Search

Your search keyword '"Jobanputra, V"' showing total 125 results
Start Over Author "Jobanputra, V"
125 results on '"Jobanputra, V"'

2. Analytical demands to use whole-genome sequencing in precision oncology

Author

Meggendorfer, M, Jobanputra, V, Wrzeszczynski, KO, Roepman, P, de Bruijn, E, Cuppen, E, Buttner, R, Caldas, C, Grimmond, S, Mullighan, CG, Elemento, O, Rosenquist, R, Schuh, A, Haferlach, T, Meggendorfer, M, Jobanputra, V, Wrzeszczynski, KO, Roepman, P, de Bruijn, E, Cuppen, E, Buttner, R, Caldas, C, Grimmond, S, Mullighan, CG, Elemento, O, Rosenquist, R, Schuh, A, and Haferlach, T

Abstract

Interrogating the tumor genome in its entirety by whole-genome sequencing (WGS) offers an unprecedented insight into the biology and pathogenesis of cancer, with potential impact on diagnostics, prognostication and therapy selection. WGS is able to detect sequence as well as structural variants and thereby combines central domains of cytogenetics and molecular genetics. Given the potential of WGS in directing targeted therapeutics and clinical decision-making, we envision a gradual transition of the method from research to clinical routine. This review is one out of three within this issue aimed at facilitating this effort, by discussing in-depth analytical validation, clinical interpretation and clinical utility of WGS. The review highlights the requirements for implementing, validating and maintaining a clinical WGS pipeline to obtain high-quality patient-specific data in accordance with the local regulatory landscape. Every step of the WGS pipeline, which includes DNA extraction, library preparation, sequencing, bioinformatics analysis, and data storage, is considered with respect to its logistics, necessities, potential pitfalls, and the required quality management. WGS is likely to drive clinical diagnostics and patient care forward, if requirements and challenges of the technique are recognized and met.

Published
2022

3. Implementation of Whole-Genome and Transcriptome Sequencing Into Clinical Cancer Care

Author

Cuppen, E, Elemento, O, Rosenquist, R, Nikic, S, IJzerman, M, Zaleski, ID, Frederix, G, Levin, L-A, Mullighan, CG, Buettner, R, Pugh, TJ, Grimmond, S, Caldas, C, Andre, F, Custers, I, Campo, E, van Snellenberg, H, Schuh, A, Nakagawa, H, von Kalle, C, Haferlach, T, Froehling, S, Jobanputra, V, Cuppen, E, Elemento, O, Rosenquist, R, Nikic, S, IJzerman, M, Zaleski, ID, Frederix, G, Levin, L-A, Mullighan, CG, Buettner, R, Pugh, TJ, Grimmond, S, Caldas, C, Andre, F, Custers, I, Campo, E, van Snellenberg, H, Schuh, A, Nakagawa, H, von Kalle, C, Haferlach, T, Froehling, S, and Jobanputra, V

Abstract

PURPOSE: The combination of whole-genome and transcriptome sequencing (WGTS) is expected to transform diagnosis and treatment for patients with cancer. WGTS is a comprehensive precision diagnostic test that is starting to replace the standard of care for oncology molecular testing in health care systems around the world; however, the implementation and widescale adoption of this best-in-class testing is lacking. METHODS: Here, we address the barriers in integrating WGTS for cancer diagnostics and treatment selection and answer questions regarding utility in different cancer types, cost-effectiveness and affordability, and other practical considerations for WGTS implementation. RESULTS: We review the current studies implementing WGTS in health care systems and provide a synopsis of the clinical evidence and insights into practical considerations for WGTS implementation. We reflect on regulatory, costs, reimbursement, and incidental findings aspects of this test. CONCLUSION: WGTS is an appropriate comprehensive clinical test for many tumor types and can replace multiple, cascade testing approaches currently performed. Decreasing sequencing cost, increasing number of clinically relevant aberrations and discovery of more complex biomarkers of treatment response, should pave the way for health care systems and laboratories in implementing WGTS into clinical practice, to transform diagnosis and treatment for patients with cancer.

Published
2022

6. Prenatal diagnosis of chromothripsis, with nine breaks characterized by karyotyping, FISH, microarray and whole-genome sequencing

Author

Macera, M.J., Sobrino, A., Levy, B., Jobanputra, V., Aggarwal, V., Mills, A., Esteves, C., Hanscom, C., Pereira, S., Pillalamarri, V., Ordulu, Z., Morton, C., Talkowski, M., and Warburton, D.

Subjects
Adult, Genome, Chromosome Disorders, Sequence Analysis, DNA, Article, Translocation, Genetic, Pregnancy, Karyotyping, Prenatal Diagnosis, Humans, Abnormalities, Multiple, Female, In Situ Hybridization, Fluorescence, Oligonucleotide Array Sequence Analysis
Published
2015

11. Binding of thienamycin and clavulanic acid to pencillin-binding proteins of Escherichia-Coli K-12

Author

Spratt, BG, Jobanputra, V, and Zimmerman, W

Subjects
Science & Technology, Chemical Phenomena, Lactams, Penicillin G, Microbiology, Binding, Competitive, Anti-Bacterial Agents, Chemistry, Bacterial Proteins, 1108 Medical Microbiology, Escherichia coli, 1115 Pharmacology And Pharmaceutical Sciences, Pharmacology & Pharmacy, Life Sciences & Biomedicine, Protein Binding, 0605 Microbiology
Published
1977

12. Whole-Exome Sequencing in Adults With Chronic Kidney Disease A Pilot Study

Author

David Fasel, Gerald B. Appel, Corinne Antignac, Hila Milo Rasouly, Andrew S. Bomback, Marcin Zaniew, Aditya Mattoo, Anna Materna-Kiryluk, Francesca Lugani, Glen S. Markowitz, Wooin Ahn, Sneh Lata, Krzysztof Kiryluk, Luca Rampoldi, Vivette D. D'Agati, Maya K. Rao, Miguel Verbitsky, Adele Mitrotti, Chad A. Newton, Ali G. Gharavi, Simone Sanna-Cherchi, Gianluca Caridi, Jai Radhakrishnan, Lindsey M. Slater, Pietro A. Canetta, Rik Westland, Vaidehi Jobanputra, Emily E. Groopman, Maddalena Marasa, Christine Kim Garcia, Jordan G. Nestor, Yifu Li, Lata, S, Marasa, M, Li, Yf, Fasel, Da, Groopman, E, Jobanputra, V, Rasouly, H, Mitrotti, A, Westland, R, Verbitsky, M, Nestor, J, Slater, Lm, D'Agati, V, Zaniew, M, Materna-Kiryluk, A, Lugani, F, Caridi, G, Rampoldi, L, Mattoo, A, Newton, Ca, Rao, Mk, Radhakrishnan, J, Ahn, W, Canetta, Pa, Bomback, A, Appel, Gb, Antignac, C, Markowitz, G, Garcia, Ck, Kiryluk, K, Sanna-Cherchi, S, and Gharavi, Ag

Subjects
Adult, Male, 0301 basic medicine, Proband, medicine.medical_specialty, Population, 030232 urology & nephrology, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Internal Medicine, medicine, Humans, Exome, Genetic Predisposition to Disease, Renal Insufficiency, Chronic, education, Exome sequencing, education.field_of_study, business.industry, Donor selection, Sequence Analysis, DNA, General Medicine, Middle Aged, medicine.disease, Transplantation, 030104 developmental biology, Mutation, Medical genetics, Female, New York City, business, Kidney disease
Abstract

Background The utility of whole-exome sequencing (WES) for the diagnosis and management of adult-onset constitutional disorders has not been adequately studied. Genetic diagnostics may be advantageous in adults with chronic kidney disease (CKD), in whom the cause of kidney failure often remains unknown. Objective To study the diagnostic utility of WES in a selected referral population of adults with CKD. Design Observational cohort. Setting A major academic medical center. Patients 92 adults with CKD of unknown cause or familial nephropathy or hypertension. Measurements The diagnostic yield of WES and its potential effect on clinical management. Results Whole-exome sequencing provided a diagnosis in 22 of 92 patients (24%), including 9 probands with CKD of unknown cause and encompassing 13 distinct genetic disorders. Among these, loss-of-function mutations were identified in PARN in 2 probands with tubulointerstitial fibrosis. PARN mutations have been implicated in a short telomere syndrome characterized by lung, bone marrow, and liver fibrosis; these findings extend the phenotype of PARN mutations to renal fibrosis. In addition, review of the American College of Medical Genetics actionable genes identified a pathogenic BRCA2 mutation in a proband who was diagnosed with breast cancer on follow-up. The results affected clinical management in most identified cases, including initiation of targeted surveillance, familial screening to guide donor selection for transplantation, and changes in therapy. Limitation The small sample size and recruitment at a tertiary care academic center limit generalizability of findings among the broader CKD population. Conclusion Whole-exome sequencing identified diagnostic mutations in a substantial number of adults with CKD of many causes. Further study of the utility of WES in the evaluation and care of patients with CKD in additional settings is warranted. Primary funding source New York State Empire Clinical Research Investigator Program, Renal Research Institute, and National Human Genome Research Institute of the National Institutes of Health.

Published
2018

13. Employing effective recruitment and retention strategies to engage a diverse pediatric population in genomics research.

Author

Ramos MA, Bonini KE, Scarimbolo L, Kelly NR, Insel B, Suckiel SA, Brown K, Di Biase M, Gallagher KM, Lopez J, Aguiñiga KL, Marathe PN, Maria E, Odgis JA, Rodriguez JE, Rodriguez MA, Ruiz N, Sebastin M, Yelton NM, Cunningham-Rundles C, Gertner M, Laguerre I, McDonald TV, McGoldrick PE, Robinson M, Rubinstein A, Shulman LH, Williams T, Wolf SM, Yozawitz EG, Zinberg RE, Abul-Husn NS, Bauman LJ, Diaz GA, Ferket BS, Greally JM, Jobanputra V, Gelb BD, Kenny EE, Wasserstein MP, and Horowitz CR

Subjects
Adolescent, Adult, Child, Child, Preschool, Female, Humans, Male, Genomics methods, Patient Selection
Abstract

Underrepresentation in clinical genomics research limits the generalizability of findings and the benefits of scientific discoveries. We describe the impact of patient-centered, data-driven recruitment and retention strategies in a pediatric genome sequencing study. We collaborated with a stakeholder board, conducted formative research with adults whose children had undergone genomic testing, and piloted and revised study approaches and materials. Our approaches included racially, ethnically, and linguistically congruent study staff, relational interactions, study visit flexibility, and data-informed quality improvement. Of 1,656 eligible children, only 6.5% declined. Their parents/legal guardians were 76.9% non-White, 65.6% had public health insurance for the child, 49.9% lived below the federal poverty level, and 52.8% resided in a medically underserved area. Among those enrolled, 87.3% completed all study procedures. There were no sociodemographic differences between those who enrolled and declined or between those retained and lost to follow-up. We outline stakeholder-engaged approaches that may have led to the successful enrollment and retention of diverse families. These approaches may inform future research initiatives aiming to engage and retain underrepresented populations in genomics medicine research., Competing Interests: Declaration of interests N.S.A.-H. is an employee and equity holder of 23andMe and serves as a scientific advisory board member for Allelica. E.E.K. received personal fees from Illumina, 23andMe, Allelica, and Regeneron Pharmaceuticals, received research funding from Allelica, and serves as a scientific advisory board member for Encompass, Bio, Overtone, and Galateo Bio. K.B. is an employee and stockholder of Illumina, Inc. M.P.W. receives consulting fees from Sanofi Genzyme and research funding from Abeona, Alexion, Ara Parseghian Medical Research Foundation, BioMarin Pharmaceutical, Cure Sanfilippo Foundation, Dana’s Angels Research Trust, Firefly Fund, Mirium Pharma, Noah’s Hope/Hope4Bridget, Orchard Therapeutics, PassageBio, Sanofi Genzyme, Sio Gene Therapies, Takeda Pharmaceutical, Travere Therapeutics, and Ultragenyx Pharmaceutical., (Copyright © 2024 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2024
Full Text
View/download PDF

14. Upregulation vs. loss of function of NTRK2 in 44 affected individuals leads to two distinct neurodevelopmental disorders.

