Multidimensional analysis and therapeutic development using patient iPSC-derived disease models of Wolfram syndrome

Wolfram syndrome is a rare genetic disorder largely caused by pathogenic variants in the WFS1 gene and manifested by diabetes mellitus, optic nerve atrophy, and progressive neurodegeneration. Recent genetic and clinical findings have revealed Wolfram syndrome as a spectrum disorder. Therefore, a gen...

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Published in:JCI insight Vol. 7; no. 18
Main Authors: Kitamura, Rie Asada, Maxwell, Kristina G, Ye, Wenjuan, Kries, Kelly, Brown, Cris M, Augsornworawat, Punn, Hirsch, Yoel, Johansson, Martin M, Weiden, Tzvi, Ekstein, Joseph, Cohen, Joshua, Klee, Justin, Leslie, Kent, Simeonov, Anton, Henderson, Mark J, Millman, Jeffrey R, Urano, Fumihiko
Format: Journal Article
Language:English
Published: United States American Society for Clinical Investigation 22-09-2022
American Society for Clinical investigation
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Summary:Wolfram syndrome is a rare genetic disorder largely caused by pathogenic variants in the WFS1 gene and manifested by diabetes mellitus, optic nerve atrophy, and progressive neurodegeneration. Recent genetic and clinical findings have revealed Wolfram syndrome as a spectrum disorder. Therefore, a genotype-phenotype correlation analysis is needed for diagnosis and therapeutic development. Here, we focus on the WFS1 c.1672C>T, p.R558C variant, which is highly prevalent in the Ashkenazi Jewish population. Clinical investigation indicated that patients carrying the homozygous WFS1 c.1672C>T, p.R558C variant showed mild forms of Wolfram syndrome phenotypes. Expression of WFS1 p.R558C was more stable compared with the other known recessive pathogenic variants associated with Wolfram syndrome. Human induced pluripotent stem cell-derived (iPSC-derived) islets (SC-islets) homozygous for WFS1 c.1672C>T variant recapitulated genotype-related Wolfram syndrome phenotypes. Enhancing residual WFS1 function through a combination treatment of chemical chaperones mitigated detrimental effects caused by the WFS1 c.1672C>T, p.R558C variant and increased insulin secretion in SC-islets. Thus, the WFS1 c.1672C>T, p.R558C variant causes a mild form of Wolfram syndrome phenotypes, which can be remitted with a combination treatment of chemical chaperones. We demonstrate that our patient iPSC-derived disease model provides a valuable platform for further genotype-phenotype analysis and therapeutic development for Wolfram syndrome.
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Authorship note: RAK and KGM contributed equally to this work. JRM and FU are co–corresponding authors.
ISSN:2379-3708
2379-3708
DOI:10.1172/jci.insight.156549