Molecular etiology of arthrogryposis in multiple families of mostly Turkish origin
Yavuz Bayram, … , Beyhan Tuysuz, James R. Lupski
Yavuz Bayram, … , Beyhan Tuysuz, James R. Lupski
Published January 11, 2016
Citation Information: J Clin Invest. 2016;126(2):762-778. https://doi.org/10.1172/JCI84457.
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Clinical Research and Public Health Genetics

Molecular etiology of arthrogryposis in multiple families of mostly Turkish origin

Abstract

BACKGROUND. Arthrogryposis, defined as congenital joint contractures in 2 or more body areas, is a clinical sign rather than a specific disease diagnosis. To date, more than 400 different disorders have been described that present with arthrogryposis, and variants of more than 220 genes have been associated with these disorders; however, the underlying molecular etiology remains unknown in the considerable majority of these cases.

METHODS. We performed whole exome sequencing (WES) of 52 patients with clinical presentation of arthrogryposis from 48 different families.

RESULTS. Affected individuals from 17 families (35.4%) had variants in known arthrogryposis-associated genes, including homozygous variants of cholinergic γ nicotinic receptor (CHRNG, 6 subjects) and endothelin converting enzyme–like 1 (ECEL1, 4 subjects). Deleterious variants in candidate arthrogryposis-causing genes (fibrillin 3 [FBN3], myosin IXA [MYO9A], and pleckstrin and Sec7 domain containing 3 [PSD3]) were identified in 3 families (6.2%). Moreover, in 8 families with a homozygous mutation in an arthrogryposis-associated gene, we identified a second locus with either a homozygous or compound heterozygous variant in a candidate gene (myosin binding protein C, fast type [MYBPC2] and vacuolar protein sorting 8 [VPS8], 2 families, 4.2%) or in another disease-associated genes (6 families, 12.5%), indicating a potential mutational burden contributing to disease expression.

CONCLUSION. In 58.3% of families, the arthrogryposis manifestation could be explained by a molecular diagnosis; however, the molecular etiology in subjects from 20 families remained unsolved by WES. Only 5 of these 20 unrelated subjects had a clinical presentation consistent with amyoplasia; a phenotype not thought to be of genetic origin. Our results indicate that increased use of genome-wide technologies will provide opportunities to better understand genetic models for diseases and molecular mechanisms of genetically heterogeneous disorders, such as arthrogryposis.

FUNDING. This work was supported in part by US National Human Genome Research Institute (NHGRI)/National Heart, Lung, and Blood Institute (NHLBI) grant U54HG006542 to the Baylor-Hopkins Center for Mendelian Genomics, and US National Institute of Neurological Disorders and Stroke (NINDS) grant R01NS058529 to J.R. Lupski.

Authors

Yavuz Bayram, Ender Karaca, Zeynep Coban Akdemir, Elif Ozdamar Yilmaz, Gulsen Akay Tayfun, Hatip Aydin, Deniz Torun, Sevcan Tug Bozdogan, Alper Gezdirici, Sedat Isikay, Mehmed M. Atik, Tomasz Gambin, Tamar Harel, Ayman W. El-Hattab, Wu-Lin Charng, Davut Pehlivan, Shalini N. Jhangiani, Donna M. Muzny, Ali Karaman, Tamer Celik, Ozge Ozalp Yuregir, Timur Yildirim, Ilhan A. Bayhan, Eric Boerwinkle, Richard A. Gibbs, Nursel Elcioglu, Beyhan Tuysuz, James R. Lupski

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Figure 5

Homozygous VPS8 and POLR3A variants identified in BAB7143.

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Homozygous VPS8 and POLR3A variants identified in BAB7143. (A) Segregati...
(A) Segregation analyses of the WES-detected variants. The proband was homozygous, and the parents were heterozygous carrier, consistent with Mendelian expectations. (B) Patient photographs showing clinical features, including ptosis, joint contractures, ulnar deviation of the hands, and surgically repaired foot deformity. (C) The interaction network of VPS8 (red circle) with other gene products, such as VPS33B, VPS53, and VIPAS39 (black circles), which were previously associated with different arthrogryposis-related disorders. Gray circles indicate the proteins in the same network but not associated with arthrogryposis previously. (D) Peptide alignment showing the conservation of the affected amino acids across the species.