan, Neil A. Hanchard, Juliette Piard, Jing Zhang, Sandra Darilek, Brett H. Graham, Weimin Bi, Adekunle M. Adesina, Scott E. Hickey, and Joke Beuten

Subjects
0301 basic medicine, Mitochondrial DNA, Fetus, Heart disease, business.industry, General Neuroscience, Dna variants, medicine.disease, Bioinformatics, Phenotype, 3. Good health, 03 medical and health sciences, 030104 developmental biology, Intellectual disability, medicine, Neurology (clinical), Neurologic decline, DDX3X, business
Abstract

De novo variants in DDX3X account for 1-3% of unexplained intellectual disability (ID) cases and are amongst the most common causes of ID especially in females. Forty-seven patients (44 females, 3 males) have been described. We identified 31 additional individuals carrying 29 unique DDX3X variants, including 30 postnatal individuals with complex clinical presentations of developmental delay or ID, and one fetus with abnormal ultrasound findings. Rare or novel phenotypes observed include respiratory problems, congenital heart disease, skeletal muscle mitochondrial DNA depletion, and late-onset neurologic decline. Our findings expand the spectrum of DNA variants and phenotypes associated with DDX3X disorders.

Published
2018

35. Prenatal Diagnostic Exome Sequencing: a Review

Author

Magdalena Walkiewicz, Alicia Braxton, and Lauren E. Westerfield

Subjects
0301 basic medicine, 03 medical and health sciences, Genetic etiology, Clinical settings, Prenatal diagnosis, General Medicine, Large range, 030105 genetics & heredity, Biology, Medical diagnosis, Bioinformatics, Exome sequencing
Abstract

This review aims to summarize the current landscape of prenatal diagnostic exome sequencing (PDES), provide insight into this new diagnostic tool, and describe how PDES is being used in both research and clinical settings to provide diagnoses for fetal cases. Current recommendations indicate that PDES only be considered for the phenotypically abnormal fetus. PDES research has shown multiple benefits, including providing new disease-gene associations for prenatal phenotypes and expanding the phenotypic spectrum of previously described diseases. There are few published clinical cohorts, and these are generally small; however, a definitive or likely diagnosis was made in 21–57% of the cases. PDES has been used to investigate a large range of prenatal phenotypes and advance knowledge of the genetic etiology of dysmorphic or malformed fetuses. Future research should aim to collect large cohorts to determine the diagnostic yield and which phenotypes are appropriate for testing. National organizations/societies should consider providing guidance to the reporting of secondary findings to specifically address the nuances of reporting in the PDES setting.

Published
2017

36. Trillions and Trillions: Herpes Simplex Virus–1 Hepatitis in an Immunocompetent Adult

Author

Kevin R. Patel, Meei-Li Huang, Christina M. Lockwood, Hong Xie, Rex G. Cheng, Negar Makhsous, Kevin S Ikuta, Amanda Shepherd, Amy Morris, Eric Daniel LaMotte, Ajit P. Limaye, Mariam Alam, Alexander L. Greninger, Christopher L. McClurkan, Lei Yu, Pavitra Roychoudhury, David M. Koelle, Renuka Bhattacharya, Başak Ҫoruh, Robert M. Rakita, Yodit N. Beru, Magdalena Walkiewicz, Roland B. Walter, and Steven M. Holland

Subjects
0301 basic medicine, Simplexvirus, food.ingredient, viruses, Viremia, medicine.disease_cause, 03 medical and health sciences, viral evolution, 0302 clinical medicine, food, HSV hepatitis, medicine, host response, hepatitis, Hepatitis, business.industry, Brief Report, Neurotoxicity, medicine.disease, herpes simplex virus, Virology, HSV-1, 030104 developmental biology, Infectious Diseases, Herpes simplex virus, Oncology, 030220 oncology & carcinogenesis, Viral evolution, Immunocompetence, business, Myopericarditis
Abstract

We describe a case of acute liver failure and myopericarditis due to herpes simplex virus–1 (HSV-1) in an immunocompetent adult. We estimate that, at the height of viremia, the patient contained a quantity of HSV-1 virions approaching that of human cells. The patient recovered with acyclovir that was dose-adjusted for neurotoxicity and developed a vigorous anti-HSV-1 T-cell response.

Published
2019

37. Bronchiectasis Cohort of the National Institute of Allergy and Infectious Disease (NIAID) Centralized Sequencing Initiative (CSI): Design, Methods and Initial Characteristics

Author

Chevalia Robinson, Leila Jamal, K.P. Fennelly, Robert M. May, David Goldstein, K. Kumar, Magdalena Walkiewicz, Morgan Similuk, K.N. Olivier, and Sandra D. MacDonald

Subjects
Pediatrics, medicine.medical_specialty, Allergy, Bronchiectasis, Infectious disease (medical specialty), business.industry, Cohort, medicine, medicine.disease, business
Published
2019