Author

Berger E, Jauss RT, Ranells JD, Zonic E, von Wintzingerode L, Wilson A, Wagner J, Tuttle A, Thomas-Wilson A, Schulte B, Rabin R, Pappas J, Odgis JA, Muthaffar O, Mendez-Fadol A, Lynch M, Levy J, Lehalle D, Lake NJ, Krey I, Kozenko M, Knierim E, Jouret G, Jobanputra V, Isidor B, Hunt D, Hsieh TC, Holtz AM, Haack TB, Gold NB, Dunstheimer D, Donge M, Deb W, De La Rosa Poueriet KA, Danyel M, Christodoulou J, Chopra S, Callewaert B, Busche A, Brick L, Bigay BG, Arlt M, Anikar SS, Almohammal MN, Almanza D, Alhashem A, Bertoli-Avella A, Sticht H, and Jamra RA

Abstract

Introduction: Heterozygous pathogenic variants in NTRK2 (HGNC: 8032) have been associated with global developmental delay. However, only scattered cases have been described in small or general studies. The aim of our work was to consolidate our understanding of NTRK2-related disorders and to delineate the clinical presentation METHODS: We report extended cohort of 44 affected individuals, of whom 19 are from the literature and 25 were previously unreported., Results: Our analysis led to splitting the cohort into two entities., Discussion: One group had variants in the cholesterol binding motif of the transmembrane domain, with most of these being the recurrent variant c.1301A>G p.(Tyr434Cys). These variants probably lead to upregulation of TRKB activity and to a severe phenotype of developmental delay/intellectual disability, muscular hypotonia, therapy-refractory epilepsy, visual impairment and blindness, and feeding difficulties. The second group had truncating variants or variants that presumably disturb the 3D structure of the protein leading to loss of function. These individuals had a remarkably milder phenotype of developmental delay, obesity and hyperphagia., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
Full Text
View/download PDF

15. Reanalysis of RNA sequencing data ends diagnostic odyssey and expands the phenotypic spectrum of congenital titinopathy.

Author

McNamee L, Schoch K, Huang A, Lee H, Wang LK, Smith EC, Lark RK, Buckley AF, Jobanputra V, Nelson SF, and Shashi V

Subjects
Humans, Male, Female, Exome Sequencing, Sequence Analysis, RNA, High-Throughput Nucleotide Sequencing, Siblings, Mutation, Missense genetics, Infant, Connectin genetics, Phenotype
Abstract

Although next-generation sequencing has enabled diagnoses for many patients with Mendelian disorders, the majority remain undiagnosed. Here, we present a sibling pair who were clinically diagnosed with Escobar syndrome, however targeted gene testing was negative. Exome sequencing (ES), and later genome sequencing (GS), revealed compound heterozygous TTN variants in both siblings, a maternally inherited frameshift variant [(NM_133378.4):c.36812del; p.(Asp12271Valfs*10)], and a paternally inherited missense variant [(NM_133378.4):c.12322G > A; p.(Asp4108Asn)]. This result was considered nondiagnostic due to poor clinical fit and limited pathogenicity evidence for the missense variant of uncertain significance (VUS). Following initial nondiagnostic RNA sequencing (RNAseq) on muscle and further pursuit of other variants detected on the ES/GS, a reanalysis of noncanonical splice sites in the muscle transcriptome identified an out-of-frame exon retraction in TTN, near the known VUS. Interim literature included reports of patients with similar TTN variants who had phenotypic concordance with the siblings, and a diagnosis of a congenital titinopathy was given 4 years after the TTN variants had been initially reported. This report highlights the value of reanalysis of RNAseq with a different approach, expands the phenotypic spectrum of congenital titinopathy and also illustrates how a perceived phenotypic mismatch, and failure to consider known variants, can result in a prolongation of the diagnostic journey., (© 2024 Wiley Periodicals LLC.)

Published
2024
Full Text
View/download PDF

16. Confirmation and pathogenicity of small copy number variations incidentally detected via a targeted next-generation sequencing-based preimplantation genetic testing for aneuploidy platform.

Author

Iturriaga A, Mounts E, Picchetta L, Vega C, Mulas F, Ottolini CS, Whitehead C, Tao X, Zhan Y, Loia N, Jobanputra V, Capalbo A, and Jalas C

Subjects
Humans, Retrospective Studies, Female, Pregnancy, Adult, Predictive Value of Tests, Male, Reproducibility of Results, DNA Copy Number Variations, Aneuploidy, Preimplantation Diagnosis methods, High-Throughput Nucleotide Sequencing, Genetic Testing methods, Incidental Findings
Abstract

Objective: To evaluate the technical accuracy, inheritance, and pathogenicity of small copy number variants (CNVs) detected by a targeted next-generation sequencing-based preimplantation genetic testing for aneuploidy (PGT-A) platform., Design: Retrospective observational study performed between 2020 and 2022., Setting: Clinic., Patient(s): A total of 12,157 patients who underwent clinical PGT-A performed by targeted next-generation sequencing for whole chromosome and large segmental aneuploidies., Intervention(s): An incidental finding was reported when a CNV gain/loss of at least 3 consecutive amplicons appeared in at least 2 embryos from the same in vitro fertilization cycle., Main Outcome Measure(s): The primary outcome measures were the specificity, incidence, inheritance, and pathogenicity of small CNVs detected by the PGT-A platform. Accuracy of the PGT-A platform CNV calls was assessed via concordance with the CNV calls (size and genomic location) on chromosomal microarray of the gamete provider(s). Parental origin of the CNV and pathogenicity classifications were also reported., Result(s): An incidental finding that met reporting criteria was identified in 75 (0.62%; 95% confidence interval, 0.5%-0.8%) of 12,157 unique PGT-A patients. Chromosomal microarray follow-up was requested for all cases, and results were received for 1 or both members of 65 reproductive couples. In all cases, 1 of the gamete providers was confirmed to have the CNV identified in the embryos (100.0%, N = 65/65; 95% confidence interval, 94.5-100). The identified CNV was of maternal origin in 34 cases (52.3%) and of paternal origin in 31 cases (47.7%). A significant correlation was identified between PGT-A-predicted CNV sizes and chromosomal microarray detected sizes (r = 0.81) and genomic coordinates on parental deoxyribonucleic acid. Twenty-six (40%) of the CNVs were classified as benign/likely benign, 30 (46.2%) as a variant of uncertain significance, and 9 (13.8%) as pathogenic/likely pathogenic., Conclusion(s): Certain PGT-A platforms may enable the detection of inherited, small CNVs with extremely high specificity without prior knowledge of parental status. Most CNVs in this data set were confirmed to be benign/likely benign or a variant of uncertain significance. Pathogenic/likely pathogenic CNVs associated with a broad range of phenotypic features may also be detected, although a reliable negative predictive value for small CNVs with current PGT-A technologies is unknown because of the many technical challenges., Competing Interests: Declaration of Interests A.I. is a full-time employee of Juno Genetics-US, Genetic Lab, Basking Ridge, New Jersey, and reports travel support from Juno Genetics. E.M. is a full-time employee of Juno Genetics-US, Genetic Lab, Basking Ridge, New Jersey. L.P. is a full-time employee of Juno Genetics-Italy, Reproductive Genetics, Rome, Italy. C.V. is a full-time employee of Juno Genetics-US, Genetic Lab, Basking Ridge, New Jersey. F.M. is a full-time employee of Juno Genetics-Italy, Reproductive Genetics, Rome, Italy. C.S.O. is a full-time employee of Juno Genetics-Italy, Reproductive Genetics, Rome, Italy. C.W. is a full-time employee of IVIRMA, Clinical Research, Basking Ridge, New Jersey. X.T. is a full-time employee of Juno Genetics-US, Genetic Lab, Basking Ridge, New Jersey. Y.Z. is a full-time employee of Juno Genetics-US, Genetic Lab, Basking Ridge, New Jersey. N.L. is a full-time employee of Juno Genetics-US, Genetic Lab, Basking Ridge, New Jersey. V.J. is a full-time employee of Columbia University Irving Medical Center, New York, New York, and Medical Genome Initiative Steering Committee Chair and reports consulting fees and travel support from Juno Genetics-US, outside the submitted work. A.C. is a full-time employee of Juno Genetics-Italy, Reproductive Genetics, Rome, Italy. C.J. is Chief Executive Officer of Juno Genetics-US, Genetic Lab, Basking Ridge, New Jersey., (Copyright © 2024 American Society for Reproductive Medicine. Published by Elsevier Inc. All rights reserved.)

Published
2024
Full Text
View/download PDF

17. Clinical Impact of Telomere Length Testing for Interstitial Lung Disease.

Author

Zhang D, Eckhardt CM, McGroder C, Benesh S, Porcelli J, Depender C, Bogyo K, Westrich J, Thomas-Wilson A, Jobanputra V, and Garcia CK

Subjects
Humans, Female, Male, Middle Aged, Aged, Flow Cytometry, Lung Diseases, Interstitial genetics, Lung Diseases, Interstitial diagnosis, Telomere Shortening genetics, Telomere genetics, In Situ Hybridization, Fluorescence methods
Abstract

Background: Shortened telomere length (TL) is a genomic risk factor for fibrotic interstitial lung disease (ILD), but its role in clinical management is unknown., Research Question: What is the clinical impact of TL testing on the management of ILD?, Study Design and Methods: Patients were evaluated in the Columbia University ILD clinic and underwent Clinical Laboratory Improvement Amendments-certified TL testing by flow cytometry and fluorescence in situ hybridization (FlowFISH) as part of clinical treatment. Short TL was defined as below the 10th age-adjusted percentile for either granulocytes or lymphocytes by FlowFISH. Patients were offered genetic counseling and testing if they had short TL or a family history of ILD. FlowFISH TL was compared with research quantitative polymerase chain reaction (qPCR) TL measurement., Results: A total of 108 patients underwent TL testing, including those with clinical features of short telomere syndrome such as familial pulmonary fibrosis (50%) or extrapulmonary manifestations in the patient (25%) or a relative (41%). The overall prevalence of short TL was 46% and was similar across clinical ILD diagnoses. The number of short telomere clinical features was independently associated with detecting short TL (OR, 2.00; 95% CI, 1.27-3.32). TL testing led to clinical treatment changes for 35 patients (32%), most commonly resulting in reduction or avoidance of immunosuppression. Of the patients who underwent genetic testing (n = 34), a positive or candidate diagnostic finding in telomere-related genes was identified in 10 patients (29%). Inclusion of TL testing below the 1st percentile helped reclassify eight of nine variants of uncertain significance into actionable findings. The quantitative polymerase chain reaction test correlated with FlowFISH, but age-adjusted percentile cutoffs may not be equivalent between the two assays., Interpretation: Incorporating TL testing in ILD impacted clinical management and led to the discovery of new actionable genetic variants., Competing Interests: Financial/Nonfinancial Disclosures The authors have reported to CHEST the following: D. Z. reports grant support from the Francis Family Foundation and the National Institutes of Health, and consulting fees from Boehringer Ingelheim. C. M. E. reports grant support from the National Institutes of Health. C. K. G. reports grant support from the Pulmonary Fibrosis Foundation, National Institutes of Health, and the Department of Defense; nonfinancial support from AstraZeneca; consulting fees from Rejuveron Telomere Therapeutics; and equity or stocks from Rejuvenation Technologies. None declared (C. M., S. B., J. P., C. D., K. B., J. W., A. T.-W., V. J.)., (Copyright © 2024 American College of Chest Physicians. Published by Elsevier Inc. All rights reserved.)

