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1. Bi-allelic variants in HMGCR cause an autosomal-recessive progressive limb-girdle muscular dystrophy

Author

Joel A. Morales-Rosado, Tanya L. Schwab, Sarah K. Macklin-Mantia, A. Reghan Foley, Filippo Pinto e Vairo, Davut Pehlivan, Sandra Donkervoort, Jill A. Rosenfeld, Grace E. Boyum, Ying Hu, Anh T.Q. Cong, Timothy E. Lotze, Carrie A. Mohila, Dimah Saade, Diana Bharucha-Goebel, Katherine R. Chao, Christopher Grunseich, Christine C. Bruels, Hannah R. Littel, Elicia A. Estrella, Lynn Pais, Peter B. Kang, Michael T. Zimmermann, James R. Lupski, Brendan Lee, Matthew J. Schellenberg, Karl J. Clark, Klaas J. Wierenga, Carsten G. Bönnemann, and Eric W. Klee

Subjects
Genetics, Genetics (clinical)
Published
2023

2. εγ-Thalassemia, a New Hemoglobinopathy Category

Author

Jennifer L Oliveira, Christineil H Thompson, Siva Arumugam Saravanaperumal, Tejaswi Koganti, Garrett Jenkinson, Molly S Hein, Mira A Kohorst, Linda Hasadsri, Phuong L Nguyen, Dietrich Matern, Benjamin R Kipp, Eric W Klee, Eric D Wieben, James D Hoyer, and Aruna Rangan

Subjects
Biochemistry (medical), Clinical Biochemistry
Abstract

Background Large β-globin gene cluster deletions (hereditary persistence of fetal hemoglobin [Hb] or β-, δβ-, γδβ-, and ϵγδβ-thalassemia), are associated with widely disparate phenotypes, including variable degrees of microcytic anemia and Hb F levels. When present, increased Hb A2 is used as a surrogate marker for β-thalassemia. Notably, ϵγδβ-thalassemias lack the essential regulatory locus control region (LCR) and cause severe transient perinatal anemia but normal newborn screen (NBS) results and Hb A2 levels. Herein, we report a novel deletion of the ϵ, Aγ, Gγ, and ψβ loci with intact LCR, δ-, and β-regions in 2 women and newborn twins. Methods Capillary electrophoresis (CE), high-performance liquid chromatography (HPLC), DNA sequencing, multiplex ligation-dependent probe amplification (MLPA), gap-polymerase chain reaction (gap-PCR), and long-read sequencing (LRS) were performed. Results NBS showed an Hb A > Hb F pattern for both twins. At 20 months, Hb A2 was increased similarly to that in the mother and an unrelated woman. Unexplained microcytosis was absent and the twins lacked severe neonatal anemia. MLPA, LRS, and gap-PCR confirmed a 32 599 base pair deletion of ϵ (HBE1) through ψβ (HBBP1) loci. Conclusions This deletion represents a hemoglobinopathy category with a distinct phenotype that has not been previously described, an ϵγ-thalassemia. Both the NBS Hb A > F pattern and the subsequent increased Hb A2 without microcytosis are unusual. A similar deletion should be considered when this pattern is encountered and appropriate test methods selected for detection. Knowledge of the clinical impact of this new category will improve genetic counselling, with distinction from the severe transient anemia associated with ϵγδβ-thalassemia.

Published
2023

3. Table S5 from Genomic and Phenotypic Characterization of a Broad Panel of Patient-Derived Xenografts Reflects the Diversity of Glioblastoma

Author

Jann N. Sarkaria, Ian F. Parney, Robert B. Jenkins, Caterina Giannini, Nhan L. Tran, Brian P. O'Neill, Fredrick B. Meyer, Terry C. Burns, Erik P. Sulman, Roel G. Verhaak, Jeanette E. Eckel-Passow, Daniel H. LaChance, Andrea Califano, Eric W. Klee, Bianca M. Marin, Qianghu Wang, Michael E. Berens, Harshil D. Dhruv, Huihuang Yan, Paul A. Decker, Lisa Evers, Gobinda Sarkar, Daniel J. Ma, Brett L. Carlson, Sen Peng, Rebecca Grove, Thomas M. Kollmeyer, Alissa Caron, Gaspar J. Kitange, Ann C. Mladek, Mark A. Schroeder, Dioval Remonde, Shulan Tian, and Rachael A. Vaubel

Abstract

Genetics of recurrent PDX

Published
2023

5. Table S6 from Genomic and Phenotypic Characterization of a Broad Panel of Patient-Derived Xenografts Reflects the Diversity of Glioblastoma

Author

Jann N. Sarkaria, Ian F. Parney, Robert B. Jenkins, Caterina Giannini, Nhan L. Tran, Brian P. O'Neill, Fredrick B. Meyer, Terry C. Burns, Erik P. Sulman, Roel G. Verhaak, Jeanette E. Eckel-Passow, Daniel H. LaChance, Andrea Califano, Eric W. Klee, Bianca M. Marin, Qianghu Wang, Michael E. Berens, Harshil D. Dhruv, Huihuang Yan, Paul A. Decker, Lisa Evers, Gobinda Sarkar, Daniel J. Ma, Brett L. Carlson, Sen Peng, Rebecca Grove, Thomas M. Kollmeyer, Alissa Caron, Gaspar J. Kitange, Ann C. Mladek, Mark A. Schroeder, Dioval Remonde, Shulan Tian, and Rachael A. Vaubel

Abstract

Molecular subtype, MGMT methylation, expressed fusions

Published
2023

9. Table S2 from Genomic and Phenotypic Characterization of a Broad Panel of Patient-Derived Xenografts Reflects the Diversity of Glioblastoma

Author

Jann N. Sarkaria, Ian F. Parney, Robert B. Jenkins, Caterina Giannini, Nhan L. Tran, Brian P. O'Neill, Fredrick B. Meyer, Terry C. Burns, Erik P. Sulman, Roel G. Verhaak, Jeanette E. Eckel-Passow, Daniel H. LaChance, Andrea Califano, Eric W. Klee, Bianca M. Marin, Qianghu Wang, Michael E. Berens, Harshil D. Dhruv, Huihuang Yan, Paul A. Decker, Lisa Evers, Gobinda Sarkar, Daniel J. Ma, Brett L. Carlson, Sen Peng, Rebecca Grove, Thomas M. Kollmeyer, Alissa Caron, Gaspar J. Kitange, Ann C. Mladek, Mark A. Schroeder, Dioval Remonde, Shulan Tian, and Rachael A. Vaubel

Abstract

Patient characteristics of viable PDX lines

Published
2023

10. Data from Genomic and Phenotypic Characterization of a Broad Panel of Patient-Derived Xenografts Reflects the Diversity of Glioblastoma

Author

Jann N. Sarkaria, Ian F. Parney, Robert B. Jenkins, Caterina Giannini, Nhan L. Tran, Brian P. O'Neill, Fredrick B. Meyer, Terry C. Burns, Erik P. Sulman, Roel G. Verhaak, Jeanette E. Eckel-Passow, Daniel H. LaChance, Andrea Califano, Eric W. Klee, Bianca M. Marin, Qianghu Wang, Michael E. Berens, Harshil D. Dhruv, Huihuang Yan, Paul A. Decker, Lisa Evers, Gobinda Sarkar, Daniel J. Ma, Brett L. Carlson, Sen Peng, Rebecca Grove, Thomas M. Kollmeyer, Alissa Caron, Gaspar J. Kitange, Ann C. Mladek, Mark A. Schroeder, Dioval Remonde, Shulan Tian, and Rachael A. Vaubel