38. Loss-of-function mutations in Lysyl-tRNA synthetase cause various leukoencephalopathy phenotypes

Author

Sushan Luo, Thomas P. Slavin, Lisa Emrick, Stephanie N. Oprescu, Yaping Yang, Jianying Xi, Zhiyv Niu, Jiahong Lu, Chongbo Zhao, Mingshi Gao, Yanjun Jiang, Pilar L. Magoulas, Sansan Lee, Hui Mei, Jill A. Rosenfeld, Richard E. Person, Megan L. Landsverk, Seema R. Lalani, Yin Wang, Chong Sun, Jie Song, Meixia Li, Yuxin Li, Magdalena Walkiewicz, Ya-Ming Hou, Anthony Antonellis, Kevin Donaldson, Andrea M. Lewis, Jie Lin, and Victor Wei Zhang

Subjects
Microcephaly, Ataxia, Biology, Compound heterozygosity, Article, Leukoencephalopathy, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, medicine, Missense mutation, Genetics (clinical), 030304 developmental biology, Genetics, Sanger sequencing, 0303 health sciences, medicine.disease, Hypotonia, Complementation, symbols, Neurology (clinical), medicine.symptom, 030217 neurology & neurosurgery
Abstract

ObjectiveTo expand the clinical spectrum of lysyl-tRNA synthetase (KARS) gene–related diseases, which so far includes Charcot-Marie-Tooth disease, congenital visual impairment and microcephaly, and nonsyndromic hearing impairment.MethodsWhole-exome sequencing was performed on index patients from 4 unrelated families with leukoencephalopathy. Candidate pathogenic variants and their cosegregation were confirmed by Sanger sequencing. Effects of mutations on KARS protein function were examined by aminoacylation assays and yeast complementation assays.ResultsCommon clinical features of the patients in this study included impaired cognitive ability, seizure, hypotonia, ataxia, and abnormal brain imaging, suggesting that the CNS involvement is the main clinical presentation. Six previously unreported and 1 known KARS mutations were identified and cosegregated in these families. Two patients are compound heterozygous for missense mutations, 1 patient is homozygous for a missense mutation, and 1 patient harbored an insertion mutation and a missense mutation. Functional and structural analyses revealed that these mutations impair aminoacylation activity of lysyl-tRNA synthetase, indicating that defective KARS function is responsible for the phenotypes in these individuals.ConclusionsOur results demonstrate that patients with loss-of-function KARS mutations can manifest CNS disorders, thus broadening the phenotypic spectrum associated with KARS-related disease.

Published
2019

39. Biallelic loss of function variants in PPP1R21 cause a neurodevelopmental syndrome with impaired endocytic function

Author

Christine M. Eng, Reza Maroofian, Anna Rajab, GholamReza Karami Madani, Abolfazl Rad, Magdalena Walkiewicz, Fan Xia, Fatma Al-Jasmi, Stylianos E. Antonarakis, Martin Helmstädter, Marios Kambouris, Sebastian J. Arnold, Zornitza Stark, Miriam Schmidts, Sebastian Lunke, Atteeq U. Rehman, Francesco Vetrini, Maryam Najafi, Federico Santoni, Ehsan Ghayoor Karimiani, Lihadh Al-Gazali, Mari Tokita, Jozef Hertecant, Hanan Hamamy, Weimin He, Pengfei Liu, Periklis Makrythanasis, Hatem El-Shanti, Zeineb Bakey, Jill V. Hunter, Yaping Yang, Christopher M. Richmond, Kaman Wu, and Andrea K. Petersen

Subjects
early endosome, Adult, Male, 0301 basic medicine, Endosome, Endosomes, storage disease, Biology, Joubert syndrome, Alleles, Child, Child, Preschool, Endocytosis, Endosomes/metabolism, Endosomes/ultrastructure, Female, Fibroblasts/metabolism, Fibroblasts/ultrastructure, Homozygote, Humans, Infant, Infant, Newborn, Loss of Function Mutation/genetics, Myelin Sheath/metabolism, Myelin Sheath/ultrastructure, Neurodevelopmental Disorders/genetics, Neurodevelopmental Disorders/pathology, Pedigree, Phosphoprotein Phosphatases/chemistry, Phosphoprotein Phosphatases/genetics, Syndrome, Transferrin/metabolism, PPP1R21, endo-lysosome, neurodevelopmental syndrome, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, Loss of Function Mutation, Phosphoprotein Phosphatases, Genetics, medicine, Allele, Exome, Myelin Sheath, Genetics (clinical), Loss function, Whole genome sequencing, Transferrin, endo‐lysosome, Fibroblasts, medicine.disease, Phenotype, Hypotonia, 030104 developmental biology, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], Rapid Communications, Neurodevelopmental Disorders, medicine.symptom, Rapid Communication
Abstract