Published
2024
Full Text
View/download PDF

18. Superficial Atypical Lipomatous Tumor With Pleomorphic Features: Case Report and Discussion of the Literature.

Author

Adeuyan O, Gordon ER, Lapolla BA, Schreidah CM, Jobanputra V, Gru AA, and Geskin LJ

Subjects
Humans, Male, Middle Aged, Lipoma pathology, Biomarkers, Tumor analysis, Soft Tissue Neoplasms pathology, Soft Tissue Neoplasms genetics, Proto-Oncogene Proteins c-mdm2 genetics, Immunohistochemistry, Liposarcoma pathology, Liposarcoma genetics
Abstract

Abstract: Among liposarcomas, well-differentiated liposarcoma and dedifferentiated liposarcoma are the most common. The majority of these tumors are found in deep retroperitoneum or extremities. When found outside the retroperitoneum, these adipose-derived tumors are known as atypical lipomatous tumors (ALT). Superficial ALT are particularly rare; thus, little is known about their clinical presentation, genomic status, and management. Here, we present the case of a 54-year-old man with an intermittently bothersome, slowly growing mass on his left upper back for over 2 years, which was incidentally diagnosed as ALT. This patient's ALT, however, showed a profound degree of pleomorphism with MDM2 and control centromere 12 (CEP12) coamplification and negative CD34 and S100 and RB1 expression, unlike most other ALT described in the literature. This case report details the diagnostic workup and histopathological findings for adipose tumors and summarizes the different subtypes, including atypical spindle cell/pleomorphic lipomatous tumor, pleomorphic liposarcoma, and spindle cell/pleomorphic lipoma, with brief discussion on management., Competing Interests: L. J. Geskin has served as an investigator for and/or received research support from Helsinn Group, J&J, Mallinckrodt, Kyowa Kirin, Soligenix, Innate, Merck, BMS, and Stratpharma; on the speakers' bureau for Helsinn Group and J&J; and on the scientific advisory board for Helsinn Group, J&J, Mallinckrodt, Sanofi, Regeneron, and Kyowa Kirin. O. Adeuyan, E. R. Gordon, B. A. Lapolla, C. M. Schreidah, V. Jobanputra and A. A. Gru have no conflicts of interest to declare., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2024
Full Text
View/download PDF

19. Characterising the contribution of rare protein-coding germline variants to prostate cancer risk and severity in 37,184 cases.

Author

Mitchell J, Camacho N, Shea P, Stopsack KH, Joseph V, Burren O, Dhindsa R, Nag A, Berchuck JE, O'Neill A, Abbasi A, Zoghbi AW, Alegre-Díaz J, Kuri-Morales P, Berumen J, Tapia-Conyer R, Emberson J, Torres JM, Collins R, Wang Q, Goldstein D, Matakidou A, Haefliger C, Anderson-Dring L, March R, Jobanputra V, Dougherty B, Carss K, Petrovski S, Kantoff PW, Offit K, Mucci LA, Pomerantz M, and Fabre MA

Abstract

The etiology of prostate cancer, the second most common cancer in men globally, has a strong heritable component. While rare coding germline variants in several genes have been identified as risk factors from candidate gene and linkage studies, the exome-wide spectrum of causal rare variants remains to be fully explored. To more comprehensively address their contribution, we analysed data from 37,184 prostate cancer cases and 331,329 male controls from five cohorts with germline exome/genome sequencing and one cohort with imputed array data from a population enriched in low-frequency deleterious variants. Our gene-level collapsing analysis revealed that rare damaging variants in SAMHD1 as well as genes in the DNA damage response pathway ( BRCA2 , ATM and CHEK2 ) are associated with the risk of overall prostate cancer. We also found that rare damaging variants in AOX1 and BRCA2 were associated with increased severity of prostate cancer in a case-only analysis of aggressive versus non-aggressive prostate cancer. At the single-variant level, we found rare non-synonymous variants in three genes ( HOXB13 , CHEK2 , BIK ) significantly associated with increased risk of overall prostate cancer and in four genes ( ANO7 , SPDL1 , AR , TERT ) with decreased risk. Altogether, this study provides deeper insights into the genetic architecture and biological basis of prostate cancer risk and severity., Competing Interests: Competing Interests J.M., N.C., O.B., R.D., A.N., A.O., A.A., Q.W., L.A.-D., R.M., B.D., K.C., S.P., M.A.F. are current employees and/or stockholders of AstraZeneca. A.W.Z receives grant funding and consulting fees from AstraZeneca. L.A.M. is on the advisory board and holds equity interest in Convergent Therapeutics. A.M. is a former employee of AstraZeneca and current employee of GSK and a stockholder of AstraZeneca and GSK. C.H. was an employee and stockholder of AZ at the time of study. P.W.K. is a co-founder and employee of Convergent Therapeutics.

Published
2024
Full Text
View/download PDF

21. Recommendations for risk allele evidence curation, classification, and reporting from the ClinGen Low Penetrance/Risk Allele Working Group.

Author

Schmidt RJ, Steeves M, Bayrak-Toydemir P, Benson KA, Coe BP, Conlin LK, Ganapathi M, Garcia J, Gollob MH, Jobanputra V, Luo M, Ma D, Maston G, McGoldrick K, Palculict TB, Pesaran T, Pollin TI, Qian E, Rehm HL, Riggs ER, Schilit SLP, Sergouniotis PI, Tvrdik T, Watkins N, Zec L, Zhang W, and Lebo MS

Subjects
Humans, Alleles, Penetrance, Gene Frequency, Genetic Variation genetics
Abstract

Purpose: Genetic variants at the low end of the penetrance spectrum have historically been challenging to interpret because their high population frequencies exceed the disease prevalence of the associated condition, leading to a lack of clear segregation between the variant and disease. There is currently substantial variation in the classification of these variants, and no formal classification framework has been widely adopted. The Clinical Genome Resource Low Penetrance/Risk Allele Working Group was formed to address these challenges and promote harmonization within the clinical community., Methods: The work presented here is the product of internal and community Likert-scaled surveys in combination with expert consensus within the Working Group., Results: We formally recognize risk alleles and low-penetrance variants as distinct variant classes from those causing highly penetrant disease that require special considerations regarding their clinical classification and reporting. First, we provide a preferred terminology for these variants. Second, we focus on risk alleles and detail considerations for reviewing relevant studies and present a framework for the classification these variants. Finally, we discuss considerations for clinical reporting of risk alleles., Conclusion: These recommendations support harmonized interpretation, classification, and reporting of variants at the low end of the penetrance spectrum., Competing Interests: Conflict of Interest The authors declare no conflicts of interest., (Copyright © 2023 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published
2024
Full Text
View/download PDF

22. Evidence review and considerations for use of first line genome sequencing to diagnose rare genetic disorders.

Author

Wigby KM, Brockman D, Costain G, Hale C, Taylor SL, Belmont J, Bick D, Dimmock D, Fernbach S, Greally J, Jobanputra V, Kulkarni S, Spiteri E, and Taft RJ

Abstract

Early use of genome sequencing (GS) in the diagnostic odyssey can reduce suffering and improve care, but questions remain about which patient populations are most amenable to GS as a first-line diagnostic test. To address this, the Medical Genome Initiative conducted a literature review to identify appropriate clinical indications for GS. Studies published from January 2011 to August 2022 that reported on the diagnostic yield (DY) or clinical utility of GS were included. An exploratory meta-analysis using a random effects model evaluated DY based on cohort size and diagnosed cases per cohort. Seventy-one studies met inclusion criteria, comprising over 13,000 patients who received GS in one of the following settings: hospitalized pediatric patients, pediatric outpatients, adult outpatients, or mixed. GS was the first-line test in 38% (27/71). The unweighted mean DY of first-line GS was 45% (12-73%), 33% (6-86%) in cohorts with prior genetic testing, and 33% (9-60%) in exome-negative cohorts. Clinical utility was reported in 81% of first-line GS studies in hospitalized pediatric patients. Changes in management varied by cohort and underlying molecular diagnosis (24-100%). To develop evidence-informed points to consider, the quality of all 71 studies was assessed using modified American College of Radiology (ACR) criteria, with five core points to consider developed, including recommendations for use of GS in the N/PICU, in lieu of sequential testing and when disorders with substantial allelic heterogeneity are suspected. Future large and controlled studies in the pediatric and adult populations may support further refinement of these recommendations., (© 2024. The Author(s).)

Published
2024
Full Text
View/download PDF

23. Spliceosome malfunction causes neurodevelopmental disorders with overlapping features.

Author

Li D, Wang Q, Bayat A, Battig MR, Zhou Y, Bosch DG, van Haaften G, Granger L, Petersen AK, Pérez-Jurado LA, Aznar-Laín G, Aneja A, Hancarova M, Bendova S, Schwarz M, Kremlikova Pourova R, Sedlacek Z, Keena BA, March ME, Hou C, O'Connor N, Bhoj EJ, Harr MH, Lemire G, Boycott KM, Towne M, Li M, Tarnopolsky M, Brady L, Parker MJ, Faghfoury H, Parsley LK, Agolini E, Dentici ML, Novelli A, Wright M, Palmquist R, Lai K, Scala M, Striano P, Iacomino M, Zara F, Cooper A, Maarup TJ, Byler M, Lebel RR, Balci TB, Louie R, Lyons M, Douglas J, Nowak C, Afenjar A, Hoyer J, Keren B, Maas SM, Motazacker MM, Martinez-Agosto JA, Rabani AM, McCormick EM, Falk MJ, Ruggiero SM, Helbig I, Møller RS, Tessarollo L, Tomassoni Ardori F, Palko ME, Hsieh TC, Krawitz PM, Ganapathi M, Gelb BD, Jobanputra V, Wilson A, Greally J, Jacquemont S, Jizi K, Bruel AL, Quelin C, Misra VK, Chick E, Romano C, Greco D, Arena A, Morleo M, Nigro V, Seyama R, Uchiyama Y, Matsumoto N, Taira R, Tashiro K, Sakai Y, Yigit G, Wollnik B, Wagner M, Kutsche B, Hurst AC, Thompson ML, Schmidt R, Randolph L, Spillmann RC, Shashi V, Higginbotham EJ, Cordeiro D, Carnevale A, Costain G, Khan T, Funalot B, Tran Mau-Them F, Fernandez Garcia Moya L, García-Miñaúr S, Osmond M, Chad L, Quercia N, Carrasco D, Li C, Sanchez-Valle A, Kelley M, Nizon M, Jensson BO, Sulem P, Stefansson K, Gorokhova S, Busa T, Rio M, Hadj Habdallah H, Lesieur-Sebellin M, Amiel J, Pingault V, Mercier S, Vincent M, Philippe C, Fatus-Fauconnier C, Friend K, Halligan RK, Biswas S, Rosser J, Shoubridge C, Corbett M, Barnett C, Gecz J, Leppig K, Slavotinek A, Marcelis C, Pfundt R, de Vries BB, van Slegtenhorst MA, Brooks AS, Cogne B, Rambaud T, Tümer Z, Zackai EH, Akizu N, Song Y, and Hakonarson H