Abstract

Purpose:Glioblastoma is the most frequent and lethal primary brain tumor. Development of novel therapies relies on the availability of relevant preclinical models. We have established a panel of 96 glioblastoma patient-derived xenografts (PDX) and undertaken its genomic and phenotypic characterization.Experimental Design:PDXs were established from glioblastoma, IDH-wildtype (n = 93), glioblastoma, IDH-mutant (n = 2), diffuse midline glioma, H3 K27M-mutant (n = 1), and both primary (n = 60) and recurrent (n = 34) tumors. Tumor growth rates, histopathology, and treatment response were characterized. Integrated molecular profiling was performed by whole-exome sequencing (WES, n = 83), RNA-sequencing (n = 68), and genome-wide methylation profiling (n = 76). WES data from 24 patient tumors was compared with derivative models.Results:PDXs recapitulate many key phenotypic and molecular features of patient tumors. Orthotopic PDXs show characteristic tumor morphology and invasion patterns, but largely lack microvascular proliferation and necrosis. PDXs capture common and rare molecular drivers, including alterations of TERT, EGFR, PTEN, TP53, BRAF, and IDH1, most at frequencies comparable with human glioblastoma. However, PDGFRA amplification was absent. RNA-sequencing and genome-wide methylation profiling demonstrated broad representation of glioblastoma molecular subtypes. MGMT promoter methylation correlated with increased survival in response to temozolomide. WES of 24 matched patient tumors showed preservation of most genetic driver alterations, including EGFR amplification. However, in four patient–PDX pairs, driver alterations were gained or lost on engraftment, consistent with clonal selection.Conclusions:Our PDX panel captures the molecular heterogeneity of glioblastoma and recapitulates many salient genetic and phenotypic features. All models and genomic data are openly available to investigators.

Published
2023

12. Table S4 from Genomic and Phenotypic Characterization of a Broad Panel of Patient-Derived Xenografts Reflects the Diversity of Glioblastoma

Author

Jann N. Sarkaria, Ian F. Parney, Robert B. Jenkins, Caterina Giannini, Nhan L. Tran, Brian P. O'Neill, Fredrick B. Meyer, Terry C. Burns, Erik P. Sulman, Roel G. Verhaak, Jeanette E. Eckel-Passow, Daniel H. LaChance, Andrea Califano, Eric W. Klee, Bianca M. Marin, Qianghu Wang, Michael E. Berens, Harshil D. Dhruv, Huihuang Yan, Paul A. Decker, Lisa Evers, Gobinda Sarkar, Daniel J. Ma, Brett L. Carlson, Sen Peng, Rebecca Grove, Thomas M. Kollmeyer, Alissa Caron, Gaspar J. Kitange, Ann C. Mladek, Mark A. Schroeder, Dioval Remonde, Shulan Tian, and Rachael A. Vaubel

Abstract

Frequency of genomic alterations in PDX compared to TCGA

Published
2023

14. Table S3 from Genomic and Phenotypic Characterization of a Broad Panel of Patient-Derived Xenografts Reflects the Diversity of Glioblastoma

Author

Jann N. Sarkaria, Ian F. Parney, Robert B. Jenkins, Caterina Giannini, Nhan L. Tran, Brian P. O'Neill, Fredrick B. Meyer, Terry C. Burns, Erik P. Sulman, Roel G. Verhaak, Jeanette E. Eckel-Passow, Daniel H. LaChance, Andrea Califano, Eric W. Klee, Bianca M. Marin, Qianghu Wang, Michael E. Berens, Harshil D. Dhruv, Huihuang Yan, Paul A. Decker, Lisa Evers, Gobinda Sarkar, Daniel J. Ma, Brett L. Carlson, Sen Peng, Rebecca Grove, Thomas M. Kollmeyer, Alissa Caron, Gaspar J. Kitange, Ann C. Mladek, Mark A. Schroeder, Dioval Remonde, Shulan Tian, and Rachael A. Vaubel

Abstract

Short tandem repeat genotype and PDX growth characteristics

Published
2023

18. Data from Identification of Prognostic Biomarkers for Prostate Cancer

Author

George Vasmatzis, John C. Cheville, R. Jeffrey Karnes, Jeff Slezak, Lori Tillmans, Dagmar Marie Kube, Eric W. Klee, Craig Spiro, C. Dilara Savci-Heijink, Jan Marie A. Munz, and Farhad Kosari

Abstract

Purpose: This paper describes a process for the identification of genes that can report on the aggressiveness of prostate tumors and thereby add to the information provided by current pathologic analysis.Materials and Methods: Expression profiling data from over 100 laser capture microdissection derived samples from nonneoplastic epithelium; Gleason patterns 3, 4, and 5 and node metastasis prostate cancer were used to identify genes at abnormally high levels in only some tumors. These variably overexpressed genes were stratified by their association with aggressive phenotypes and were subsequently filtered to exclude genes with redundant expression patterns. Selected genes were validated in a case-control study in which cases (systemic progression within 5 years) and controls (no systemic progression at 7 years of follow-up) were matched for all clinical and pathologic criteria from time of prostatectomy (n = 175). Both cases and controls, therefore, could have nodal invasion or seminal vesicle involvement at the time of initial treatment.Results: A number of candidate variably overexpressed genes selected for their association with aggressive prostate cancer phenotype were evaluated in the case control study. The most prominent candidates were SSTR1 and genes related to proliferation, including TOP2A.Conclusions: The process described here identified genes that add information not available from current clinical measures and can improve the prognosis of prostate cancer.

Published
2023

21. Table S7 from Genomic and Phenotypic Characterization of a Broad Panel of Patient-Derived Xenografts Reflects the Diversity of Glioblastoma

Author

Jann N. Sarkaria, Ian F. Parney, Robert B. Jenkins, Caterina Giannini, Nhan L. Tran, Brian P. O'Neill, Fredrick B. Meyer, Terry C. Burns, Erik P. Sulman, Roel G. Verhaak, Jeanette E. Eckel-Passow, Daniel H. LaChance, Andrea Califano, Eric W. Klee, Bianca M. Marin, Qianghu Wang, Michael E. Berens, Harshil D. Dhruv, Huihuang Yan, Paul A. Decker, Lisa Evers, Gobinda Sarkar, Daniel J. Ma, Brett L. Carlson, Sen Peng, Rebecca Grove, Thomas M. Kollmeyer, Alissa Caron, Gaspar J. Kitange, Ann C. Mladek, Mark A. Schroeder, Dioval Remonde, Shulan Tian, and Rachael A. Vaubel

Abstract

PDX Response to Standard Therapy

Published
2023

22. Table S1 from Genomic and Phenotypic Characterization of a Broad Panel of Patient-Derived Xenografts Reflects the Diversity of Glioblastoma

Author

Jann N. Sarkaria, Ian F. Parney, Robert B. Jenkins, Caterina Giannini, Nhan L. Tran, Brian P. O'Neill, Fredrick B. Meyer, Terry C. Burns, Erik P. Sulman, Roel G. Verhaak, Jeanette E. Eckel-Passow, Daniel H. LaChance, Andrea Califano, Eric W. Klee, Bianca M. Marin, Qianghu Wang, Michael E. Berens, Harshil D. Dhruv, Huihuang Yan, Paul A. Decker, Lisa Evers, Gobinda Sarkar, Daniel J. Ma, Brett L. Carlson, Sen Peng, Rebecca Grove, Thomas M. Kollmeyer, Alissa Caron, Gaspar J. Kitange, Ann C. Mladek, Mark A. Schroeder, Dioval Remonde, Shulan Tian, and Rachael A. Vaubel

Abstract

Histologic diagnoses for all tumors implanted (WHO grade II-IV)

Published
2023

23. Supplementary Materials from Genomic and Phenotypic Characterization of a Broad Panel of Patient-Derived Xenografts Reflects the Diversity of Glioblastoma

Author

Jann N. Sarkaria, Ian F. Parney, Robert B. Jenkins, Caterina Giannini, Nhan L. Tran, Brian P. O'Neill, Fredrick B. Meyer, Terry C. Burns, Erik P. Sulman, Roel G. Verhaak, Jeanette E. Eckel-Passow, Daniel H. LaChance, Andrea Califano, Eric W. Klee, Bianca M. Marin, Qianghu Wang, Michael E. Berens, Harshil D. Dhruv, Huihuang Yan, Paul A. Decker, Lisa Evers, Gobinda Sarkar, Daniel J. Ma, Brett L. Carlson, Sen Peng, Rebecca Grove, Thomas M. Kollmeyer, Alissa Caron, Gaspar J. Kitange, Ann C. Mladek, Mark A. Schroeder, Dioval Remonde, Shulan Tian, and Rachael A. Vaubel