Next‐generation sequencing (NGS) has been instrumental in solving the genetic basis of rare inherited diseases, especially neurodevelopmental syndromes. However, functional workup is essential for precise phenotype definition and to understand the underlying disease mechanisms. Using whole exome (WES) and whole genome sequencing (WGS) in four independent families with hypotonia, neurodevelopmental delay, facial dysmorphism, loss of white matter, and thinning of the corpus callosum, we identified four previously unreported homozygous truncating PPP1R21 alleles: c.347delT p.(Ile116Lysfs*25), c.2170_2171insGGTA p.(Ile724Argfs*8), c.1607dupT p.(Leu536Phefs*7), c.2063delA p.(Lys688Serfs*26) and found that PPP1R21 was absent in fibroblasts of an affected individual, supporting the allele's loss of function effect. PPP1R21 function had not been studied except that a large scale affinity proteomics approach suggested an interaction with PIBF1 defective in Joubert syndrome. Our co‐immunoprecipitation studies did not confirm this but in contrast defined the localization of PPP1R21 to the early endosome. Consistent with the subcellular expression pattern and the clinical phenotype exhibiting features of storage diseases, we found patient fibroblasts exhibited a delay in clearance of transferrin‐488 while uptake was normal. In summary, we delineate a novel neurodevelopmental syndrome caused by biallelic PPP1R21 loss of function variants, and suggest a role of PPP1R21 within the endosomal sorting process or endosome maturation pathway.

Published
2019

40. Aberrant function of the C-terminal tail of HIST1H1E Aacelerates cellular senescence and causes premature aging

Author

Giuseppe Matullo, Brett H. Graham, Elisa Coluzzi, Karit Reinson, Antonella Sgura, Monica H. Wojcik, Luca Pannone, Melissa P. Wasserstein, Lucia Pedace, Seema R. Lalani, Elena Carcarino, Daniela Q.C.M. Barge-Schaapveld, Anke Van Dijck, Austin Larson, Giovanna Carpentieri, Alessandro Bruselles, Simona Petrucci, Simone Pizzi, Elisabetta Flex, Cornelia Di Gaetano, Francesca Clementina Radio, Bruno Dallapiccola, Serena Cecchetti, Clara Viberti, Enrico Bertini, Chieko Chijiwa, Emilia K. Bijlsma, Elisabetta Ferretti, William J. Craigen, Cristina Andreoli, Brian G. Skotko, Daan J. Kamphuis, Alessandro De Luca, J. Louw Roos, Giuseppina Catanzaro, Sandra Kenis, Mariëtte J.V. Hoffer, Katrin Õunap, Maria Karayiorgou, Gijs W. E. Santen, Annette P.M. van den Elzen, Kathleen Brown, Haley Streff, M. E. Suzanne Lewis, Claudia A. L. Ruivenkamp, Xiaoyan Ge, Andrea Ciolfi, Nathalie Van der Aa, Marco Tartaglia, Rossella Rota, Amber Begtrup, Richard E. Person, Simone Martinelli, Koen L.I. van Gassen, R. Frank Kooy, Marije Meuwissen, Magdalena Walkiewicz, Evelina Miele, Marije Koopmans, Sander Pajusalu, Flex, E., Martinelli, S., Van Dijck, A., Ciolfi, A., Cecchetti, S., Coluzzi, E., Pannone, L., Andreoli, C., Radio, F. C., Pizzi, S., Carpentieri, G., Bruselles, A., Catanzaro, G., Pedace, L., Miele, E., Carcarino, E., Ge, X., Chijiwa, C., Lewis, M. E. S., Meuwissen, M., Kenis, S., Van der Aa, N., Larson, A., Brown, K., Wasserstein, M. P., Skotko, B. G., Begtrup, A., Person, R., Karayiorgou, M., Roos, J. L., Van Gassen, K. L., Koopmans, M., Bijlsma, E. K., Santen, G. W. E., Barge-Schaapveld, D. Q. C. M., Ruivenkamp, C. A. L., Hoffer, M. J. V., Lalani, S. R., Streff, H., Craigen, W. J., Graham, B. H., van den Elzen, A. P. M., Kamphuis, D. J., Ounap, K., Reinson, K., Pajusalu, S., Wojcik, M. H., Viberti, C., Di Gaetano, C., Bertini, E., Petrucci, S., De Luca, A., Rota, R., Ferretti, E., Matullo, G., Dallapiccola, B., Sgura, A., Walkiewicz, M., Kooy, R. F., and Tartaglia, M.

Subjects
0301 basic medicine, Premature aging, Senescence, Male, Cell division, methylation profiling, Article, Chromatin remodeling, chromatin remodeling, Histones, 03 medical and health sciences, chemistry.chemical_compound, replicative senescence, 0302 clinical medicine, HIST1H1E, chromatin dynamic, Genetics, accelerated aging, cellular senescence, Humans, Genetics(clinical), Child, Biology, Genetics (clinical), chromatin compaction, chromatin dynamics, linker histone, linker histone H1.4, Aneuploidy, Cell Nucleolus, Cellular Senescence, Chromatin, DNA Methylation, Female, Infant, Middle Aged, biology, DNA replication, Cell biology, 030104 developmental biology, Histone, chemistry, biology.protein, Human medicine, 030217 neurology & neurosurgery, DNA
Abstract

