Altered chaperone–nonmuscle myosin II interactions drive pathogenicity of the UNC45A c.710T>C variant in osteo-oto-hepato-enteric syndrome
Stephanie Waich, … , Lukas A. Huber, Taras Valovka
Stephanie Waich, … , Lukas A. Huber, Taras Valovka
Published March 24, 2025
Citation Information: JCI Insight. 2025;10(6):e185508. https://doi.org/10.1172/jci.insight.185508.
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Research Article Cell biology Genetics

Altered chaperone–nonmuscle myosin II interactions drive pathogenicity of the UNC45A c.710T>C variant in osteo-oto-hepato-enteric syndrome

Abstract

The osteo-oto-hepato-enteric (O2HE) syndrome is a severe autosomal recessive disease ascribed to loss-of-function mutations in the Unc-45 myosin chaperone A (UNC45A) gene. The clinical spectrum includes bone fragility, hearing loss, cholestasis, and life-threatening diarrhea associated with microvillus inclusion disease–like enteropathy. Here, we present molecular and functional analysis of the UNC45A c.710T>C (p.Leu237Pro) missense variant, which revealed a unique pathogenicity compared with other genetic variants causing UNC45A deficiency. The UNC45A p.Leu237Pro mutant retained chaperone activity, prevented myosin aggregation, and supported proper nonmuscle myosin II (NMII) filament formation in patient fibroblasts and human osteosarcoma (U2OS) cells. However, the mutant formed atypically stable oligomers and prevented chaperone-myosin complex dissociation, thereby inhibiting NMII functions. Similar to biallelic UNC45A deficiency, this resulted in impaired intracellular trafficking, defective recycling, and abnormal retention of transferrin at various endocytic sites. In particular, coexpression of wild-type protein attenuated the pathogenic effects of the variant by inhibiting excessive oligomer formation. Our results elucidate the pathogenic mechanisms and recessive characteristics of this variant and may aid in the development of targeted therapies.

Authors

Stephanie Waich, Karin Kreidl, Julia Vodopiutz, Arzu Meltem Demir, Adam R. Pollio, Vojtěch Dostál, Kristian Pfaller, Marianna Parlato, Nadine Cerf-Bensussan, Rüdiger Adam, Georg F. Vogel, Holm H. Uhlig, Frank M. Ruemmele, Thomas Müller, Michael W. Hess, Andreas R. Janecke, Lukas A. Huber, Taras Valovka

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Figure 1

The O2HE syndrome–associated UNC45A c.710T>C missense variant is identified in 4 infants from unrelated families.

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The O2HE syndrome–associated UNC45A c.710T>C missense variant is iden...
(A) The pedigrees of the families studied show the segregation of the UNC45A c.710T>C missense variant. Affected individuals are represented by filled symbols, while unaffected individuals are represented by unfilled symbols. Circles and squares denote females and males, respectively. Family 1 and family 2 were part of the patient cohort described in Duclaux-Loras et al., 2022 (5). The red arrow indicates index patient P2.1 in this study. Family 3 was described by Kong et al., 2023 (22), with a patient showing a compound heterozygous genotype. (B) Sanger sequencing chromatograms depicting the UNC45A c.710T site in a healthy, unrelated individual (control), a heterozygous individual from family 2, and patient P2.1. (C) Schematic representation of the UNC45A protein (Q9H301) domain structure. A sequence alignment of UNC45A orthologs from different species shows the high evolutionary conservation of leucine 237 (red arrow). Identical residues are depicted by asterisks (*) and conservative and semiconservative amino acid substitutions by colons (:) and dots (.), respectively.