Abstract

Figures S1-S8, Supplementary Methods, Supplementary Bibliography

Published
2023

26. Human PIK3R1 mutations disrupt lymphocyte differentiation to cause activated PI3Kδ syndrome 2

Author

Tina Nguyen, Anthony Lau, Julia Bier, Kristen C. Cooke, Helen Lenthall, Stephanie Ruiz-Diaz, Danielle T. Avery, Henry Brigden, David Zahra, William A Sewell, Luke Droney, Satoshi Okada, Takaki Asano, Hassan Abolhassani, Zahra Chavoshzadeh, Roshini S. Abraham, Nipunie Rajapakse, Eric W. Klee, Joseph A. Church, Andrew Williams, Melanie Wong, Christoph Burkhart, Gulbu Uzel, David R. Croucher, David E. James, Cindy S. Ma, Robert Brink, Stuart G. Tangye, and Elissa K. Deenick

Subjects
Immunology, Immunology and Allergy
Abstract

Heterozygous loss-of-function (LOF) mutations in PIK3R1 (encoding phosphatidylinositol 3-kinase [PI3K] regulatory subunits) cause activated PI3Kδ syndrome 2 (APDS2), which has a similar clinical profile to APDS1, caused by heterozygous gain-of-function (GOF) mutations in PIK3CD (encoding the PI3K p110δ catalytic subunit). While several studies have established how PIK3CD GOF leads to immune dysregulation, less is known about how PIK3R1 LOF mutations alter cellular function. By studying a novel CRISPR/Cas9 mouse model and patients’ immune cells, we determined how PIK3R1 LOF alters cellular function. We observed some overlap in cellular defects in APDS1 and APDS2, including decreased intrinsic B cell class switching and defective Tfh cell function. However, we also identified unique APDS2 phenotypes including defective expansion and affinity maturation of Pik3r1 LOF B cells following immunization, and decreased survival of Pik3r1 LOF pups. Further, we observed clear differences in the way Pik3r1 LOF and Pik3cd GOF altered signaling. Together these results demonstrate crucial differences between these two genetic etiologies.

Published
2023

27. Implementation of genomic medicine for rare disease in a tertiary healthcare system: Mayo Clinic Program for Rare and Undiagnosed Diseases (PRaUD)

Author

Filippo Pinto e Vairo, Jennifer L. Kemppainen, Carolyn R. Rohrer Vitek, Denise A. Whalen, Kayla J. Kolbert, Kaitlin J. Sikkink, Sarah A. Kroc, Teresa Kruisselbrink, Gabrielle F. Shupe, Alyssa K. Knudson, Elizabeth M. Burke, Elle C. Loftus, Lorelei A. Bandel, Carri A. Prochnow, Lindsay A. Mulvihill, Brittany Thomas, Dale M. Gamble, Courtney B. Graddy, Giovanna G. Moreno Garzon, Idara U. Ekpoh, Eva M. Carmona Porquera, Fernando C. Fervenza, Marie C. Hogan, Mireille El Ters, Kenneth J. Warrington, III John M. Davis, Matthew J. Koster, Amir B. Orandi, Matthew L. Basiaga, Adrian Vella, Seema Kumar, Ana L. Creo, Aida N. Lteif, Siobhan T. Pittock, Peter J. Tebben, Ejigayehu G. Abate, Avni Y. Joshi, Elizabeth H. Ristagno, Mrinal S. Patnaik, Lisa A. Schimmenti, Radhika Dhamija, Sonia M. Sabrowsky, Klaas J. Wierenga, Mira T. Keddis, Niloy Jewel J. Samadder, Richard J. Presutti, Steven I. Robinson, Michael C. Stephens, Lewis R. Roberts, William A. Faubion, Sherilyn W. Driscoll, Lily C. Wong-Kisiel, Duygu Selcen, Eoin P. Flanagan, Vijay K. Ramanan, Lauren M. Jackson, Michelle L. Mauermann, Victor E. Ortega, Sarah A. Anderson, Stacy L. Aoudia, Eric W. Klee, Tammy M. McAllister, and Konstantinos N. Lazaridis

Abstract

Background In the United States, rare disease (RD) is defined as a condition that affects fewer than 200,000 individuals. Collectively, RD affects an estimated 30 million Americans. A significant portion of RD has an underlying genetic cause; however, this may go undiagnosed. To better serve these patients, the Mayo Clinic Program for Rare and Undiagnosed Diseases (PRaUD) was created under the auspices of the Center for Individualized Medicine (CIM) aiming to integrate genomics into subspecialty practice including targeted genetic testing, research, and education. Methods Patients were identified by subspecialty healthcare providers from 11 clinical divisions/departments. Targeted multi-gene panels or custom exome/genome-based panels were utilized. To support the goals of PRaUD, a new clinical service model, the Genetic Testing and Counseling (GTAC) unit, was established to improve access and increase efficiency for genetic test facilitation. The GTAC unit includes genetic counselors, genetic counseling assistants, genetic nurses, and a medical geneticist. Patients receive abbreviated point-of-care genetic counseling and testing through a partnership with subspecialty providers. Results Implementation of PRaUD began in 2018 and GTAC unit launched in 2020 to support program expansion. Currently, 29 RD clinical indications are included in 11 specialty divisions/departments with over 142 referring providers. To date, 1,152 patients have been evaluated with an overall solve rate of 14.1% and as high as 66.7% depending on the phenotype. Noteworthy, 42.7% of the solved or likely solved patients underwent changes in medical management and outcome based on genetic test results. Conclusion Implementation of PRaUD and GTAC have enabled subspecialty practices advance expertise in RD where genetic counselors have not historically been embedded in practice. Democratizing access to genetic testing and counseling can broaden the reach of patients with RD and increase the diagnostic yield of such indications leading to better medical management as well as expanding research opportunities.

Published
2023

28. Heterozygous variants in PRPF8 are associated with neurodevelopmental disorders

Author

Lauren O'Grady, Samantha A. Schrier Vergano, Trevor L. Hoffman, Dean Sarco, Sara Cherny, Emily Bryant, Laura Schultz‐Rogers, Wendy K. Chung, Stephanie Sacharow, Ladonna L. Immken, Susan Holder, Rebecca R. Blackwell, Catherine Buchanan, Roman Yusupov, François Lecoquierre, Anne‐Marie Guerrot, Lance Rodan, Bert B. A. de Vries, Erik Jan Kamsteeg, Fernando Santos Simarro, Maria Palomares‐Bralo, Natasha Brown, Lynn Pais, Alejandro Ferrer, Eric W. Klee, Dusica Babovic‐Vuksanovic, Lindsay Rhodes, Richard Person, Amber Begtrup, Jennifer Keller‐Ramey, Teresa Santiago‐Sim, Rhonda E. Schnur, David A. Sweetser, and Nina B. Gold

Subjects
Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Genetics, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], Genetics (clinical)
Abstract

Contains fulltext : 282684.pdf (Publisher’s version ) (Closed access) The pre-mRNA-processing factor 8, encoded by PRPF8, is a scaffolding component of a spliceosome complex involved in the removal of introns from mRNA precursors. Previously, heterozygous pathogenic variants in PRPF8 have been associated with autosomal dominant retinitis pigmentosa. More recently, PRPF8 was suggested as a candidate gene for autism spectrum disorder due to the enrichment of sequence variants in this gene in individuals with neurodevelopmental disorders. We report 14 individuals with various forms of neurodevelopmental conditions, found to have heterozygous, predominantly de novo, missense, and loss-of-function variants in PRPF8. These individuals have clinical features that may represent a new neurodevelopmental syndrome.