Histones mediate dynamic packaging of nuclear DNA in chromatin, a process that is precisely controlled to guarantee efficient compaction of the genome and proper chromosomal segregation during cell division and to accomplish DNA replication, transcription, and repair. Due to the important structural and regulatory roles played by histones, it is not surprising that histone functional dysregulation or aberrant levels of histones can have severe consequences for multiple cellular processes and ultimately might affect development or contribute to cell transformation. Recently, germline frameshift mutations involving the C-terminal tail of HIST1H1E, which is a widely expressed member of the linker histone family and facilitates higher-order chromatin folding, have been causally linked to an as-yet poorly defined syndrome that includes intellectual disability. We report that these mutations result in stable proteins that reside in the nucleus, bind to chromatin, disrupt proper compaction of DNA, and are associated with a specific methylation pattern. Cells expressing these mutant proteins have a dramatically reduced proliferation rate and competence, hardly enter into the S phase, and undergo accelerated senescence. Remarkably, clinical assessment of a relatively large cohort of subjects sharing these mutations revealed a premature aging phenotype as a previously unrecognized feature of the disorder. Our findings identify a direct link between aberrant chromatin remodeling, cellular senescence, and accelerated aging.

Published
2019

41. De Novo Truncating Variants in SON Cause Intellectual Disability, Congenital Malformations, and Failure to Thrive

Author

Sébastien Küry, Catherine Ward Melver, Pengfei Liu, Carlos A. Bacino, Yaping Yang, Nathaniel H. Robin, Christine M. Eng, Thomas Besnard, Stéphane Bézieau, Christian P. Schaaf, Mari Tokita, Scott D. McLean, Andrea M. Lewis, Elena Infante, Magdalena Walkiewicz, Daryl A. Scott, Bertrand Isidor, Yunru Shao, Rebecca O. Littlejohn, Marianne McGuire, Connie S. Motter, Alicia Braxton, Seema R. Lalani, Marie Vincent, Weimin Bi, Areeg El-Gharbawy, and Xenia Latypova

Subjects
Male, 0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Adolescent, Developmental Disabilities, Biology, Germline, Congenital Abnormalities, Minor Histocompatibility Antigens, Young Adult, 03 medical and health sciences, Intellectual Disability, Report, Intellectual disability, medicine, Genetics, Humans, Exome, Genetics(clinical), Child, Genetics (clinical), Sequence Deletion, Spliceosomal complex, Alternative splicing, Brain, Congenital malformations, medicine.disease, Phenotype, humanities, Failure to Thrive, Pedigree, DNA-Binding Proteins, 030104 developmental biology, Child, Preschool, Failure to thrive, Female, Stem cell, medicine.symptom
Abstract

SON is a key component of the spliceosomal complex and a critical mediator of constitutive and alternative splicing. Additionally, SON has been shown to influence cell-cycle progression, genomic integrity, and maintenance of pluripotency in stem cell populations. The clear functional relevance of SON in coordinating essential cellular processes and its presence in diverse human tissues suggests that intact SON might be crucial for normal growth and development. However, the phenotypic effects of deleterious germline variants in SON have not been clearly defined. Herein, we describe seven unrelated individuals with de novo variants in SON and propose that deleterious variants in SON are associated with a severe multisystem disorder characterized by developmental delay, persistent feeding difficulties, and congenital malformations, including brain anomalies.

Published
2016
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42. Postmortem genetic screening for the identification, verification, and reporting of genetic variants contributing to the sudden death of the young

Author

Viktoriya Korchina, Dwayne A. Wolf, D. Nicole R. Methner, Steven E. Scherer, Luis A. Sanchez, Richard A. Gibbs, Katherine Welch, Christine M. Eng, Mark C. Powell, Donna M. Muzny, Magdalena Walkiewicz, Roger Kahn, Harshavardhan Doddapaneni, and John W. Belmont

Subjects
Adult, Male, 0301 basic medicine, Pediatrics, medicine.medical_specialty, Adolescent, Autopsy, Biology, Sudden death, Death, Sudden, Young Adult, 03 medical and health sciences, Diagnosis, Genetics, medicine, Humans, Genetic Testing, Young adult, Child, Genetics (clinical), Cause of death, Genetic testing, Massive parallel sequencing, medicine.diagnostic_test, Research, Infant, Newborn, Genetic Variation, Infant, United States, 030104 developmental biology, Child, Preschool, Cohort, Female, Identification (biology), Cardiomyopathies
Abstract

Each year in the United States, thousands of cases of sudden and unexpected deaths of infants, children, and young adults are assigned an undetermined cause of death after postmortem investigation and autopsy. Heritable genetic variants have been suggested as the cause of up to a third of sudden death (SD) cases. Elucidation of the genetic variants involved in SD cases is important to not only help establish cause and manner of death of these individuals, but to also aid in determining whether familial genetic testing should be considered. Previously, these types of postmortem screenings have not been a feasible option for most county medical examiners’ and coroners’ offices. We sequenced full exons of 64 genes associated with SD in the largest known cohort (351) of infant and young SD decedents using massively parallel sequencing at 1 yr of age), were found to have a reportable genetic variant contributing to SD. These percentages represent an estimate lower than those previously reported. Overall yields and results likely vary between studies due to differences in evaluation techniques and reporting. Additionally, we recommend ongoing assessment of data, including nonreported novel variants, as technology and literature continually advance. This study demonstrates a strategy to implement molecular autopsies in medicolegal investigations of young SD decedents.