Subjects
Humans, Gene Regulatory Networks, Mutation, Missense, RNA Splicing, RNA Splicing Factors genetics, Nuclear Proteins genetics, DNA Repair Enzymes genetics, Spliceosomes genetics, Neurodevelopmental Disorders genetics
Abstract

Pre-mRNA splicing is a highly coordinated process. While its dysregulation has been linked to neurological deficits, our understanding of the underlying molecular and cellular mechanisms remains limited. We implicated pathogenic variants in U2AF2 and PRPF19, encoding spliceosome subunits in neurodevelopmental disorders (NDDs), by identifying 46 unrelated individuals with 23 de novo U2AF2 missense variants (including 7 recurrent variants in 30 individuals) and 6 individuals with de novo PRPF19 variants. Eight U2AF2 variants dysregulated splicing of a model substrate. Neuritogenesis was reduced in human neurons differentiated from human pluripotent stem cells carrying two U2AF2 hyper-recurrent variants. Neural loss of function (LoF) of the Drosophila orthologs U2af50 and Prp19 led to lethality, abnormal mushroom body (MB) patterning, and social deficits, which were differentially rescued by wild-type and mutant U2AF2 or PRPF19. Transcriptome profiling revealed splicing substrates or effectors (including Rbfox1, a third splicing factor), which rescued MB defects in U2af50-deficient flies. Upon reanalysis of negative clinical exomes followed by data sharing, we further identified 6 patients with NDD who carried RBFOX1 missense variants which, by in vitro testing, showed LoF. Our study implicates 3 splicing factors as NDD-causative genes and establishes a genetic network with hierarchy underlying human brain development and function.

Published
2024
Full Text
View/download PDF

24. The best of both worlds: Blending cutting-edge research with clinical processes for a productive exome clinic.

Author

Sullivan JA, Spillmann RC, Schoch K, Walley N, Alkelai A, Stong N, Shea PR, Petrovski S, Jobanputra V, McConkie-Rosell A, and Shashi V

Subjects
Humans, Phenotype, Exome Sequencing, High-Throughput Nucleotide Sequencing, Exome genetics, Computational Biology
Abstract

Genomic medicine has been transformed by next-generation sequencing (NGS), inclusive of exome sequencing (ES) and genome sequencing (GS). Currently, ES is offered widely in clinical settings, with a less prevalent alternative model consisting of hybrid programs that incorporate research ES along with clinical patient workflows. We were among the earliest to implement a hybrid ES clinic, have provided diagnoses to 45% of probands, and have identified several novel candidate genes. Our program is enabled by a cost-effective investment by the health system and is unique in encompassing all the processes that have been variably included in other hybrid/clinical programs. These include careful patient selection, utilization of a phenotype-agnostic bioinformatics pipeline followed by manual curation of variants and phenotype integration by clinicians, close collaborations between the clinicians and the bioinformatician, pursuit of interesting variants, communication of results to patients in categories that are predicated upon the certainty of a diagnosis, and tracking changes in results over time and the underlying mechanisms for such changes. Due to its effectiveness, scalability to GS and its resource efficiency, specific elements of our paradigm can be incorporated into existing clinical settings, or the entire hybrid model can be implemented within health systems that have genomic medicine programs, to provide NGS in a scientifically rigorous, yet pragmatic setting., (© 2023 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2024
Full Text
View/download PDF

25. The landscape of reported VUS in multi-gene panel and genomic testing: Time for a change.

Author

Rehm HL, Alaimo JT, Aradhya S, Bayrak-Toydemir P, Best H, Brandon R, Buchan JG, Chao EC, Chen E, Clifford J, Cohen ASA, Conlin LK, Das S, Davis KW, Del Gaudio D, Del Viso F, DiVincenzo C, Eisenberg M, Guidugli L, Hammer MB, Harrison SM, Hatchell KE, Dyer LH, Hoang LU, Holt JM, Jobanputra V, Karbassi ID, Kearney HM, Kelly MA, Kelly JM, Kluge ML, Komala T, Kruszka P, Lau L, Lebo MS, Marshall CR, McKnight D, McWalter K, Meng Y, Nagan N, Neckelmann CS, Neerman N, Niu Z, Paolillo VK, Paolucci SA, Perry D, Pesaran T, Radtke K, Rasmussen KJ, Retterer K, Saunders CJ, Spiteri E, Stanley C, Szuto A, Taft RJ, Thiffault I, Thomas BC, Thomas-Wilson A, Thorpe E, Tidwell TJ, Towne MC, and Zouk H

Subjects
Humans, Genomics, Exome genetics, North America, Genetic Predisposition to Disease, Genetic Testing methods
Abstract

Purpose: Variants of uncertain significance (VUS) are a common result of diagnostic genetic testing and can be difficult to manage with potential misinterpretation and downstream costs, including time investment by clinicians. We investigated the rate of VUS reported on diagnostic testing via multi-gene panels (MGPs) and exome and genome sequencing (ES/GS) to measure the magnitude of uncertain results and explore ways to reduce their potentially detrimental impact., Methods: Rates of inconclusive results due to VUS were collected from over 1.5 million sequencing test results from 19 clinical laboratories in North America from 2020 to 2021., Results: We found a lower rate of inconclusive test results due to VUSs from ES/GS (22.5%) compared with MGPs (32.6%; P < .0001). For MGPs, the rate of inconclusive results correlated with panel size. The use of trios reduced inconclusive rates (18.9% vs 27.6%; P < .0001), whereas the use of GS compared with ES had no impact (22.2% vs 22.6%; P = ns)., Conclusion: The high rate of VUS observed in diagnostic MGP testing warrants examining current variant reporting practices. We propose several approaches to reduce reported VUS rates, while directing clinician resources toward important VUS follow-up., Competing Interests: Conflict of Interest All authors are or were employed by clinical laboratories offering genetic testing services, as indicated by their affiliations. Additional existing conflicts or those that were relevant at the time of data collection and publication include the following: Swaroop Aradhya, Elaine Chen, Kathryn E. Hatchell, and Dianalee McKnight - stockholders of Invitae Corp.; Christina DiVincenzo, Izabela D. Karbassi - stockholders of Quest Diagnostics; Kyle Retterer - past stockholder of Sema4 and Opko Health; Kyle W. Davis, Nir Neerman, and Christine Stanley - stockholders of Variantyx; Denise Perry, Ryan Taft, Erin Thorpe, and Brittany Thomas - stockholders of Illumina, Inc., (Copyright © 2023 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published
2023
Full Text
View/download PDF

26. Implementation of Rapid Genome Sequencing for Critically Ill Infants With Complex Congenital Heart Disease.

Author

Hays T, Hernan R, Disco M, Griffin EL, Goldshtrom N, Vargas D, Krishnamurthy G, Bomback M, Rehman AU, Wilson AT, Guha S, Phadke S, Okur V, Robinson D, Felice V, Abhyankar A, Jobanputra V, and Chung WK

Subjects
Infant, Newborn, Infant, Humans, Child, Preschool, Intensive Care Units, Neonatal, Critical Illness, Heart Defects, Congenital diagnosis, Heart Defects, Congenital genetics, Heart Defects, Congenital therapy
Abstract

Background: Rapid genome sequencing (rGS) has been shown to improve care of critically ill infants. Congenital heart disease (CHD) is a leading cause of infant mortality and is often caused by genetic disorders, yet the utility of rGS has not been prospectively studied in this population., Methods: We conducted a prospective evaluation of rGS to improve the care of infants with complex CHD in our cardiac neonatal intensive care unit., Results: In a cohort of 48 infants with complex CHD, rGS diagnosed 14 genetic disorders in 13 (27%) individuals and led to changes in clinical management in 8 (62%) cases with diagnostic results. These included 2 cases in whom genetic diagnoses helped avert intensive, futile interventions before cardiac neonatal intensive care unit discharge, and 3 cases in whom eye disease was diagnosed and treated in early childhood., Conclusions: Our study provides the first prospective evaluation of rGS for infants with complex CHD to our knowledge. We found that rGS diagnosed genetic disorders in 27% of cases and led to changes in management in 62% of cases with diagnostic results. Our model of care depended on coordination between neonatologists, cardiologists, surgeons, geneticists, and genetic counselors. These findings highlight the important role of rGS in CHD and demonstrate the need for expanded study of how to implement this resource to a broader population of infants with CHD., Competing Interests: Disclosures Dr Chung is on the Board of Directors of Prime Medicine.

Published
2023
Full Text
View/download PDF

27. Molecular diagnostic yield of genome sequencing versus targeted gene panel testing in racially and ethnically diverse pediatric patients.

Author

Abul-Husn NS, Marathe PN, Kelly NR, Bonini KE, Sebastin M, Odgis JA, Abhyankar A, Brown K, Di Biase M, Gallagher KM, Guha S, Ioele N, Okur V, Ramos MA, Rodriguez JE, Rehman AU, Thomas-Wilson A, Edelmann L, Zinberg RE, Diaz GA, Greally JM, Jobanputra V, Suckiel SA, Horowitz CR, Wasserstein MP, Kenny EE, and Gelb BD

Subjects
Humans, Child, Genetic Testing methods, Base Sequence, Chromosome Mapping, Genetic Predisposition to Disease, Pathology, Molecular
Abstract

Purpose: Adoption of genome sequencing (GS) as a first-line test requires evaluation of its diagnostic yield. We evaluated the GS and targeted gene panel (TGP) testing in diverse pediatric patients (probands) with suspected genetic conditions., Methods: Probands with neurologic, cardiac, or immunologic conditions were offered GS and TGP testing. Diagnostic yield was compared using a fully paired study design., Results: A total of 645 probands (median age 9 years) underwent genetic testing, and 113 (17.5%) received a molecular diagnosis. Among 642 probands with both GS and TGP testing, GS yielded 106 (16.5%) and TGPs yielded 52 (8.1%) diagnoses (P < .001). Yield was greater for GS vs TGPs in Hispanic/Latino(a) (17.2% vs 9.5%, P < .001) and White/European American (19.8% vs 7.9%, P < .001) but not in Black/African American (11.5% vs 7.7%, P = .22) population groups by self-report. A higher rate of inconclusive results was seen in the Black/African American (63.8%) vs White/European American (47.6%; P = .01) population group. Most causal copy number variants (17 of 19) and mosaic variants (6 of 8) were detected only by GS., Conclusion: GS may yield up to twice as many diagnoses in pediatric patients compared with TGP testing but not yet across all population groups., Competing Interests: Conflict of Interest Noura S. Abul-Husn is an employee and equity holder of 23andMe; serves as a scientic advisory board member for Allelica; received personal fees from Genentech, Allelica, and 23andMe; received research funding from Akcea; and was previously employed by Regeneron Pharmaceuticals. Eimear E. Kenny received personal fees from Illumina, 23andMe, Allelica, and Regeneron Pharmaceuticals; received research funding from Allelica; and serves as a scientific advisory board member for Encompass Bio, Foresite Labs, and Galateo Bio. All other authors declare no conflicts of interest., (Copyright © 2023 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published
2023
Full Text
View/download PDF