Published
2022

30. List of contributors

Author

Nobuyoshi Akimitsu, Marina Alexeeva, Juliana Almeida, Rodolfo Daniel Ávila-Avilés, Jérémy Berthelier, Akanksha Bhatnagar, Maria Boskovic, Nancy V.N. Carullo, J. Armando Casas-Mollano, Frances A. Champagne, Taiping Chen, Ravindresh Chhabra, James P. Curley, Gareth W. Davison, Gary L. Dunbar, Thomas Eggermann, Felice Elefant, Peter D. Fransquet, Hodaka Fujii, Toshitsugu Fujita, Leonardo Furci, Jose Garcia, Balaram Ghosh, Linn Gillberg, Karen Giménez-Orenga, Courtney W. Hanna, Zdenko Herceg, J. Manuel Hernández-Hernández, Line Hjort, Xiaotong Hu, Eveline M. Ibeagha-Awemu, Ali Jawaid, Wei Jiang, Oscar Juez, Ashley M. Karnay, Kentaro Kawata, Hasan Khatib, Eric W. Klee, Kerstin Klein, Eloïse A. Kremer, Ilkka Kronholm, Ho-Sun Lee, Frédérique Magdinier, Isabelle M. Mansuy, Rahia Mashoodh, Mihaly Mezei, Maria Miah, Matin Miryeganeh, Shiraz Mujtaba, Pamela N. Munster, Rabih Murr, Rūta Navakauskienė, Claudia Negrón-Lomas, Fereshteh S. Nugent, Elisa Oltra, Rena Onoguchi-Mizutani, Nail Can Öztürk, Romain Pacaud, Jacob Peedicayil, Prasad Pethe, Gerd P. Pfeifer, Sravani Pulya, Tibor A. Rauch, Marisol Resendiz, Marcus Roalsø, Jérôme D. Robin, Julien Rossignol, Joanne Ryan, Cíntia Barros Santos-Rebouças, Hidetoshi Saze, Ryan D. Shepard, Philippe Silar, Athena Sklias, Susan L. Slager, Kjetil Søreide, Bhairavi Srinageshwar, David M. Suter, Kenzui Taniue, Scott Thomas, Shulan Tian, Trygve O. Tollefsbol, Mark van der Giezen, Ludovica Vanzan, Günter Vogt, Darryl S. Watkins, Martin M. Watson, Loo Keat Wei, Jo Wrigglesworth, Toshimichi Yamada, Huihuang Yan, Jie Yang, Zhengzhou Ying, Ericka Zacarias, and Feng C. Zhou

Published
2023

32. De novo <scp> PBX1 </scp> variant in a patient with glaucoma, kidney anomalies, and developmental delay: An expansion of the <scp>CAKUTHED</scp> phenotype

Author

Erick D. Bothun, Eric W. Klee, Christian Hanna, Lisa A. Schimmenti, Rory J. Olson, Filippo Vairo, and Stephanie L. Safgren

Subjects
Pathology, medicine.medical_specialty, Pelvic kidney, business.industry, Hearing loss, Glaucoma, medicine.disease, eye diseases, Hypotonia, Frameshift mutation, medicine.anatomical_structure, Ductus arteriosus, Genetics, medicine, sense organs, medicine.symptom, business, Genetics (clinical), Exome sequencing, Loss function
Abstract

An infant was referred for evaluation of congenital glaucoma and corneal clouding. In addition, he had a pelvic kidney, hypotonia, patent ductus arteriosus, abnormal pinnae, and developmental delay. Exome sequencing identified a previously unpublished de novo single nucleotide insertion in PBX1 c.400dupG (NM_002585.3), predicted to cause a frameshift resulting in a truncated protein with loss of function (p.Ala134Glyfs*65). Identification of this loss of function variant supports the diagnosis of congenital anomalies of the kidney and urinary tract syndrome with or without hearing loss, abnormal ears, or developmental delay (CAKUTHED). Here, we propose glaucoma as an extra-renal manifestation associated with PBX1-related disease due to the relationship of PBX1 with MEIS1, MEIS2, and FOXC1 transcription factors associated with eye development.

Published
2021

33. One in seven pathogenic variants can be challenging to detect by NGS: an analysis of 450,000 patients with implications for clinical sensitivity and genetic test implementation

Author

Megan H. Cleveland, Shazia Mahamdallie, Brian H. Shirts, Stephen F. Kingsmore, Nazneen Rahman, Eric W. Klee, Farol L. Tomson, Swaroop Aradhya, Kathryn E. Hatchell, Wasanthi DeSilva, Sara L. Bristow, Tina Hambuch, Sheila Seal, Michael Kennemer, Matthew J. Ferber, Shimul Chowdhury, Peter M. Vallone, Andrew Fellowes, Russell Garlick, Justin M. Zook, Robert L. Nussbaum, Yan Ding, Rebecca Truty, Marc L. Salit, Catherine Huang, and Stephen E. Lincoln

Subjects
0301 basic medicine, DNA Copy Number Variations, business.industry, Medical laboratory, High-Throughput Nucleotide Sequencing, Pilot Projects, Computational biology, Biology, Article, Human genetics, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, INDEL Mutation, Clinical genetic, Humans, Medicine, Hereditary Cancer, Genetic Testing, Child, Indel, Carrier screening, business, 030217 neurology & neurosurgery, Genetics (clinical)
Abstract

PurposeTo evaluate the impact of technically challenging variants on the implementation, validation, and diagnostic yield of commonly used clinical genetic tests. Such variants include large indels, small CNVs, complex alterations, and variants in low-complexity or segmentally duplicated regions.MethodsAn interlaboratory pilot study used novel synthetic specimens to assess detection of challenging variant types by various NGS-based workflows. One well-performing workflow was further validated and used in clinician-ordered testing of more than 450,000 patients.ResultsIn the interlaboratory study, only two of 13 challenging variants were detected by all 10 workflows, and just three workflows detected all 13. Limitations were also observed among 11 less-challenging indels. In clinical testing, 21.6% of patients carried one or more pathogenic variants, of which 13.8% (17,561) were classified as technically challenging. These variants were of diverse types, affecting 556 of 1,217 genes across hereditary cancer, cardiovascular, neurological, pediatric, reproductive carrier screening, and other indicated tests.ConclusionThe analytic and clinical sensitivity of NGS workflows can vary considerably, particularly for prevalent, technically challenging variants. This can have important implications for the design and validation of tests (by laboratories) and the selection of tests (by clinicians) for a wide range of clinical indications.

Published
2021

35. Exome sequencing can misread high variant allele fraction of somatic variants in UBA1 as hemizygous in VEXAS syndrome: a case report

Author

Matheus V M B, Wilke, Eva, Morava-Kozicz, Matthew J, Koster, Christopher T, Schmitz, Shannon Kaye, Foster, Mrinal, Patnaik, Kenneth J, Warrington, Eric W, Klee, and Filippo, Pinto E Vairo

Subjects
Rheumatology
Abstract

Background VEXAS syndrome (vacuoles, E1 enzyme, X-linked, autoinflammatory, somatic syndrome) is a recently described syndrome caused by a somatic missense variant at the methionine-41 (p.(Met41)) position in the ubiquitin-like modifier activating enzyme 1 (UBA1) in Xp11.3. Germline pathogenic variants in UBA1 are associated with a distinct phenotype: a syndrome with severe neurologic features associated with loss of anterior horn cells and infantile death denominated X-Linked Spinal Muscular Atrophy 2 (SMAX2) (OMIM 301,830). Case presentation We report a male individual with the phenotype of VEXAS syndrome that was initially identified through exome sequencing (ES) as having a hemizygous germline variant in UBA1 due to high variant allele frequency (VAF). Research Sanger sequencing was able to confirm the absence of the p.(Met41Val) variant in a skin biopsy and in gastric mucosa tissue sample confirming the variant happened as a postzygotic event. Conclusions The present case exemplifies the diagnostic challenge that was imposed by the high VAF detected by ES that failed to correctly demonstrate that the variant was in a mosaic state. Sequencing of different tissues should be considered when there is conflict between the UBA1 variant status and the clinical findings.