Published
2016

43. Clinical exome sequencing for fetuses with ultrasound abnormalities and a suspected Mendelian disorder

Author

Salma Nassef, Linyan Meng, Rui Xiao, Xia Wang, Magdalena Walkiewicz, Christine M. Eng, Hongzheng Dai, Pengfei Liu, Elizabeth A. Normand, Weimin Bi, Chunjing Qu, Francesco Vetrini, Richard A. Gibbs, Patricia A. Ward, Weimin He, Avinash V. Dharmadhikari, Vipulkumar Patel, Ignatia B. Van den Veyver, Donna M. Muzny, Alicia Braxton, Samantha Stover, Fan Xia, Lauren E. Westerfield, and Yaping Yang

Subjects
0301 basic medicine, Exome sequencing, Pediatrics, medicine.medical_specialty, lcsh:QH426-470, Inheritance Patterns, lcsh:Medicine, Autopsy, Prenatal diagnosis, 030105 genetics & heredity, Ultrasonography, Prenatal, 03 medical and health sciences, Fetus, Genetics, Medicine, Prenatal, Humans, Family, Medical diagnosis, Molecular Biology, Exome, Genetics (clinical), business.industry, Research, lcsh:R, Genetic Diseases, Inborn, Human genetics, Single-gene disorder, Exact test, lcsh:Genetics, Phenotype, Molecular Medicine, Mendelian disease, business, Fetal structural abnormalities
Abstract

Background Exome sequencing is now being incorporated into clinical care for pediatric and adult populations, but its integration into prenatal diagnosis has been more limited. One reason for this is the paucity of information about the clinical utility of exome sequencing in the prenatal setting. Methods We retrospectively reviewed indications, results, time to results (turnaround time, TAT), and impact of exome results for 146 consecutive “fetal exomes” performed in a clinical diagnostic laboratory between March 2012 and November 2017. We define a fetal exome as one performed on a sample obtained from a fetus or a product of conception with at least one structural anomaly detected by prenatal imaging or autopsy. Statistical comparisons were performed using Fisher’s exact test. Results Prenatal exome yielded an overall molecular diagnostic rate of 32% (n = 46/146). Of the 46 molecular diagnoses, 50% were autosomal dominant disorders (n = 23/46), 41% were autosomal recessive disorders (n = 19/46), and 9% were X-linked disorders (n = 4/46). The molecular diagnostic rate was highest for fetuses with anomalies affecting multiple organ systems and for fetuses with craniofacial anomalies. Out of 146 cases, a prenatal trio exome option designed for ongoing pregnancies was performed on 62 fetal specimens, resulting in a diagnostic yield of 35% with an average TAT of 14 days for initial reporting (excluding tissue culture time). The molecular diagnoses led to refined recurrence risk estimates, altered medical management, and informed reproductive planning for families. Conclusion Exome sequencing is a useful diagnostic tool when fetal structural anomalies suggest a genetic etiology, but other standard prenatal genetic tests did not provide a diagnosis. Electronic supplementary material The online version of this article (10.1186/s13073-018-0582-x) contains supplementary material, which is available to authorized users.

Published
2018

44. Balancing Confidentiality and Sharing of Genomic and Phenotypic Data in a Clinical Research System

Author

Morgan Similuk, Octavio Juarez-Espinosa, Ke Huang, Xi Cheng, Sandhya Xirasagar, Yongjie Fan, Joyce Johnson, Lingwen Zhang, Magdalena Walkiewicz, Daniel Veltri, Celine Hong, Jason Barnett, Joshua D. Milner, Andrew J. Oler, and Zhiwen Li

Subjects
0301 basic medicine, business.industry, Computer science, Genomics, Encryption, Data science, 03 medical and health sciences, 030104 developmental biology, Clinical research, Return on investment, Human Phenotype Ontology, Leverage (statistics), Confidentiality, business, Personally identifiable information
Abstract