28. Identification of copy number variants with genome sequencing: Clinical experiences from the NYCKidSeq program.

Author

Bonini KE, Thomas-Wilson A, Marathe PN, Sebastin M, Odgis JA, Di Biase M, Kelly NR, Ramos MA, Insel BJ, Scarimbolo L, Rehman AU, Guha S, Okur V, Abhyankar A, Phadke S, Nava C, Gallagher KM, Elkhoury L, Edelmann L, Zinberg RE, Abul-Husn NS, Diaz GA, Greally JM, Suckiel SA, Horowitz CR, Kenny EE, Wasserstein M, Gelb BD, and Jobanputra V

Subjects
Humans, Child, Chromosome Mapping methods, Phenotype, Microarray Analysis, DNA Copy Number Variations genetics, Genetic Testing methods
Abstract

Copy number variations (CNVs) play a significant role in human disease. While chromosomal microarray has traditionally been the first-tier test for CNV detection, use of genome sequencing (GS) is increasing. We report the frequency of CNVs detected with GS in a diverse pediatric cohort from the NYCKidSeq program and highlight specific examples of its clinical impact. A total of 1052 children (0-21 years) with neurodevelopmental, cardiac, and/or immunodeficiency phenotypes received GS. Phenotype-driven analysis was used, resulting in 183 (17.4%) participants with a diagnostic result. CNVs accounted for 20.2% of participants with a diagnostic result (37/183) and ranged from 0.5 kb to 16 Mb. Of participants with a diagnostic result (n = 183) and phenotypes in more than one category, 5/17 (29.4%) were solved by a CNV finding, suggesting a high prevalence of diagnostic CNVs in participants with complex phenotypes. Thirteen participants with a diagnostic CNV (35.1%) had previously uninformative genetic testing, of which nine included a chromosomal microarray. This study demonstrates the benefits of GS for reliable detection of CNVs in a pediatric cohort with variable phenotypes., (© 2023 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2023
Full Text
View/download PDF

29. Implementation and Feasibility of Clinical Genome Sequencing Embedded Into the Outpatient Nephrology Care for Patients With Proteinuric Kidney Disease.

Author

Marasa M, Ahram DF, Rehman AU, Mitrotti A, Abhyankar A, Jain NG, Weng PL, Piva SE, Fernandez HE, Uy NS, Chatterjee D, Kil BH, Nestor JG, Felice V, Robinson D, Whyte D, Gharavi AG, Appel GB, Radhakrishnan J, Santoriello D, Bomback A, Lin F, D'Agati VD, Jobanputra V, and Sanna-Cherchi S

Abstract

Introduction: The diagnosis and management of proteinuric kidney diseases such as focal segmental glomerulosclerosis (FSGS) are challenging. Genetics holds the promise to improve clinical decision making for these diseases; however, it is often performed too late to enable timely clinical action and it is not implemented within routine outpatient nephrology visits., Methods: We sought to test the implementation and feasibility of clinical rapid genome sequencing (GS) in guiding decision making in patients with proteinuric kidney disease in real-time and embedded in the outpatient nephrology setting., Results: We enrolled 10 children or young adults with biopsy-proven FSGS (9 cases) or minimal change disease (1 case). The mean age at enrollment was 16.2 years (range 2-30). The workflow did not require referral to external genetics clinics but was conducted entirely during the nephrology standard-of-care appointments. The total turn-around-time from enrollment to return-of-results and clinical decision averaged 21.8 days (12.4 for GS), which is well within a time frame that allows clinically relevant treatment decisions. A monogenic or APOL1-related form of kidney disease was diagnosed in 5 of 10 patients. The genetic findings resulted in a rectified diagnosis in 6 patients. Both positive and negative GS findings determined a change in pharmacological treatment. In 3 patients, the results were instrumental for transplant evaluation, donor selection, and the immunosuppressive treatment. All patients and families received genetic counseling., Conclusion: Clinical GS is feasible and can be implemented in real-time in the outpatient care to help guiding clinical management. Additional studies are needed to confirm the cost-effectiveness and broader utility of clinical GS across the phenotypic and demographic spectrum of kidney diseases., (© 2023 International Society of Nephrology. Published by Elsevier Inc.)

Published
2023
Full Text
View/download PDF

30. Evidence-Based Assessment of Congenital Heart Disease Genes to Enable Returning Results in a Genomic Study.

Author

Griffin EL, Nees SN, Morton SU, Wynn J, Patel N, Jobanputra V, Robinson S, Kochav SM, Tao A, Andrews C, Cross N, Geva J, Lanzilotta K, Ritter A, Taillie E, Thompson A, Meyer C, Akers R, King EC, Cnota JF, Kim RW, Porter GA Jr, Brueckner M, Seidman CE, Shen Y, Gelb BD, Goldmuntz E, Newburger JW, Roberts AE, and Chung WK

Subjects
Adult, Child, Humans, Genetic Testing, Heart, Genomics, DNA Copy Number Variations, Heart Defects, Congenital diagnosis, Heart Defects, Congenital genetics
Abstract

Background: Congenital heart disease (CHD) is the most common major congenital anomaly and causes significant morbidity and mortality. Epidemiologic evidence supports a role of genetics in the development of CHD. Genetic diagnoses can inform prognosis and clinical management. However, genetic testing is not standardized among individuals with CHD. We sought to develop a list of validated CHD genes using established methods and to evaluate the process of returning genetic results to research participants in a large genomic study., Methods: Two-hundred ninety-five candidate CHD genes were evaluated using a ClinGen framework. Sequence and copy number variants involving genes in the CHD gene list were analyzed in Pediatric Cardiac Genomics Consortium participants. Pathogenic/likely pathogenic results were confirmed on a new sample in a clinical laboratory improvement amendments-certified laboratory and disclosed to eligible participants. Adult probands and parents of probands who received results were asked to complete a post-disclosure survey., Results: A total of 99 genes had a strong or definitive clinical validity classification. Diagnostic yields for copy number variants and exome sequencing were 1.8% and 3.8%, respectively. Thirty-one probands completed clinical laboratory improvement amendments-confirmation and received results. Participants who completed postdisclosure surveys reported high personal utility and no decision regret after receiving genetic results., Conclusions: The application of ClinGen criteria to CHD candidate genes yielded a list that can be used to interpret clinical genetic testing for CHD. Applying this gene list to one of the largest research cohorts of CHD participants provides a lower bound for the yield of genetic testing in CHD.

Published
2023
Full Text
View/download PDF

32. The TeleKidSeq pilot study: incorporating telehealth into clinical care of children from diverse backgrounds undergoing whole genome sequencing.

Author

Sebastin M, Odgis JA, Suckiel SA, Bonini KE, Di Biase M, Brown K, Marathe P, Kelly NR, Ramos MA, Rodriguez JE, Aguiñiga KL, Lopez J, Maria E, Rodriguez MA, Yelton NM, Cunningham-Rundles C, Gallagher K, McDonald TV, McGoldrick PE, Robinson M, Rubinstein A, Shulman LH, Wolf SM, Yozawitz E, Zinberg RE, Abul-Husn NS, Bauman LJ, Diaz GA, Ferket BS, Greally JM, Jobanputra V, Gelb BD, Horowitz CR, Kenny EE, and Wasserstein MP

Abstract

Background: The COVID-19 pandemic forced healthcare institutions and many clinical research programs to adopt telehealth modalities in order to mitigate viral spread. With the expanded use of telehealth, there is the potential to increase access to genomic medicine to medically underserved populations, yet little is known about how best to communicate genomic results via telehealth while also ensuring equitable access. NYCKidSeq, a multi-institutional clinical genomics research program in New York City, launched the TeleKidSeq pilot study to assess alternative forms of genomic communication and telehealth service delivery models with families from medically underserved populations., Methods: We aim to enroll 496 participants between 0 and 21 years old to receive clinical genome sequencing. These individuals have a neurologic, cardiovascular, and/or immunologic disease. Participants will be English- or Spanish-speaking and predominantly from underrepresented groups who receive care in the New York metropolitan area. Prior to enrollment, participants will be randomized to either genetic counseling via videoconferencing with screen-sharing or genetic counseling via videoconferencing without screen-sharing. Using surveys administered at baseline, results disclosure, and 6-months post-results disclosure, we will evaluate the impact of the use of screen-sharing on participant understanding, satisfaction, and uptake of medical recommendations, as well as the psychological and socioeconomic implications of obtaining genome sequencing. Clinical utility, cost, and diagnostic yield of genome sequencing will also be assessed., Discussion: The TeleKidSeq pilot study will contribute to innovations in communicating genomic test results to diverse populations through telehealth technology. In conjunction with NYCKidSeq, this work will inform best practices for the implementation of genomic medicine in diverse, English- and Spanish-speaking populations., (© 2023. The Author(s).)

Published
2023
Full Text
View/download PDF

33. Detection of mosaic variants using genome sequencing in a large pediatric cohort.

Author

Odgis JA, Gallagher KM, Rehman AU, Marathe PN, Bonini KE, Sebastin M, Di Biase M, Brown K, Kelly NR, Ramos MA, Thomas-Wilson A, Guha S, Okur V, Ganapathi M, Elkhoury L, Edelmann L, Zinberg RE, Abul-Husn NS, Diaz GA, Greally JM, Suckiel SA, Jobanputra V, Horowitz CR, Kenny EE, Wasserstein MP, and Gelb BD

Subjects
Humans, Alleles, Phenotype, Mosaicism, High-Throughput Nucleotide Sequencing, Proteins, Peptide Elongation Factor 1, GTPase-Activating Proteins, Potassium Channels, Sodium-Activated, Nerve Tissue Proteins, Spasms, Infantile
Abstract

The increased use of next-generation sequencing has expanded our understanding of the involvement and prevalence of mosaicism in genetic disorders. We describe a total of eleven cases: nine in which mosaic variants detected by genome sequencing (GS) and/or targeted gene panels (TGPs) were considered to be causative for the proband's phenotype, and two of apparent parental mosaicism. Variants were identified in the following genes: PHACTR1, SCN8A, KCNT1, CDKL5, NEXMIF, CUX1, TSC2, GABRB2, and SMARCB1. In addition, we identified one large duplication including three genes, UBE3A, GABRB3, and MAGEL2, and one large deletion including deletion of ARFGAP1, EEF1A2, CHRNA4, and KCNQ2. All patients were enrolled in the NYCKidSeq study, a research program studying the communication of genomic information in clinical care, as well as the clinical utility and diagnostic yield of GS for children with suspected genetic disorders in diverse populations in New York City. We observed variability in the correlation between reported variant allele fraction and the severity of the patient's phenotype, although we were not able to determine the mosaicism percentage in clinically relevant tissue(s). Although our study was not sufficiently powered to assess differences in mosaicism detection between the two testing modalities, we saw a trend toward better detection by GS as compared with TGP testing. This case series supports the importance of mosaicism in childhood-onset genetic conditions and informs guidelines for laboratory and clinical interpretation of mosaic variants detected by GS., (© 2022 Wiley Periodicals LLC.)