Published
2022

36. Genomic epidemiology and phylodynamics for county-to-county transmission of SARS-CoV-2 in Minnesota, from 19A to Omicron

Author

Matthew, Scotch, Kimberly, Lauer, Eric D, Wieben, Yesesri, Cherukuri, Julie M, Cunningham, Eric W, Klee, Jonathan J, Harrington, Julie S, Lau, Samantha J, McDonough, Mark, Mutawe, John C, Oâ Horo, Chad E, Rentmeester, Nicole R, Schlicher, Valerie T, White, Susan K, Schneider, Peter T, Vedell, Xiong, Wang, Joseph D, Yao, Bobbi S, Pritt, and Andrew P, Norgan

Subjects
Article
Abstract

SARS-CoV-2 has had an unprecedented impact on human health and highlights the need for genomic epidemiology studies to increase our understanding of the evolution and spread of pathogens and to inform policy decisions. Most efforts have focused on international or country-wide transmission, which are unable to highlight state-wide trends. We sequenced virus genomes from over 22,000 patients tested at Mayo Clinic Laboratories between 2020-2022 and leveraged detailed patient metadata to describe county-to-county spread in Minnesota. Our findings indicate that spread in the state was mostly dominated by viruses from Hennepin County, which contains the largest metropolis. For many counties, we found that state government restrictions eventually led to a decrease in the diversity of circulating viruses from other counties and that their complete removal in May of 2021 saw a drastic revert to levels at or greater than those observed during the months before. We also linked over 14,000 genomes with patient risk characteristics and infection-related phenotypes from the Mayo Clinic electronic health record. We found that the genetic relationship of Omicron viruses was structured by clinical outcomes when stratifying by patient risk factor and variant of concern. However, we were unable to identify nucleotide variants that drove this association.

Published
2022

37. Genomic epidemiology reveals the dominance of Hennepin County in transmission of SARS-CoV-2 in Minnesota from 2020-2022

Author

Matthew Scotch, Kimberly Lauer, Eric D. Wieben, Yesesri Cherukuri, Julie M Cunningham, Eric W Klee, Jonathan J. Harrington, Julie S Lau, Samantha J McDonough, Mark Mutawe, John C. O’Horo, Chad E. Rentmeester, Nicole R Schlicher, Valerie T White, Susan K Schneider, Peter T Vedell, Xiong Wang, Joseph D Yao, Bobbi S Pritt, and Andrew P Norgan

Abstract

SARS-CoV-2 has had an unprecedented impact on human health and highlights the need for genomic epidemiology studies to increase our understanding of virus evolution and spread, and to inform policy decisions. We sequenced viral genomes from over 22,000 patient samples tested at Mayo Clinic Laboratories between 2020-2022 and use Bayesian phylodynamics to describe county and regional spread in Minnesota.The earliest introduction into Minnesota was to Hennepin County from a domestic source around January 22, 2020; six weeks before the first confirmed case in the state. This led to the virus spreading to Northern Minnesota, and eventually, the rest of the state. International introductions were most abundant in Hennepin (home to the Minneapolis/St. Paul International (MSP) airport) totaling 45 (out of 107) over the two-year period. Southern Minnesota counties were most common for domestic introductions with 19 (out of 64), potentially driven by bordering states such as Iowa and Wisconsin as well as Illinois which is nearby. Hennepin also was, by far, the most dominant source of in-state transmissions to other Minnesota locations (n=772) over the two-year period.We also analyzed the diversity of the location source of SARS-CoV-2 viruses in each county and noted the timing of state-wide policies as well as trends in clinical cases. Neither the number of clinical cases or major policy decisions, such as the end of the lockdown period in 2020 or the end of all restrictions in 2021, appeared to have impact on virus diversity across each individual county.ImportanceWe analyzed over 22,000 SARS-CoV-2 genomes of patient samples tested at Mayo Clinic Laboratories during a two-year period in the COVID-19 pandemic that included Alpha, Delta, and Omicron VoCs to examine the roles and relationships of Minnesota virus transmission.We found that Hennepin County, the most populous county, drove the transmission of SARS-CoV-2 viruses in the state after including the formation of earlier clades including 20A, 20C, and 20G, as well as variants of concern Alpha and Delta. We also found that Hennepin County was the source for most of the county-to-county introductions after its initial introduction with the virus in early 2020 from an international source, while other counties acted as transmission “sinks”. In addition, major policies such as the end of the lockdown period in 2020 or the end of all restrictions in 2021, did not appear to have an impact on virus diversity across individual counties.

Published
2022

38. Expanding the phenotype of DNAJC30-associated Leigh syndrome

Author

Marta Zawadzka, Magdalena Krygier, Małgorzata Pawłowicz, Matheus Vernet Machado Bressan Wilke, Karolina Rutkowska, Naig Gueguen, Valerie Desquiret‐Dumas, Eric W. Klee, Lisa A. Schimmenti, Jarosław Sławek, Vincent Procaccio, Rafał Płoski, and Maria Mazurkiewicz‐Bełdzińska

Subjects
Male, Mitochondrial Diseases, Phenotype, Mutation, Genetics, Lactates, Humans, Female, Neurodegenerative Diseases, Leigh Disease, Genetics (clinical)
Abstract

Leigh syndrome (LS) is a progressive neurodegenerative disease, characterized by extensive clinical, biochemical, and genetic heterogeneity. Recently, biallelic variants in DNAJC30 gene, encoding a protein crucial for the repair of mitochondrial complex I subunits, have been associated with Leber hereditary optic neuropathy and LS. It was suggested that clinical heterogeneity of DNAJC30-associated mitochondrial disease may be attributed to digenic inheritance. We describe three Polish patients, a 9-year-old boy, and female and male siblings, aged 17 and 11 years, with clinical and biochemical manifestations of LS. Exome sequencing (ES) identified a homozygous pathogenic variant in DNAJC30 c.152AG, p.(Tyr51Cys) in the 9-year-old boy. In the siblings, ES identified two DNAJC30 variants: c.152AG, p.(Tyr51Cys) and c.130_131del, p.(Ser44ValfsTer8) in a compound heterozygous state. In addition, both siblings carried a novel heterozygous c.484GT, p.(Val162Leu) variant in NDUFS8 gene. This report provides further evidence for the association of DNAJC30 variants with LS. DNAJC30-associated LS is characterized by variable age at onset, movement disorder phenotype and normal or moderately elevated blood lactate level. Identification of a candidate heterozygous variant in NDUFS8 supports the hypothesis of digenic inheritance. Importantly, DNAJC30 pathogenic variants should be suspected in patients with LS irrespective of optic nerve involvement.

Published
2022

40. <scp>TSPEAR</scp>variants are primarily associated with ectodermal dysplasia and tooth agenesis but not hearing loss: A novel cohort study

Author

Tristan Rey, Abigail Williams, Carla Nishimura, Kirsty McWalter, Alex Cummings, Agnès Bloch-Zupan, Francesca Clementina Radio, Bruno Dallapiccola, Dusica Babovic-Vuksanovic, Maria Lisa Dentici, Emanuele Agolini, Filippo Vairo, J. Austin Hamm, Jennifer A. Sullivan, Kelly Schoch, Brendan C. Lanpher, Chelsea Roadhouse, Ingrid M. Wentzensen, Richard J.H. Smith, Alejandro Ferrer, Arun Ankala, Chumei Li, Sara Loddo, Bradley Bowles, Dario Cocciadiferro, Bénédicte Gérard, Nicholas Stong, Eric W. Klee, Silvia Genovese, Vandana Shashi, and Bruno Leheup

Subjects
Male, Ectodermal dysplasia, Hearing loss, TSPEAR, Cohort Studies, otorhinolaryngologic diseases, Genetics, medicine, Humans, Gene, Alleles, Genetic Association Studies, Genetics (clinical), Exome sequencing, hearing loss, Anodontia, Genetic testing, medicine.diagnostic_test, biology, business.industry, Genetic Variation, Proteins, Original Articles, medicine.disease, Phenotype, ectodermal dysplasia, Pedigree, Radiography, Amino Acid Substitution, Genetic Loci, Mutation, biology.protein, Original Article, Female, medicine.symptom, business, GJB6, autosomal recessive deafness, tooth agenesis, Cohort study
Abstract