We recently developed the Genomics Research Integration System (GRIS) to help NIAID investigators at the NIH leverage both phenotypic and genotypic patient data to identify causal variants for rare diseases. The project is a bioinformatics compliment to an initiative to sequence exomes for all NIAID patients visiting the NIH Clinical Center. The system is designed to serve as a valuable resource for clinical genomic data annotated with standardized phenotypic terms using the Human Phenotype Ontology \citeKohler2013. GRIS uses PhenoTips® \citeGirdea2013 to capture clinical records and family pedigrees which are linked to genomic records stored in a genetic analysis tool,seqr, developed at the Broad Institute (\urlseqr.broadinstitute.org ) to enable causal variant identification. We have customized both programs in novel ways to meet NIH encryption requirements, to link patient records across programs in a controlled manner, and to provide "tiers" of access so that individual research groups can customize users' ability to edit their patient records and view personally identifiable information (PII). A challenge faced by shared clinical data repositories is to facilitate maximal collective research value of data through open sharing, while respecting the needs of researchers to adjust access to patient data in accordance with research goals and subject to clinical sharing guidelines. We devised a technical approach to meet the needs of sharing policies, formulated collectively by researchers and clinicians, to promote wider acceptance and usage of the system. Accordingly, we implemented a patient identifier mapping system in conjunction with automated notifications to enable transparent sharing. Our approach may prove helpful to other hospital or clinical support systems seeking to respect the confidentiality of patient PII and early findings of individual researchers, while recognizing that data repositories are most primed for discovery (and can significantly increase return on investment) if they are open and accessible to a larger research community.

Published
2018

45. Phenotypic expansion in DDX3X – a common cause of intellectual disability in females

Author

Adam W. Hansen, Fernando Scaglia, Paolo Moretti, Scott E. Hickey, Yaping Yang, Jennifer E. Posey, Jing Zhang, Shan Chen, Neil A. Hanchard, LaDonna Immken, Carlos A. Bacino, Weimin He, Lionel Van Maldergem, Zeynep Coban Akdemir, Francesco Vetrini, Alper Gezdirici, Jill A. Rosenfeld, Richard A. Gibbs, Weimin Bi, Anne Slavotinek, Yunru Shao, Donna M. Muzny, Joke Beuten, Jill M. Harris, Rui Xiao, Brett H. Graham, James R. Lupski, Adekunle M. Adesina, John W. Belmont, Xia Wang, Magdalena Walkiewicz, Yunyun Jiang, Davut Pehlivan, Juliette Piard, Brendan Lee, Theresa Mihalic Mosher, Fan Xia, Magalie S. Leduc, Mohammad K. Eldomery, Christine M. Eng, and Tamar Harel

Subjects
Genetics, 0303 health sciences, Mitochondrial DNA, Heart disease, business.industry, Skeletal muscle, Dna variants, medicine.disease, Phenotype, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Intellectual disability, medicine, Neurologic decline, DDX3X, business, 030217 neurology & neurosurgery, 030304 developmental biology
Abstract

De novo variants in DDX3X account for 1-3% of unexplained intellectual disability (ID), one of the most common causes of ID, in females. Forty-seven patients (44 females, 3 males) have been described. We identified 29 additional individuals carrying 27 unique DDX3X variants in the setting of complex clinical presentations including developmental delay or ID. In addition to previously reported manifestations, rare or novel phenotypes were identified including respiratory problems, congenital heart disease, skeletal muscle mitochondrial DNA depletion, and late-onset neurologic decline. Our findings expand the spectrum of DNA variants and phenotypes associated with DDX3X disorders.

Published
2018
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46. Mutation in the ADNP gene associated with Noonan syndrome features

Author

David Chitayat, Magdalena Walkiewicz, and Ebba Alkhunaizi

Subjects
0301 basic medicine, Male, Developmental Disabilities, Nerve Tissue Proteins, Pathology and Forensic Medicine, 03 medical and health sciences, 0302 clinical medicine, Pectus Carinatum, Exome Sequencing, medicine, Humans, Autistic Disorder, Gene, Genetics (clinical), Exome sequencing, Genetics, Homeodomain Proteins, business.industry, Noonan Syndrome, General Medicine, medicine.disease, Phenotype, 030104 developmental biology, Child, Preschool, Funnel Chest, Pediatrics, Perinatology and Child Health, Mutation (genetic algorithm), Mutation, Noonan syndrome, Anatomy, business, 030217 neurology & neurosurgery
Published
2018

47. Truncating Variants in NAA15 Are Associated with Variable Levels of Intellectual Disability, Autism Spectrum Disorder, and Congenital Anomalies

Author

Sylvia Varland, Margaret Yoon, Jill A. Rosenfeld, Alison Gardner, Jennifer S. Beighley, Derek Lim, Ning Ma, Sonal Mahida, Magdalena Walkiewicz, Linyan Meng, Christopher Barnett, Claudia A. L. Ruivenkamp, Tjitske Kleefstra, Corrado Romano, Marie Shaw, Andrea M. Lewis, R. Frank Kooy, Avinash V. Dharmadhikari, Nicolette S. den Hollander, Elizabeth E. Palmer, Anke Van Dijck, Geert Vandeweyer, Emanuela Stracuzzi, Sébastien Küry, Kym M. Boycott, Stefania Giusto, Deepti Domingo, Asbjørg Stray-Pedersen, Fan Xia, Mauro Longoni, Grazia M.S. Mancini, Mohammad K. Eldomery, Yaping Yang, Zeynep Coban Akdemir, Evan E. Eichler, Raphael Bernier, Hanyin Cheng, Rebecca Willaert, Arie van Haeringen, Katherine Agre, Parul Jayakar, Sakkubai Naidu, Jozef Gecz, Lucinda Murray, Samantha K Rojas, Mathilde Nizon, Frances A. High, Joseph C. Wu, Richard E. Person, Gregory M. Cooper, Mark A. Corbett, Karin S. Kassahn, Thomas Arnesen, Rolph Pfundt, Erin Conboy, Vernon R. Sutton, Bronwyn Kerr, Holly A.F. Stessman, Ruth Armstrong, Sarah R. Crews, Marjon van Slegtenhorst, Jennifer E. Posey, James R. Lupski, Wendy K. Chung, Alan F. Rope, Jolanda H. Schieving, Robert Kleyner, Michael Parker, Gholson J. Lyon, Candice R. Finnila, Marjolijn J. Jongmans, Bert B.A. de Vries, and Clinical Genetics