Published
2023
Full Text
View/download PDF

34. Genetic insights into childhood-onset schizophrenia: The yield of clinical exome sequencing.

Author

Alkelai A, Greenbaum L, Shohat S, Povysil G, Malakar A, Ren Z, Motelow JE, Schechter T, Draiman B, Chitrit-Raveh E, Hughes D, Jobanputra V, Shifman S, Goldstein DB, and Kohn Y

Subjects
Humans, Child, Exome Sequencing, Family, Phenotype, Genetic Predisposition to Disease, Schizophrenia, Childhood, Schizophrenia genetics
Abstract

Childhood-onset schizophrenia (COS) is a rare form of schizophrenia with an onset prior to 13 years of age. Although genetic factors play a role in COS etiology, only a few causal variants have been reported to date. This study presents a diagnostic exome sequencing (ES) in 37 Israeli Jewish families with a proband diagnosed with COS. By implementing a trio/duo ES approach and applying a well-established diagnostic pipeline, we detected clinically significant variants in 7 probands (19 %). These single nucleotide variants and indels were mostly inherited. The implicated genes were ANKRD11, GRIA2, CHD2, CLCN3, CLTC, IGF1R and MICU1. In a secondary analysis that compared COS patients to 4721 healthy controls, we observed that patients had a significant enrichment of rare loss of function (LoF) variants in LoF intolerant genes associated with developmental diseases. Taken together, ES could be considered as a valuable tool in the genetic workup for COS patients., Competing Interests: Declaration of competing interest D.B.G. reports equity holdings in precision medicine companies (Q State – Pairnomix, Praxis Therapeutics, Apostle Inc., Actio Biosciences) and consultancy payments from Gilead Sciences, AstraZeneca, and GoldFinch Bio. A.A. is currently a full-time employee at the Regeneron Genetics Center and receives salary and stock options as compensation. All other authors have no conflict of interest to declare., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2023
Full Text
View/download PDF

35. A novel biallelic loss-of-function variant in DAND5 causes heterotaxy syndrome.

Author

Ganapathi M, Buchovecky CM, Cristo F, Ahimaz P, Ruzal-Shapiro C, Wou K, Inácio JM, Iglesias A, Belo JA, and Jobanputra V

Subjects
Humans, Heterozygote, Mutation, Missense, Intercellular Signaling Peptides and Proteins genetics, Heterotaxy Syndrome genetics
Abstract

The majority of heterotaxy cases do not obtain a molecular diagnosis, although pathogenic variants in more than 50 genes are known to cause heterotaxy. A heterozygous missense variant in DAND5 , a nodal inhibitor, which functions in early development for establishment of right-left patterning, has been implicated in heterotaxy. Recently, the first case was reported of a DAND5 biallelic loss-of-function (LoF) variant in an individual with heterotaxy. Here, we describe a second unrelated individual with heterotaxy syndrome and a homozygous frameshift variant in DAND5 (NM&#95;152654.2:c.197del [p.Leu66ArgfsTer22]). Using an in vitro assay, we demonstrate that the DAND5 c.197del variant is unable to inhibit nodal signaling when compared with the wild-type expression construct. This work strengthens the genetic and functional evidence for biallelic LoF variants in DAND5 causing an autosomal recessive heterotaxy syndrome., (© 2022 Ganapathi et al.; Published by Cold Spring Harbor Laboratory Press.)

Published
2022
Full Text
View/download PDF

36. Implementation of Whole-Genome and Transcriptome Sequencing Into Clinical Cancer Care.

Author

Cuppen E, Elemento O, Rosenquist R, Nikic S, IJzerman M, Zaleski ID, Frederix G, Levin LÅ, Mullighan CG, Buettner R, Pugh TJ, Grimmond S, Caldas C, Andre F, Custers I, Campo E, van Snellenberg H, Schuh A, Nakagawa H, von Kalle C, Haferlach T, Fröhling S, and Jobanputra V

Subjects
Humans, Neoplasms diagnosis
Abstract

Purpose: The combination of whole-genome and transcriptome sequencing (WGTS) is expected to transform diagnosis and treatment for patients with cancer. WGTS is a comprehensive precision diagnostic test that is starting to replace the standard of care for oncology molecular testing in health care systems around the world; however, the implementation and widescale adoption of this best-in-class testing is lacking., Methods: Here, we address the barriers in integrating WGTS for cancer diagnostics and treatment selection and answer questions regarding utility in different cancer types, cost-effectiveness and affordability, and other practical considerations for WGTS implementation., Results: We review the current studies implementing WGTS in health care systems and provide a synopsis of the clinical evidence and insights into practical considerations for WGTS implementation. We reflect on regulatory, costs, reimbursement, and incidental findings aspects of this test., Conclusion: WGTS is an appropriate comprehensive clinical test for many tumor types and can replace multiple, cascade testing approaches currently performed. Decreasing sequencing cost, increasing number of clinically relevant aberrations and discovery of more complex biomarkers of treatment response, should pave the way for health care systems and laboratories in implementing WGTS into clinical practice, to transform diagnosis and treatment for patients with cancer., Competing Interests: Edwin CuppenConsulting or Advisory Role: Illumina (Inst), InteRNATravel, Accommodations, Expenses: Illumina Olivier ElementoStock and Other Ownership Interests: Volastra Therapeutics, Owkin, OneThree Biotech Richard RosenquistHonoraria: AbbVie, Illumina, Roche, Janssen, AstraZenecaConsulting or Advisory Role: Illumina, AbbVieTravel, Accommodations, Expenses: Illumina Svetlana NikicEmployment: IlluminaStock and Other Ownership Interests: Illumina Maarten IJzermanHonoraria: RTI Health Solutions, IlluminaConsulting or Advisory Role: Creativ-Ceutical, Illumina (Inst)Research Funding: Illumina (Inst)Travel, Accommodations, Expenses: Illumina (Inst) Isabelle Durand ZaleskiHonoraria: Abbott Laboratories, BMS, MSD Oncology, Pfizer, IlluminaConsulting or Advisory Role: BMS, MSD Oncology, Pfizer Geert FrederixHonoraria: Illumina (Inst)Consulting or Advisory Role: Illumina (Inst) Lars-Åke LevinEmployment: JanssenStock and Other Ownership Interests: AstraZenecaResearch Funding: Boehringer Ingelheim (Inst), Janssen (Inst) Charles G. MullighanStock and Other Ownership Interests: AmgenHonoraria: Amgen, IlluminaConsulting or Advisory Role: Illumina, Faze, Beam TherapeuticsSpeakers' Bureau: Amgen, PfizerResearch Funding: Loxo, Pfizer, AbbViePatents, Royalties, Other Intellectual Property: Inventor on a pending patent application related to gene-expression signatures for detection of underlying Philadelphia chromosome “like events and therapeutic targeting in leukemia (PCT/US2012/069228), WO 2021/022076 A1. This Patent Highlight shows representative PROTAC compounds bound to JAK2, where ruxolitinib and baricitinib bind to the human JAK2 JH1. Furthermore, representative data illustrate protein degradation, cytotoxicity, and effect of the JAKSTAT signaling pathway of the PROTAC compounds in MHHCALL-4 cells, Marcus Fisher, Fatemeh Keramatnia, Kevin Mcgowan, Jaeki Min, Gisele A. Nishiguchi, Jeanine Price, Zoran Rankovic, Das Sourav, Charles G. Mullighan, Yunchao Chang 2021 Substituted N-(2-(2,6-Dioxopiperidin-3-YL)-1,3-Dioxoisoindolin-5-YL)Arylsulfonamide Analogs as Modulators of Cereblon Protein, Application No: PCT/US2021/051648 Filed: September 23, 2021. Patent pending (Inst)Travel, Accommodations, Expenses: Amgen, Illumina Reinhard BuettnerStock and Other Ownership Interests: Gnothis IncHonoraria: AstraZeneca, AbbVie, Bayer, Bristol Myers Squibb, Boehringer Ingelheim, Merck Serono, MSD, Novartis, Qiagen, Pfizer, Roche, IlluminaResearch Funding: Roche (Inst) Trevor J. PughHonoraria: Merck, AstraZeneca, Illumina, PACT PharmaConsulting or Advisory Role: Chrysalis Biomedical Advisors, Axiom Healthcare Strategies, Canadian Pension Plan Investment BoardResearch Funding: RochePatents, Royalties, Other Intellectual Property: Hybrid-capture sequencing for dete rmining immune cell clonality Carlos CaldasConsulting or Advisory Role: AstraZeneca/MedImmune, IlluminaResearch Funding: AstraZeneca (Inst), Genentech/Roche (Inst), Servier (Inst) Fabrice AndreStock and Other Ownership Interests: PEGASCYConsulting or Advisory Role: Guardant Health (Inst), MedImmune (Inst), Gilead Sciences (Inst), Relay therapeutics (Inst)Research Funding: AstraZeneca (Inst), Novartis (Inst), Pfizer (Inst), Lilly (Inst), Roche (Inst), Daiichi (Inst)Travel, Accommodations, Expenses: Novartis, Roche, GlaxoSmithKline, AstraZeneca Ilse CustersHonoraria: IlluminaTravel, Accommodations, Expenses: Illumina Elias CampoHonoraria: EUSA Pharma, AstraZeneca, TakedaConsulting or Advisory Role: Illumina, AbbVieResearch Funding: AstraZenecaPatents, Royalties, Other Intellectual Property: Author on a patent licensed to NanoStrig Technologies, Author in the protectedt bioinformatic IgCaller pipeline Hans van SnellenbergResearch Funding: Illumina (Inst) Anna SchuhStock and Other Ownership Interests: Illumina, SERENOxConsulting or Advisory Role: AbbVie, Roche, Janssen, AstraZenecaResearch Funding: Johnson & Johnson, Illumina (Inst), Oxford Nanopore Technologies (Inst)Travel, Accommodations, Expenses: AbbVie, Janssen Oncology Christof von KalleStock and Other Ownership Interests: GeneWerkConsulting or Advisory Role: Roche/Genentech, Novartis, PfizerPatents, Royalties, Other Intellectual Property: Patent applications in molecular diagnostics Torsten HaferlachEmployment: MLL Munich Leukemia LaboratoryLeadership: MLL Munich Leukemia LaboratoryConsulting or Advisory Role: Illumina Stefan FröhlingHonoraria: PharmaMar, Roche, Lilly, AmgenConsulting or Advisory Role: Bayer, Illumina, RocheResearch Funding: AstraZeneca (Inst), PharmaMar (Inst), Pfizer (Inst), Roche (Inst)Travel, Accommodations, Expenses: PharmaMar, Roche, Lilly, Amgen Vaidehi JobanputraHonoraria: IlluminaNo other potential conflicts of interest were reported.