Biallelic loss‐of‐function variants in the thrombospondin‐type laminin G domain and epilepsy‐associated repeats (TSPEAR) gene have recently been associated with ectodermal dysplasia and hearing loss. The first reports describing a TSPEAR disease association identified this gene is a cause of nonsyndromic hearing loss, but subsequent reports involving additional affected families have questioned this evidence and suggested a stronger association with ectodermal dysplasia. To clarify genotype–phenotype associations for TSPEAR variants, we characterized 13 individuals with biallelic TSPEAR variants. Individuals underwent either exome sequencing or panel‐based genetic testing. Nearly all of these newly reported individuals (11/13) have phenotypes that include tooth agenesis or ectodermal dysplasia, while three newly reported individuals have hearing loss. Of the individuals displaying hearing loss, all have additional variants in other hearing‐loss‐associated genes, specifically TMPRSS3, GJB2, and GJB6, that present competing candidates for their hearing loss phenotype. When presented alongside previous reports, the overall evidence supports the association of TSPEAR variants with ectodermal dysplasia and tooth agenesis features but creates significant doubt as to whether TSPEAR variants are a monogenic cause of hearing loss. Further functional evidence is needed to evaluate this phenotypic association.

Published
2021

41. A form of muscular dystrophy associated with pathogenic variants in JAG2

Author

Marie Rivera-Zengotita, Alison M. Barnard, Sanna Puusepp, Anna Łusakowska, Ros Quinlivan, Margherita Milone, Isabelle Draper, Katherine R. Chao, Erica L. Macke, Mait Nigul, Teepu Siddique, Vijay S. Ganesh, Sander Pajusalu, Nicolas Deconinck, Sanna Gudmundsson, Masashi Ogasawara, Sandra Donkervoort, Christine C. Bruels, Glenn A. Walter, Ehsan Ghayoor Karimiani, Christina A. Pacak, Reza Maroofian, Sabine Costagliola, Julia K. Goodrich, Anne H. O’Donnell-Luria, Mehran Beiraghi Toosi, Sandra Coppens, Yao Meng, Lynn Pais, Henry Houlden, Eleina M. England, Rasha El Sherif, Anne Boland-Auge, Bertold Schrank, Volker Straub, Gisèle Bonne, Catheline Vilain, Payam Mohassel, Tanya Stojkovic, Isabelle Nelson, Ichizo Nishino, Stefan Nicolau, Anna Kostera-Pruszczyk, Ben Weisburd, Jean-François Deleuze, Enzo Cohen, Michael G. Hanna, Hazim Kadhim, Peter B. Kang, Dorianmarie Vargas-Franco, Penny A. Handford, Katrin Õunap, Pilvi Ilves, Ana Töpf, Carsten G. Bönnemann, Brendan C. Lanpher, Eric W. Klee, and Andreas Hahn

Subjects
Male, Models, Molecular, 0301 basic medicine, Muscular Dystrophies, Myoblasts, Mice, 0302 clinical medicine, Drosophila Proteins, Muscular dystrophy, Child, Genetics (clinical), Genetics, Receptors, Notch, Myogenesis, Muscles, Middle Aged, Pedigree, Drosophila melanogaster, Phenotype, medicine.anatomical_structure, Glucosyltransferases, Child, Preschool, Female, Jagged-2 Protein, medicine.symptom, Signal Transduction, Adult, JAG2, JAG1, Adolescent, Notch signaling pathway, Biology, Article, Cell Line, Frameshift mutation, Young Adult, 03 medical and health sciences, Exome Sequencing, medicine, Animals, Humans, Amino Acid Sequence, Correction, Membrane Proteins, Muscle weakness, Skeletal muscle, medicine.disease, Human genetics, 030104 developmental biology, Haplotypes, Jagged-1 Protein, 030217 neurology & neurosurgery
Abstract

JAG2 encodes the Notch ligand Jagged2. The conserved Notch signaling pathway contributes to the development and homeostasis of multiple tissues, including skeletal muscle. We studied an international cohort of 23 individuals with genetically unsolved muscular dystrophy from 13 unrelated families. Whole-exome sequencing identified rare homozygous or compound heterozygous JAG2 variants in all 13 families. The identified bi-allelic variants include 10 missense variants that disrupt highly conserved amino acids, a nonsense variant, two frameshift variants, an in-frame deletion, and a microdeletion encompassing JAG2. Onset of muscle weakness occurred from infancy to young adulthood. Serum creatine kinase (CK) levels were normal or mildly elevated. Muscle histology was primarily dystrophic. MRI of the lower extremities revealed a distinct, slightly asymmetric pattern of muscle involvement with cores of preserved and affected muscles in quadriceps and tibialis anterior, in some cases resembling patterns seen in POGLUT1-associated muscular dystrophy. Transcriptome analysis of muscle tissue from two participants suggested misregulation of genes involved in myogenesis, including PAX7. In complementary studies, Jag2 downregulation in murine myoblasts led to downregulation of multiple components of the Notch pathway, including Megf10. Investigations in Drosophila suggested an interaction between Serrate and Drpr, the fly orthologs of JAG1/JAG2 and MEGF10, respectively. In silico analysis predicted that many Jagged2 missense variants are associated with structural changes and protein misfolding. In summary, we describe a muscular dystrophy associated with pathogenic variants in JAG2 and evidence suggests a disease mechanism related to Notch pathway dysfunction.

Published
2021

42. NEXMIF encephalopathy: an X-linked disorder with male and female phenotypic patterns

Author

Zaid Afawi, Shekeeb S. Mohammad, Geoffrey Wallace, Ayelet Zerem, Amy L Schneider, Kyra E. Stuurman, Deepak Gill, Alison M. Muir, Russell C. Dale, Gali Heimer, Martino Montomoli, Elena Gardella, Emmanuelle Ranza, Simone Mandelstam, Peter Procopis, Øyvind L. Busk, Christian Korff, Arjan Bouman, Boudewijn Gunning, Connie T.R.M. Stumpel, Yunus Balcik, Christa de Geus, Philipp S. Reif, Yue-Hua Zhang, Sameer M. Zuberi, Volodymyr Kharytonov, Sébastien Küry, Patrick Edery, Sebastien Moutton, Trine Bjørg Hammer, Hannah Stamberger, Joseph D. Symonds, Gaetan Lesca, Samuel F. Berkovic, Massimiliano Rossi, Danique R.M. Vlaskamp, Eric W. Klee, Mark T Mackay, Felix Rosenow, Erica L. Macke, Chirag Patel, Jacob Bie Granild-Jensen, Helenius J. Schelhaas, Danielle M. Andrade, Lynette G. Sadleir, Iris M de Lange, Roseline Caumes, Eva Morava, Frédéric Tran Mau-Them, Anita Cairns, Keren Yosovich, Jing Zhang, Bruria Ben Zeev, Nicolas Chatron, Dorit Lev, Laura Reed, Pauline Monin, Eva H. Brilstra, Birgitte Bertelsen, Georgie Hollingsworth, Nienke E. Verbeek, Heather C Mefford, Rikke S. Møller, Johan R. Helle, Christina Fenger, Meriel McEntagart, Thomas Smol, Mark F. Bennett, Yuri A. Zarate, Renzo Guerrini, Elena Parrini, Candace T. Myers, Judith S. Verhoeven, Bertrand Isidor, Ruth Shalev, David A. Koolen, Ingrid E. Scheffer, Bobby P. C. Koeleman, Lauren Gunderson, Michael S. Hildebrand, Tara Sadoway, Richard J. Leventer, Sanjay M. Sisodiya, Krati Shah, Edith P. Almanza Fuerte, RS: GROW - R4 - Reproductive and Perinatal Medicine, MUMC+: DA KG Polikliniek (9), Klinische Genetica, and Clinical Genetics