Subjects
Male, 0301 basic medicine, Autism Spectrum Disorder, Messenger, N-terminal acetyltransferases (NATs), Neurodevelopmental disorder, Intellectual disability, N-terminal acetylation (NTA), Missense mutation, N-Terminal Acetyltransferase E, Child, N-Terminal Acetyltransferase A, Genetics (clinical), Genetics, Exons, Middle Aged, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], congenital heart defects, Pedigree, Phenotype, Autism spectrum disorder, Female, Abnormalities, Haploinsufficiency, Multiple, Ogden syndrome, Rare cancers Radboud Institute for Health Sciences [Radboudumc 9], Adult, Adolescent, autism, Saccharomyces cerevisiae, Biology, Cell Line, 03 medical and health sciences, Report, Intellectual Disability, medicine, Humans, Abnormalities, Multiple, Genetic Predisposition to Disease, RNA, Messenger, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Genetic Variation, medicine.disease, neurodevelopmental disorder, Ogden Syndrome, 030104 developmental biology, NAA10, Gene Expression Regulation, NatA complex, Mutation, RNA, Autism, Human medicine, NAA15
Abstract

Item does not contain fulltext N-alpha-acetylation is a common co-translational protein modification that is essential for normal cell function in humans. We previously identified the genetic basis of an X-linked infantile lethal Mendelian disorder involving a c.109T>C (p.Ser37Pro) missense variant in NAA10, which encodes the catalytic subunit of the N-terminal acetyltransferase A (NatA) complex. The auxiliary subunit of the NatA complex, NAA15, is the dimeric binding partner for NAA10. Through a genotype-first approach with whole-exome or genome sequencing (WES/WGS) and targeted sequencing analysis, we identified and phenotypically characterized 38 individuals from 33 unrelated families with 25 different de novo or inherited, dominantly acting likely gene disrupting (LGD) variants in NAA15. Clinical features of affected individuals with LGD variants in NAA15 include variable levels of intellectual disability, delayed speech and motor milestones, and autism spectrum disorder. Additionally, mild craniofacial dysmorphology, congenital cardiac anomalies, and seizures are present in some subjects. RNA analysis in cell lines from two individuals showed degradation of the transcripts with LGD variants, probably as a result of nonsense-mediated decay. Functional assays in yeast confirmed a deleterious effect for two of the LGD variants in NAA15. Further supporting a mechanism of haploinsufficiency, individuals with copy-number variant (CNV) deletions involving NAA15 and surrounding genes can present with mild intellectual disability, mild dysmorphic features, motor delays, and decreased growth. We propose that defects in NatA-mediated N-terminal acetylation (NTA) lead to variable levels of neurodevelopmental disorders in humans, supporting the importance of the NatA complex in normal human development.

Published
2018

48. Molecular Findings Among Patients Referred for Clinical Whole-Exome Sequencing

Author

Patricia A. Ward, Wendy Alcaraz, Richard A. Gibbs, Weimin He, Pengfei Liu, Mir Reza Bekheirnia, Christine M. Eng, Alicia Hawes, Alicia Braxton, James R. Lupski, Jennifer Scull, Christian J. Buhay, Theodore Chiang, Megan Landsverk, Arthur L. Beaudet, Fan Xia, Yan Ding, Yaping Yang, Joke Beuten, Matthew N. Bainbridge, Alecia Willis, Magalie S. Leduc, Donna M. Muzny, Zhiyv Niu, William J. Craigen, Eric Boerwinkle, Jing Zhang, Ankita Patel, Asbjørg Stray-Pedersen, Narayanan Veeraraghavan, Hong Cui, Shu Wen, Richard E. Person, Min Wang, Jeffrey G. Reid, Magdalena Walkiewicz, and Sharon E. Plon

Subjects
business.industry, Obstetrics and Gynecology, Medicine, General Medicine, Computational biology, business, Exome sequencing
Published
2015

49. Functional analysis of novel DEAF1 variants identified through clinical exome sequencing expands DEAF1-associated neurodevelopmental disorder (DAND) phenotype

Author

Seth I. Berger, Ann C.M. Smith, Jonathan A. Bernstein, Philip J. Jensik, Li Chen, Eissa Faqeih, Joseph T. Alaimo, Magdalena Walkiewicz, David W. Saffen, Elizabeth Roeder, Sarah H. Elsea, and Sureni V. Mullegama