Published
2022
Full Text
View/download PDF

37. Analytical demands to use whole-genome sequencing in precision oncology.

Author

Meggendorfer M, Jobanputra V, Wrzeszczynski KO, Roepman P, de Bruijn E, Cuppen E, Buttner R, Caldas C, Grimmond S, Mullighan CG, Elemento O, Rosenquist R, Schuh A, and Haferlach T

Subjects
Computational Biology, Humans, Medical Oncology, Precision Medicine, Whole Genome Sequencing methods, Neoplasms diagnosis, Neoplasms genetics, Neoplasms therapy
Abstract

Interrogating the tumor genome in its entirety by whole-genome sequencing (WGS) offers an unprecedented insight into the biology and pathogenesis of cancer, with potential impact on diagnostics, prognostication and therapy selection. WGS is able to detect sequence as well as structural variants and thereby combines central domains of cytogenetics and molecular genetics. Given the potential of WGS in directing targeted therapeutics and clinical decision-making, we envision a gradual transition of the method from research to clinical routine. This review is one out of three within this issue aimed at facilitating this effort, by discussing in-depth analytical validation, clinical interpretation and clinical utility of WGS. The review highlights the requirements for implementing, validating and maintaining a clinical WGS pipeline to obtain high-quality patient-specific data in accordance with the local regulatory landscape. Every step of the WGS pipeline, which includes DNA extraction, library preparation, sequencing, bioinformatics analysis, and data storage, is considered with respect to its logistics, necessities, potential pitfalls, and the required quality management. WGS is likely to drive clinical diagnostics and patient care forward, if requirements and challenges of the technique are recognized and met., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2022
Full Text
View/download PDF

38. Clinical utility of whole-genome sequencing in precision oncology.

Author

Rosenquist R, Cuppen E, Buettner R, Caldas C, Dreau H, Elemento O, Frederix G, Grimmond S, Haferlach T, Jobanputra V, Meggendorfer M, Mullighan CG, Wordsworth S, and Schuh A

Subjects
Genomics, High-Throughput Nucleotide Sequencing, Humans, Medical Oncology, Precision Medicine, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Neoplasms diagnosis, Neoplasms drug therapy, Neoplasms genetics
Abstract

Precision diagnostics is one of the two pillars of precision medicine. Sequencing efforts in the past decade have firmly established cancer as a primarily genetically driven disease. This concept is supported by therapeutic successes aimed at particular pathways that are perturbed by specific driver mutations in protein-coding domains and reflected in three recent FDA tissue agnostic cancer drug approvals. In addition, there is increasing evidence from studies that interrogate the entire genome by whole-genome sequencing that acquired global and complex genomic aberrations including those in non-coding regions of the genome might also reflect clinical outcome. After addressing technical, logistical, financial and ethical challenges, national initiatives now aim to introduce clinical whole-genome sequencing into real-world diagnostics as a rational and potentially cost-effective tool for response prediction in cancer and to identify patients who would benefit most from 'expensive' targeted therapies and recruitment into clinical trials. However, so far, this has not been accompanied by a systematic and prospective evaluation of the clinical utility of whole-genome sequencing within clinical trials of uniformly treated patients of defined clinical outcome. This approach would also greatly facilitate novel predictive biomarker discovery and validation, ultimately reducing size and duration of clinical trials and cost of drug development. This manuscript is the third in a series of three to review and critically appraise the potential and challenges of clinical whole-genome sequencing in solid tumors and hematological malignancies., (Copyright © 2021. Published by Elsevier Ltd.)

Published
2022
Full Text
View/download PDF

39. Clinical interpretation of whole-genome and whole-transcriptome sequencing for precision oncology.

Author

Jobanputra V, Wrzeszczynski KO, Buttner R, Caldas C, Cuppen E, Grimmond S, Haferlach T, Mullighan C, Schuh A, and Elemento O

Subjects
Genome, High-Throughput Nucleotide Sequencing methods, Humans, Medical Oncology, Mutation, Precision Medicine methods, Transcriptome, Neoplasms diagnosis, Neoplasms genetics, Neoplasms therapy
Abstract

Whole-genome sequencing either alone or in combination with whole-transcriptome sequencing has started to be used to analyze clinical tumor samples to improve diagnosis, provide risk stratification, and select patient-specific therapies. Compared with current genomic testing strategies, largely focused on small number of genes tested individually or targeted panels, whole-genome and transcriptome sequencing (WGTS) provides novel opportunities to identify and report a potentially much larger number of actionable alterations with diagnostic, prognostic, and/or predictive impact. Such alterations include point mutations, indels, copy- number aberrations and structural variants, but also germline variants, fusion genes, noncoding alterations and mutational signatures. Nevertheless, these comprehensive tests are accompanied by many challenges ranging from the extent and diversity of sequence alterations detected by these methods to the complexity and limited existing standardization in interpreting them. We describe the challenges of WGTS interpretation and the opportunities with comprehensive genomic testing., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2022
Full Text
View/download PDF

41. Case Report: Prenatal Identification of a De Novo Mosaic Neocentric Marker Resulting in 13q31.1→qter Tetrasomy in a Mildly Affected Girl.

Author

Dharmadhikari AV, Pereira EM, Andrews CC, Macera M, Harkavy N, Wapner R, Jobanputra V, Levy B, Ganapathi M, and Liao J

Abstract

Partial tetrasomy of distal 13q has a reported association with a variable phenotype including microphthalmia, ear abnormalities, hypotelorism, facial dysmorphisms, urogenital defects, pigmentation and skin defects, and severe learning difficulties. A wide range of mosaicism has been reported, which may, to some extent, account for the variable spectrum of observed phenotypes. We report here a pregnancy conceived using intrauterine insemination in a 32-year-old female with a history of infertility. Non-invasive prenatal screening (NIPS) was performed in the first trimester which reported an increased risk for trisomy 13. Follow-up cytogenetic workup using chorionic villus sampling (CVS) and amniotic fluid samples showed a mosaic karyotype with a small supernumerary marker chromosome (sSMC). Chromosomal microarray analysis (CMA) identified a mosaic 31.34 Mb terminal gain on chr13q31.1q34 showing the likely origin of the sSMC to distal chromosome 13q. Follow-up metaphase FISH testing suggested an inverted duplication rearrangement involving 13q31q34 in the marker chromosome and the presence of a neocentromere. At 21 months of age, the proband has a history of gross motor delay, hypotonia, left microphthalmia, strabismus, congenital anomaly of the right optic nerve, hemangiomas, and a tethered spinal cord. Postnatal chromosome analyses in buccal, peripheral blood, and spinal cord ligament tissues were consistent with the previous amniocentesis and CVS findings, and the degree of mosaicism varied from 25 to 80%. It is often challenging to pinpoint the chromosomal identity of sSMCs using banding cytogenetics. A combination of low-pass genome sequencing of cell-free DNA, chromosomal microarray, and FISH enabled the identification of the precise chromosomal rearrangement in this patient. This study adds to the growing list of clinically identified neocentric marker chromosomes and is the first described instance of partial tetrasomy 13q31q34 identified in a mosaic state prenatally. Since NIPS is now being routinely performed along with invasive testing for advanced maternal age, an increased prenatal detection rate for mosaic sSMCs in otherwise normal pregnancies is expected. Future studies investigating how neocentromeres mediate gene expression changes could help identify potential epigenetic targets as treatment options to rescue or reverse the phenotypes seen in patients with congenital neocentromeres., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Dharmadhikari, Pereira, Andrews, Macera, Harkavy, Wapner, Jobanputra, Levy, Ganapathi and Liao.)

Published
2022
Full Text
View/download PDF

42. Expanding the phenotype of ATP6AP1 deficiency.

Author

Barua S, Berger S, Pereira EM, and Jobanputra V

Subjects
Humans, Male, Phenotype, Congenital Disorders of Glycosylation genetics, Hydrocephalus, Hypospadias, Liver Diseases, Pectus Carinatum, Vacuolar Proton-Translocating ATPases genetics
Abstract

Vacuolar ATPases (V-ATPases) are large multisubunit proton pumps conserved among all eukaryotic cells that are involved in diverse functions including acidification of membrane-bound intracellular compartments. The ATP6AP1 gene encodes an accessory subunit of the vacuolar (V)-ATPase protein pump. Pathogenic variants in ATP6AP1 have been described in association with a congenital disorder of glycosylation (CDG), which are highly variable, but often characterized by immunodeficiency, hepatopathy, and neurologic manifestations. Although the most striking and common clinical feature is hepatopathy, the phenotypic and genotypic spectrum of ATP6AP1-CDG continues to expand. Here, we report identical twins who presented with acute liver failure and jaundice. Prenatal features included cystic hygroma, atrial septal defect, and ventriculomegaly. Postnatal features included pectus carinatum, connective tissue abnormalities, and hypospadias. Whole-exome sequencing (WES) revealed a novel de novo in-frame deletion in the ATP6AP1 gene (c.230&#95;232delACT;p.Tyr77del). Although both twins have the commonly reported clinical feature of hepatopathy seen in other individuals with ATP6AP1-CDG -related disorder, they do not have neurological sequelae. This report expands the phenotypic spectrum of ATP6AP1-CDG- related disorder with both probands exhibiting unique prenatal and postnatal features, including fetal ventriculomegaly, umbilical hernia, pectus carinatum, micropenis, and hypospadias. Furthermore, this case affirms that neurological features described in the initial case series on ATP6AP1-CDG do not appear to be central, whereas the prenatal and connective tissue manifestations may be more common than previously thought. This emphasizes the importance of long-term clinical follow-up and variant interpretation using current updated recommendations., (© 2022 Barua et al.; Published by Cold Spring Harbor Laboratory Press.)

Published
2022
Full Text
View/download PDF

43. Clinical exome sequencing for inherited retinal degenerations at a tertiary care center.

Author

Ganapathi M, Thomas-Wilson A, Buchovecky C, Dharmadhikari A, Barua S, Lee W, Ruan MZC, Soucy M, Ragi S, Tanaka J, Clark LN, Naini AB, Liao J, Mansukhani M, Tsang S, and Jobanputra V

Subjects
ATP-Binding Cassette Transporters genetics, Cell Cycle Proteins, Cyclic Nucleotide-Gated Cation Channels genetics, DNA Mutational Analysis, Exome genetics, Eye Proteins genetics, Humans, Mutation, Pedigree, Phenotype, Retrospective Studies, Tertiary Care Centers, Cone-Rod Dystrophies diagnosis, Cone-Rod Dystrophies genetics, Retinal Dystrophies diagnosis, Retinal Dystrophies genetics
Abstract

Inherited retinal degenerations are clinically and genetically heterogeneous diseases characterized by progressive deterioration of vision. This study aimed at assessing the diagnostic yield of exome sequencing (ES) for an unselected cohort of individuals with hereditary retinal disorders. It is a retrospective study of 357 unrelated affected individuals, diagnosed with retinal disorders who underwent clinical ES. Variants from ES were filtered, prioritized, and classified using the ACMG recommendations. Clinical diagnosis of the individuals included rod-cone dystrophy (60%), macular dystrophy (20%), cone-rod dystrophy (9%), cone dystrophy (4%) and other phenotypes (7%). Majority of the cases (74%) were singletons and 6% were trios. A confirmed molecular diagnosis was obtained in 24% of cases. In 6% of cases, two pathogenic variants were identified with phase unknown, bringing the potential molecular diagnostic rate to ~ 30%. Including the variants of uncertain significance (VUS), potentially significant findings were reported in 57% of cases. Among cases with a confirmed molecular diagnosis, variants in EYS, ABCA4, USH2A, KIZ, CERKL, DHDDS, PROM1, NR2E3, CNGB1, ABCC6, PRPH2, RHO, PRPF31, PRPF8, SNRNP200, RP1, CHM, RPGR were identified in more than one affected individual. Our results support the utility of clinical ES in the diagnosis of genetically heterogeneous retinal disorders., (© 2022. The Author(s).)

Published
2022
Full Text
View/download PDF

44. Best practices for the interpretation and reporting of clinical whole genome sequencing.

Author

Austin-Tse CA, Jobanputra V, Perry DL, Bick D, Taft RJ, Venner E, Gibbs RA, Young T, Barnett S, Belmont JW, Boczek N, Chowdhury S, Ellsworth KA, Guha S, Kulkarni S, Marcou C, Meng L, Murdock DR, Rehman AU, Spiteri E, Thomas-Wilson A, Kearney HM, and Rehm HL

Abstract

Whole genome sequencing (WGS) shows promise as a first-tier diagnostic test for patients with rare genetic disorders. However, standards addressing the definition and deployment practice of a best-in-class test are lacking. To address these gaps, the Medical Genome Initiative, a consortium of leading health care and research organizations in the US and Canada, was formed to expand access to high quality clinical WGS by convening experts and publishing best practices. Here, we present best practice recommendations for the interpretation and reporting of clinical diagnostic WGS, including discussion of challenges and emerging approaches that will be critical to harness the full potential of this comprehensive test., (© 2022. The Author(s).)