Subjects
Male, Pediatrics, medicine.medical_specialty, INTELLECTUAL DISABILITY, Autism Spectrum Disorder, Encephalopathy, Nerve Tissue Proteins, ILAE COMMISSION, MOSAICISM, Epilepsy/genetics, CLASSIFICATION, Epilepsy, Brain Diseases/genetics, Genes, X-Linked, Seizures, Intellectual disability, Genotype, medicine, Humans, developmental and epileptic encephalopathy, MYOCLONIA, Atonic seizure, Genetics (clinical), Brain Diseases, ddc:618, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], KIAA2022, business.industry, MUTATIONS, medicine.disease, Phenotype, Autism Spectrum Disorder/genetics, Genes, X-Linked/genetics, Autism spectrum disorder, intellectual disability, NEXMIF, Autism, epilepsy, Female, INACTIVATION, Human medicine, Seizures/genetics, business, POSITION PAPER
Abstract

Contains fulltext : 231688.pdf (Publisher’s version ) (Closed access) PURPOSE: Pathogenic variants in the X-linked gene NEXMIF (previously KIAA2022) are associated with intellectual disability (ID), autism spectrum disorder, and epilepsy. We aimed to delineate the female and male phenotypic spectrum of NEXMIF encephalopathy. METHODS: Through an international collaboration, we analyzed the phenotypes and genotypes of 87 patients with NEXMIF encephalopathy. RESULTS: Sixty-three females and 24 males (46 new patients) with NEXMIF encephalopathy were studied, with 30 novel variants. Phenotypic features included developmental delay/ID in 86/87 (99%), seizures in 71/86 (83%) and multiple comorbidities. Generalized seizures predominated including myoclonic seizures and absence seizures (both 46/70, 66%), absence with eyelid myoclonia (17/70, 24%), and atonic seizures (30/70, 43%). Males had more severe developmental impairment; females had epilepsy more frequently, and varied from unaffected to severely affected. All NEXMIF pathogenic variants led to a premature stop codon or were deleterious structural variants. Most arose de novo, although X-linked segregation occurred for both sexes. Somatic mosaicism occurred in two males and a family with suspected parental mosaicism. CONCLUSION: NEXMIF encephalopathy is an X-linked, generalized developmental and epileptic encephalopathy characterized by myoclonic-atonic epilepsy overlapping with eyelid myoclonia with absence. Some patients have developmental encephalopathy without epilepsy. Males have more severe developmental impairment. NEXMIF encephalopathy arises due to loss-of-function variants.

Published
2021

43. Fetal glycosylation defect due to ALG3 and COG5 variants detected via amniocentesis: Complex glycosylation defect with embryonic lethal phenotype

Author

Eric W. Klee, Eva Morava, Rodrigo Tzovenos Starosta, Laura Rust, Wasantha Ranatunga, Alejandro Ferrer, Dani Ungar, Myra J. Wick, and Tamas Kozicz

Subjects
0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Pathology, medicine.medical_specialty, Glycosylation, Microarray, Endocrinology, Diabetes and Metabolism, 030105 genetics & heredity, Mannosyltransferases, Biochemistry, Loss of heterozygosity, 03 medical and health sciences, chemistry.chemical_compound, Congenital Disorders of Glycosylation, 0302 clinical medicine, Endocrinology, Pregnancy, Lysosomal-Associated Membrane Protein 2, Genetics, medicine, Humans, Molecular Biology, Exome sequencing, Fetus, Omphalocele, medicine.diagnostic_test, business.industry, Intercellular Adhesion Molecule-1, medicine.disease, Abortion, Spontaneous, Adaptor Proteins, Vesicular Transport, Phenotype, chemistry, Dysplasia, Aborted Fetus, Mutation, Amniocentesis, Female, business, 030217 neurology & neurosurgery
Abstract

Introduction Congenital disorders of glycosylation (CDG) are inborn errors of glycan metabolism with high clinical variability. Only a few antenatal cases have been described with CDG. Due to a lack of reliable biomarker, prenatal CDG diagnostics relies primarily on molecular studies. In the presence of variants of uncertain significance prenatal glycosylation studies are very challenging. Case report A consanguineous couple had a history of second-trimester fetal demise with tetralogy of Fallot and skeletal dysplasia. In the consecutive pregnancy, the second trimester ultrasonography showed skeletal dysplasia, vermian hypoplasia, congenital heart defects, omphalocele and dysmorphic features. Prenatal chromosomal microarray revealed a large region of loss of heterozygosity. Demise occurred at 30 weeks. Fetal whole exome sequencing showed a novel homozygous likely pathogenic variant in ALG3 and a variant of uncertain significance in COG5. Methods Western blot was used to quantify ALG3, COG5, COG6, and the glycosylation markers ICAM-1 and LAMP2. RT-qPCR was used for ALG3 and COG5 expression in cultured amniocytes and compared to age matched controls. Results ALG3 and COG5 mRNA levels were normal. ICAM-1, LAMP2, ALG3 and COG5 levels were decreased in cultured amniocytes, suggesting the possible involvement of both genes in the complex phenotype. Conclusion This is the first case of successful use of glycosylated biomarkers in amniocytes, providing further options of functional antenatal testing in CDG.

Published
2020

44. Detection of outlier methylation from bisulfite sequencing data with novel Bioconductor package BOREALIS

Author

Gavin R. Oliver, Garrett Jenkinson, Rory J. Olson, Laura E. Schultz-Rogers, and Eric W. Klee

Abstract

DNA sequencing results in genetic diagnosis of 18-40% of previously unsolved cases, while the incorporation of RNA-Seq analysis has more recently been shown to generate significant numbers of previously unattainable diagnoses. Multiple inborn diseases resulting from disorders of genomic imprinting are well characterized and a growing body of literature suggest the causative or correlative role of aberrant DNA methylation in diverse rare inherited conditions. Therefore, the systematic application of genomic-wide methylation-based sequencing for undiagnosed cases of rare disease is a logical progression from current testing paradigms. Following the rationale previously exploited in RNA-based studies of rare disease, we can assume that disease-associated methylation aberrations in an individual will demonstrate significant differences from individuals with unrelated phenotypes. Thus, aberrantly methylated sites will be outliers from a heterogeneous cohort of individuals.Based on this rationale, we present BOREALIS: Bisulfite-seq OutlieR MEthylation At SingLe-SIte ReSolution. BOREALIS uses a beta binomial model to identify outlier methylation at single CpG site resolution from bisulfite sequencing data. This method addresses a need unmet by standard differential methylation analyses based on case-control groups. Utilizing a heterogeneous cohort of 94 rare disease patients undiagnosed following DNA-based testing we show that BOREALIS can successfully identify outlier methylation linked to phenotypically relevant genes, providing a new avenue of exploration in the quest for increased diagnostic rates in rare disease patients. We highlight the case of a patient with previously undetected hypermethylation patterns that are informing clinical decision-making. BOREALIS is implemented in R and is freely available as a Bioconductor package.

Published
2022

45. Functional validation of a novel AAAS variant in an atypical presentation of Allgrove syndrome

Author

Erica L. Macke, Joel A. Morales‐Rosado, Sarah K. Macklin‐Mantia, Christopher T. Schmitz, Björn Oskarsson, Eric W. Klee, and Klaas J. Wierenga

Subjects
Esophageal Achalasia, Nuclear Pore Complex Proteins, Genetics, Humans, Female, Nerve Tissue Proteins, Molecular Biology, Genetics (clinical), Adrenal Insufficiency
Abstract

Achalasia-addisonianism-alacrima syndrome, frequently referred to as Allgrove syndrome or Triple A syndrome, is a multisystem disorder resulting from homozygous or compound heterozygous pathogenic variants in the gene encoding aladin (AAAS). Aladin is a member of the WD-repeat family of proteins and is a component of the nuclear pore complex. It is thought to be involved in nuclear import and export of molecules. Here, we describe an individual with a paternally inherited truncating variant and a maternally inherited, novel missense variant in AAAS presenting with alacrima, achalasia, anejaculation, optic atrophy, muscle weakness, dysarthria, and autonomic dysfunction.Whole-exome sequencing was performed in the proband, sister, and parents. Variants were confirmed by Sanger sequencing. The localization of aladin to the nuclear pore was assessed in cells expressing the patient variant.Functional testing of the maternally inherited variant, p.(Arg270Pro), demonstrated decreased localization of aladin to the nuclear pore in cells expressing the variant, indicating a deleterious effect. Follow-up testing in the proband's affected sister revealed that she also inherited the biallelic AAAS variants.Review of the patient's clinical, pathological, and genetic findings resulted in a diagnosis of Triple A syndrome.