Subjects
0301 basic medicine, In silico, Biology, medicine.disease_cause, Article, Cohort Studies, 03 medical and health sciences, Intellectual Disability, Genetics, medicine, Missense mutation, Humans, Exome, Amino Acid Sequence, Promoter Regions, Genetic, Transcription factor, Genetics (clinical), Exome sequencing, Whole genome sequencing, Mutation, Whole Genome Sequencing, Nuclear Proteins, Phenotype, DNA-Binding Proteins, 030104 developmental biology, Neurodevelopmental Disorders, Sequence Alignment, Transcription Factors
Abstract

Deformed epidermal autoregulatory factor-1 (DEAF1), a transcription factor essential for central nervous system and early embryonic development, has recently been implicated in a series of intellectual disability-related neurodevelopmental anomalies termed, in this study, as DEAF1-associated neurodevelopmental disorder (DAND). We identified six potentially deleterious DEAF1 variants in a cohort of individuals with DAND via clinical exome sequencing (CES) and in silico analysis, including two novel de novo variants: missense variant c.634G > A p.Gly212Ser in the SAND domain and deletion variant c.913_915del p.Lys305del in the NLS domain, as well as c.676C > T p.Arg226Trp, c.700T > A p.Trp234Arg, c.737G > C p.Arg246Thr, and c.791A > C p.Gln264Pro. Luciferase reporter, immunofluorescence staining, and electrophoretic mobility shift assays revealed that these variants had decreased transcriptional repression activity at the DEAF1 promoter and reduced affinity to consensus DEAF1 DNA binding sequences. In addition, c.913_915del p.K305del localized primarily to the cytoplasm and interacted with wild-type DEAF1. Our results demonstrate that variants located within the SAND or NLS domains significantly reduce DEAF1 transcriptional regulatory activities and are thus, likely to contribute to the underlying clinical concerns in DAND patients. These findings illustrate the importance of experimental characterization of variants with uncertain significance identified by CES to assess their potential clinical significance and possible use in diagnosis.

Published
2017

50. Identification of novel candidate disease genes from de novo exonic copy number variants

Author

Christian P. Schaaf, Janice L. Smith, Rachel Westman, Ronit Marom, Laurence Faivre, Pawel Stankiewicz, Patricia I. Bader, Myla Ashfaq, Hsiao-Tuan Chao, Monica Proud, Hope Northrup, Lindsay E. Elton, Seema R. Lalani, Yaping Yang, Chester W. Brown, Kimberly Nugent, Lauren Dengle, James R. Lupski, Sandesh C.S. Nagamani, Heather G. Petrie, Bo Yuan, Robert Wildin, Carlos A. Bacino, Chad A. Shaw, Tomasz Gambin, Hannele Koillinen, La Donna Immken, Edward P. Buchanan, Zeynep Coban-Akdemir, Ankita Patel, Lisa Emrick, Diane Treadwell-Deering, Anita E. Beck, Nora Urraca, Sau Wai Cheung, Elizabeth Roeder, Amy M. Breman, Mathilde Lefebvre, Arthur L. Beaudet, Amber N. Pursley, Gary Bellus, Sung Hae L. Kang, Sailaja Golla, Jill A. Rosenfeld, Reuben Matalon, Michael P. Cummings, Pengfei Liu, Roya Mostafavi, Saunder Bernes, Shaun Varghese, Magdalena Walkiewicz, Weimin Bi, Department of Medical and Clinical Genetics, Medicum, and Clinicum

Subjects
0301 basic medicine, INTELLECTUAL DISABILITY, lcsh:Medicine, Serine-Threonine Kinase 3, Cohort Studies, CHROMOSOMAL MICROARRAY, Copy-number variation, de novo variants, Genetics (clinical), Genetics, education.field_of_study, Intracellular Signaling Peptides and Proteins, 1184 Genetics, developmental biology, physiology, Exons, 3. Good health, Exon targeted array CGH, Molecular Medicine, Intragenic copy number variants, DNA microarray, lcsh:QH426-470, DNA Copy Number Variations, Population, ARRAY CGH, Protein Serine-Threonine Kinases, Biology, COGNITIVE PHENOTYPES, GENOMIC DISORDERS, 03 medical and health sciences, MENDELIAN DISORDERS, Humans, CLINICAL DIAGNOSTIC-TEST, education, Molecular Biology, Gene, PERSISTENT GASTROESOPHAGEAL-REFLUX, Retrospective Studies, Homeodomain Proteins, CNVs, Whole genome sequencing, Autosome, Whole Genome Sequencing, Genome, Human, Research, AUTISM SPECTRUM DISORDER, SYNDROMIC DEVELOPMENTAL DELAY, lcsh:R, Genetic Diseases, Inborn, Membrane Proteins, Human genetics, lcsh:Genetics, 030104 developmental biology, Neurodevelopmental Disorders, Human genome, 3111 Biomedicine, Transcription Factors
Abstract

Background Exon-targeted microarrays can detect small (

Published
2017

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