Published
2022
Full Text
View/download PDF

45. Whole-exome sequencing detects PYGM variants in two adults with McArdle disease.

Author

Thomas-Wilson A, Dharmadhikari AV, Heymann JJ, Jobanputra V, DiMauro S, Hirano M, Naini AB, and Ganapathi M

Subjects
Adolescent, Adult, Genotype, Homozygote, Humans, Exome Sequencing, Glycogen Phosphorylase, Muscle Form genetics, Glycogen Storage Disease Type V diagnosis, Glycogen Storage Disease Type V genetics
Abstract

McArdle disease is a debilitating glycogen storage disease with typical onset in childhood. Here, we describe a former competitive athlete with early adult-onset McArdle disease and a septuagenarian with a history of exercise intolerance since adolescence who was evaluated for proximal muscle weakness. Exome sequencing identified biallelic variants in the PYGM gene for both cases. The former athlete has the common, well-known pathogenic variant p.(Arg50Ter) in trans with a novel missense variant, p.(Asp694Glu). The second individual has a previously described homozygous missense variant, p.(Arg771Gln). Here, we describe the clinical course, enzyme-testing results using muscle tissue, and molecular findings for the individuals and add to the knowledge of the genotypic spectrum of this disorder., (© 2022 Thomas-Wilson et al.; Published by Cold Spring Harbor Laboratory Press.)

Published
2022
Full Text
View/download PDF

46. 3q27.1 microdeletion causes prenatal and postnatal growth restriction and neurodevelopmental abnormalities.

Author

Barua S, Pereira EM, Jobanputra V, Anyane-Yeboa K, Levy B, and Liao J

Abstract

Background: Overlapping microdeletions of chromosome 3q26-3q28 have been reported in eight individuals. The common phenotype observed in these individuals include intrauterine growth restriction, short stature, microcephaly, feeding difficulties, facial dysmorphisms, limb abnormalities and developmental delay. The most striking clinical features shared among all reported cases is prenatal and postnatal growth restriction and neurodevelopmental abnormalities., Case Presentation: We identified two additional individuals with overlapping deletions and shared clinical features by high-resolution SNP oligonucleotide microarray, and refined the smallest region of overlap (SRO) to a 1.2 Mb genomic location in chromosome 3q27.1 by reviewing and comparing all published cases. We evaluated the SRO using ACMG/ClinGen current recommendations for classifying copy number variants (CNVs), and discussed the contribution of the genes deleted in the SRO to the abnormal phenotype observed in these individuals., Conclusions: This study provides further evidence supporting the existence of a novel 3q27.1 microdeletion syndrome and suggests that haploinsufficiency of potential candidate genes, DVL3, AP2M1, and PARL in the SRO in 3q27.1 is responsible for the phenotype., (© 2022. The Author(s).)

Published
2022
Full Text
View/download PDF

47. The benefit of diagnostic whole genome sequencing in schizophrenia and other psychotic disorders.

Author

Alkelai A, Greenbaum L, Docherty AR, Shabalin AA, Povysil G, Malakar A, Hughes D, Delaney SL, Peabody EP, McNamara J, Gelfman S, Baugh EH, Zoghbi AW, Harms MB, Hwang HS, Grossman-Jonish A, Aggarwal V, Heinzen EL, Jobanputra V, Pulver AE, Lerer B, and Goldstein DB

Subjects
Genetic Predisposition to Disease genetics, Humans, Multifactorial Inheritance genetics, Whole Genome Sequencing, Psychotic Disorders genetics, Psychotic Disorders psychology, Schizophrenia diagnosis, Schizophrenia genetics
Abstract

Schizophrenia has a multifactorial etiology, involving a polygenic architecture. The potential benefit of whole genome sequencing (WGS) in schizophrenia and other psychotic disorders is not well studied. We investigated the yield of clinical WGS analysis in 251 families with a proband diagnosed with schizophrenia (N = 190), schizoaffective disorder (N = 49), or other conditions involving psychosis (N = 48). Participants were recruited in Israel and USA, mainly of Jewish, Arab, and other European ancestries. Trio (parents and proband) WGS was performed for 228 families (90.8%); in the other families, WGS included parents and at least two affected siblings. In the secondary analyses, we evaluated the contribution of rare variant enrichment in particular gene sets, and calculated polygenic risk score (PRS) for schizophrenia. For the primary outcome, diagnostic rate was 6.4%; we found clinically significant, single nucleotide variants (SNVs) or small insertions or deletions (indels) in 14 probands (5.6%), and copy number variants (CNVs) in 2 (0.8%). Significant enrichment of rare loss-of-function variants was observed in a gene set of top schizophrenia candidate genes in affected individuals, compared with population controls (N = 6,840). The PRS for schizophrenia was significantly increased in the affected individuals group, compared to their unaffected relatives. Last, we were also able to provide pharmacogenomics information based on CYP2D6 genotype data for most participants, and determine their antipsychotic metabolizer status. In conclusion, our findings suggest that WGS may have a role in the setting of both research and genetic counseling for individuals with schizophrenia and other psychotic disorders and their families., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2022
Full Text
View/download PDF

48. RNA Sequencing of Primary Cutaneous and Breast-Implant Associated Anaplastic Large Cell Lymphomas Reveals Infrequent Fusion Transcripts and Upregulation of PI3K/AKT Signaling via Neurotrophin Pathway Genes.

Author

Di Napoli A, Vacca D, Bertolazzi G, Lopez G, Piane M, Germani A, Rogges E, Pepe G, Santanelli Di Pompeo F, Salgarello M, Jobanputra V, Hsiao S, Wrzeszczynski KO, Berti E, and Bhagat G

Abstract

Cutaneous and breast implant-associated anaplastic large-cell lymphomas (cALCLs and BI-ALCLs) are two localized forms of peripheral T-cell lymphomas (PTCLs) that are recognized as distinct entities within the family of ALCL. JAK-STAT signaling is a common feature of all ALCL subtypes, whereas DUSP22/IRF4, TP63 and TYK gene rearrangements have been reported in a proportion of ALK-negative sALCLs and cALCLs. Both cALCLs and BI-ALCLs differ in their gene expression profiles compared to PTCLs; however, a direct comparison of the genomic alterations and transcriptomes of these two entities is lacking. By performing RNA sequencing of 1385 genes (TruSight RNA Pan-Cancer, Illumina) in 12 cALCLs, 10 BI-ALCLs and two anaplastic lymphoma kinase (ALK)-positive sALCLs, we identified the previously reported TYK2-NPM1 fusion in 1 cALCL (1/12, 8%), and four new intrachromosomal gene fusions in 2 BI-ALCLs (2/10, 20%) involving genes on chromosome 1 (EPS15-GNG12 and ARNT-GOLPH3L) and on chromosome 17 (MYO18A-GIT1 and NF1-GOSR1). One of the two BI-ALCL samples showed a complex karyotype, raising the possibility that genomic instability may be responsible for intra-chromosomal fusions in BI-ALCL. Moreover, transcriptional analysis revealed similar upregulation of the PI3K/Akt pathway, associated with enrichment in the expression of neurotrophin signaling genes, which was more conspicuous in BI-ALCL, as well as differences, i.e., over-expression of genes involved in the RNA polymerase II transcription program in BI-ALCL and of the RNA splicing/processing program in cALCL.

Published
2021
Full Text
View/download PDF

49. Embryonic lethal genetic variants and chromosomally normal pregnancy loss.

Author

Kline J, Vardarajan B, Abhyankar A, Kytömaa S, Levin B, Sobreira N, Tang A, Thomas-Wilson A, Zhang R, and Jobanputra V

Subjects
Abortion, Spontaneous diagnosis, Case-Control Studies, Chromosomal Proteins, Non-Histone genetics, DNA Mutational Analysis, Female, Fibrillin-2 genetics, Humans, Karyotype, Karyotyping, Pregnancy, Risk Assessment, Risk Factors, Tissue Inhibitor of Metalloproteinase-2 genetics, Exome Sequencing, Abortion, Spontaneous genetics, Chromosomes, Human, Loss of Function Mutation, Mutation, Missense
Abstract

Objective: To examine whether rare damaging genetic variants are associated with chromosomally normal pregnancy loss and estimate the magnitude of the association., Design: Case-control., Setting: Cases were derived from a consecutive series of karyotyped losses at one New Jersey hospital. Controls were derived from the National Database for Autism Research., Patient(s): Cases comprised 19 chromosomally normal loss conceptus-parent trios. Controls comprised 547 unaffected siblings of autism case-parent trios., Intervention(s): None., Main Outcome Measure(s): The rate of damaging variants in the exome (loss of function and missense-damaging) and the proportions of probands with at least one such variant among cases vs. controls., Results: The proportions of probands with at least one rare damaging variant were 36.8% among cases and 22.9% among controls (odds ratio, 2.0; 99% confidence interval, 0.5-7.3). No case had a variant in a known fetal anomaly gene. The proportion with variants in possibly embryonic lethal genes increased in case probands (odds ratio, 14.5; 99% confidence interval, 1.5-89.7); variants occurred in BAZ1A, FBN2, and TIMP2., Conclusion(s): Rare genetic variants in the conceptus may be a cause of chromosomally normal pregnancy loss. A larger sample is needed to estimate the magnitude of the association with precision and identify relevant biologic pathways., (Copyright © 2021 American Society for Reproductive Medicine. Published by Elsevier Inc. All rights reserved.)

Published
2021
Full Text
View/download PDF

50. Metastatic pediatric sclerosing epithelioid fibrosarcoma.

Author

Woods AD, Purohit R, Mitchell LC, Collier JR, Collier KA, Lathara M, Learned K, Vaske O, Geiger H, Wrzeszczynski KO, Jobanputra V, Srinivasa G, Rudzinski ER, Whelan K, Beierle E, Spunt SL, Keller C, and Wadhwa A

Subjects
Biomarkers, Tumor, Child, Preschool, Gene Fusion, Gene Rearrangement, Humans, Male, Fibrosarcoma genetics, Soft Tissue Neoplasms genetics
Abstract

Sclerosing epithelioid fibrosarcoma (SEF) is a rare and aggressive soft-tissue sarcoma thought to originate in fibroblasts of the tissues comprising tendons, ligaments, and muscles. Minimally responsive to conventional cytotoxic chemotherapies, >50% of SEF patients experience local recurrence and/or metastatic disease. SEF is most commonly discovered in middle-aged and elderly adults, but also rarely in children. A common gene fusion occurring between the EWSR1 and CREB3L1 genes has been observed in 80%-90% of SEF cases. We describe here the youngest SEF patient reported to date (a 3-yr-old Caucasian male) who presented with numerous bony and lung metastases. Additionally, we perform a comprehensive literature review of all SEF-related articles published since the disease was first characterized. Finally, we describe the generation of an SEF primary cell line, the first such culture to be reported. The patient described here experienced persistent disease progression despite aggressive treatment including multiple resections, radiotherapy, and numerous chemotherapies and targeted therapeutics. Untreated and locally recurrent tumor and metastatic tissue were sequenced by whole-genome, whole-exome, and deep-transcriptome next-generation sequencing with comparison to a patient-matched normal blood sample. Consistent across all sequencing analyses was the disease-defining EWSR1 - CREB3L1 fusion as a single feature consensus. We provide an analysis of our genomic findings and discuss potential therapeutic strategies for SEF., (© 2021 Woods et al.; Published by Cold Spring Harbor Laboratory Press.)

Published
2021
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results