Published
2022

46. Luminal androgen receptor breast cancer subtype and investigation of the microenvironment and neoadjuvant chemotherapy response

Author

Kevin J Thompson, Roberto A Leon-Ferre, Jason P Sinnwell, David M Zahrieh, Vera J Suman, Filho Otto Metzger, Sarah Asad, Daniel G Stover, Lisa Carey, William M Sikov, James N Ingle, Minetta C Liu, Jodi M Carter, Eric W Klee, Richard M Weinshilboum, Judy C Boughey, Liewei Wang, Fergus J Couch, Matthew P Goetz, and Krishna R Kalari

Subjects
General Medicine
Abstract

Triple-negative breast cancer (TNBC) is the most aggressive breast cancer subtype with low overall survival rates and high molecular heterogeneity; therefore, few targeted therapies are available. The luminal androgen receptor (LAR) is the most consistently identified TNBC subtype, but the clinical utility has yet to be established. Here, we constructed a novel genomic classifier, LAR-Sig, that distinguishes the LAR subtype from other TNBC subtypes and provide evidence that it is a clinically distinct disease. A meta-analysis of seven TNBC datasets (n = 1086 samples) from neoadjuvant clinical trials demonstrated that LAR patients have significantly reduced response (pCR) rates than non-LAR TNBC patients (odds ratio = 2.11, 95% CI: 1.33, 2.89). Moreover, deconvolution of the tumor microenvironment confirmed an enrichment of luminal epithelium corresponding with a decrease in basal and myoepithelium in LAR TNBC tumors. Increased immunosuppression in LAR patients may lead to a decreased presence of cycling T-cells and plasma cells. While, an increased presence of myofibroblast-like cancer-associated cells may impede drug delivery and treatment. In summary, the lower levels of tumor infiltrating lymphocytes (TILs), reduced immune activity in the micro-environment, and lower pCR rates after NAC, suggest that new therapeutic strategies for the LAR TNBC subtype need to be developed.

Published
2022

48. A reverse genetics and genomics approach to gene paralog function and disease: Myokymia and the juxtaparanode

Author

Dana Marafi, Nina Kozar, Ruizhi Duan, Stephen Bradley, Kenji Yokochi, Fuad Al Mutairi, Nebal Waill Saadi, Sandra Whalen, Theresa Brunet, Urania Kotzaeridou, Daniela Choukair, Boris Keren, Caroline Nava, Mitsuhiro Kato, Hiroshi Arai, Tawfiq Froukh, Eissa Ali Faqeih, Ali M. AlAsmari, Mohammed M. Saleh, Filippo Pinto e Vairo, Pavel N. Pichurin, Eric W. Klee, Christopher T. Schmitz, Christopher M. Grochowski, Tadahiro Mitani, Isabella Herman, Daniel G. Calame, Jawid M. Fatih, Haowei Du, Zeynep Coban-Akdemir, Davut Pehlivan, Shalini N. Jhangiani, Richard A. Gibbs, Satoko Miyatake, Naomichi Matsumoto, Laura J. Wagstaff, Jennifer E. Posey, James R. Lupski, Dies Meijer, and Matias Wagner

Subjects
gene and genome instability, facial myokymia, Nerve Tissue Proteins, peripheral nerve hyperexcitability syndromes, Kcna, Lgi3, Bi-allelic Variation, Facial Myokymia, Gene And Genome Instability, Genomic Rearrangement, Multi-exonic Cnv, Neurobiology Of Disease, Peripheral Nerve Hyperexcitability Syndromes, Potassium Channel Complexes, Mice, Report, Genetics, Animals, Humans, Myokymia, Genetics (clinical), potassium channel complexes, neurobiology of disease, Autoantibodies, Mammals, KCNA, Intracellular Signaling Peptides and Proteins, Genomics, Axons, Reverse Genetics, multi-exonic CNV, Phenotype, genomic rearrangement, bi-allelic variation, LGI3
Abstract

The leucine-rich glioma-inactivated (LGI) family consists of four highly conserved paralogous genes, LGI1-4, that are highly expressed in mammalian central and/or peripheral nervous systems. LGI1 antibodies are detected in subjects with autoimmune limbic encephalitis and peripheral nerve hyperexcitability syndromes (PNHSs) such as Isaacs and Morvan syndromes. Pathogenic variations of LGI1 and LGI4 are associated with neurological disorders as disease traits including familial temporal lobe epilepsy and neurogenic arthrogryposis multiplex congenita 1 with myelin defects, respectively. No human disease has been reported associated with either LGI2 or LGI3. We implemented exome sequencing and family-based genomics to identify individuals with deleterious variants in LGI3 and utilized GeneMatcher to connect practitioners and researchers worldwide to investigate the clinical and electrophysiological phenotype in affected subjects. We also generated Lgi3-null mice and performed peripheral nerve dissection and immunohistochemistry to examine the juxtaparanode LGI3 microarchitecture. As a result, we identified 16 individuals from eight unrelated families with loss-of-function (LoF) bi-allelic variants in LGI3. Deep phenotypic characterization showed LGI3 LoF causes a potentially clinically recognizable PNHS trait characterized by global developmental delay, intellectual disability, distal deformities with diminished reflexes, visible facial myokymia, and distinctive electromyographic features suggestive of motor nerve instability. Lgi3-null mice showed reduced and mis-localized Kv1 channel complexes in myelinated peripheral axons. Our data demonstrate bi-allelic LoF variants in LGI3 cause a clinically distinguishable disease trait of PNHS, most likely caused by disturbed Kv1 channel distribution in the absence of LGI3.

Published
2022

49. Congenital ichthyosis in Prader–Willi syndrome associated with maternal chromosome 15 uniparental disomy: Case report and review of autosomal recessive conditions unmasked by <scp>UPD</scp>

Author

Eric W. Klee, Peter J. Tebben, Cherisse A. Marcou, Lisa A. Schimmenti, Linda Hasadsri, Jennifer L. Hand, Erica L. Macke, and Karthik Muthusamy

Subjects
0301 basic medicine, Genetics, congenital, hereditary, and neonatal diseases and abnormalities, biology, business.industry, Ceramide synthase 3, nutritional and metabolic diseases, 030105 genetics & heredity, medicine.disease, Phenotype, Uniparental disomy, nervous system diseases, 03 medical and health sciences, Chromosome 15, 030104 developmental biology, Angelman syndrome, Congenital ichthyosis, medicine, biology.protein, Imprinting (psychology), Inherited disease, business, Genetics (clinical)
Abstract

Prader-Willi syndrome (PWS) is a prototypic genetic condition related to imprinting. Causative mechanisms include paternal 15q11-q13 deletion, maternal chromosome 15 uniparental disomy (UPD15), Prader-Willi Syndrome/Angelman Syndrome (PWS/AS) critical region imprinting defects, and complex chromosomal rearrangements. Maternal UPD15-related PWS poses risks of concomitant autosomal recessive (AR) disorders when the mother carries a pathogenic variant in one of the genes on chromosome 15 associated with autosomal recessive inherited disease. Co-occurrence of autosomal recessive conditions in the setting of UPD leads to increased complexity of the clinical phenotype, and may delay the diagnosis of PWS. We report a patient with PWS and associated congenital ichthyosis due to maternal UPD15, and a homozygous novel pathogenic variant in ceramide synthase 3 (CERS3). We also review the literature of associated disorders reported in the setting of maternal UPD15-related PWS and provide a summary of the previously described CERS3 variants. This represents the second case of autosomal recessive congenital ichthyosis (ARCI) in the setting of PWS and UPD15. There needs to be a high index of suspicion of this genetic mechanism when there is unexpected phenotype or evolution of the clinical course in a patient with PWS.

Published
2020

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