1. Dual diagnosis of UQCRFS1-related mitochondrial complex III deficiency and recessive GJA8-related cataracts
- Author
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Elizabeth E. Blue, Samuel J. Huang, Alyna Khan, Katie Golden-Grant, Brenna Boyd, Elisabeth A. Rosenthal, Madelyn A. Gillentine, Leah R. Fleming, David R. Adams, Lynne Wolfe, Aimee Allworth, Michael J. Bamshad, Nikeisha J. Caruana, Sirisak Chanprasert, Jingheng Chen, Nitsuh Dargie, Daniel Doherty, Marisa W. Friederich, Fuki M. Hisama, Martha Horike-Pyne, Jessica C. Lee, Tonia E. Donovan, Daniella H. Hock, Kathleen A. Leppig, Danny E. Miller, Ghayda Mirzaa, Jane Ranchalis, Wendy H. Raskind, Cole R. Michel, Richard Reisdorph, Ulrike Schwarze, Sam Sheppeard, Samuel Strohbehn, David A. Stroud, Virginia P. Sybert, Mark H. Wener, Andrew B. Stergachis, Christina T. Lam, Gail P. Jarvik, Katrina M. Dipple, Johan L.K. Van Hove, and Ian A. Glass
- Subjects
UQCRFS1 ,GJA8 ,mitochondrial complex III ,alopecia ,cataracts ,rare disease ,Medicine ,Genetics ,QH426-470 - Abstract
Biallelic pathogenic variants in UQCRFS1 underlie a rare form of isolated mitochondrial complex III deficiency associated with lactic acidosis and a distinctive scalp alopecia previously described in two unrelated probands. Here, we describe a participant in the Undiagnosed Diseases Network (UDN) with a dual diagnosis of two autosomal recessive disorders revealed by genome sequencing: UQCRFS1-related mitochondrial complex III deficiency and GJA8-related cataracts. Both pathogenic variants have been reported before: UQCRFS1 (NM_006003.3:c.215–1 G>C, p.Val72_Thr81del10) in a case with mitochondrial complex III deficiency and GJA8 (NM_005267.5:c.736 G>T, p.Glu246*) as a somatic change in aged cornea leading to decreased junctional coupling. A multi-modal approach combining enzyme assays and cellular proteomics analysis provided clear evidence of complex III respiratory chain dysfunction and low abundance of the Rieske iron-sulfur protein, validating the pathogenic effect of the UQCRFS1 variant. This report extends the genotypic and phenotypic spectrum for these two rare disorders and highlights the utility of deep phenotyping and genomics data to achieve diagnosis and insights into rare disease.
- Published
- 2024
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