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Fine mapping of heterozygous IL6ST nonsense variants underlying autosomal dominant hyper-IgE syndrome
Kosuke Ashihara, … , Vivien Béziat, Satoshi Okada
Kosuke Ashihara, … , Vivien Béziat, Satoshi Okada
Published June 17, 2025
Citation Information: JCI Insight. 2025;10(14):e190065. https://doi.org/10.1172/jci.insight.190065.
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Research Article Genetics Immunology Article has an altmetric score of 1

Fine mapping of heterozygous IL6ST nonsense variants underlying autosomal dominant hyper-IgE syndrome

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Abstract

Loss-of-function (LOF) variants in IL6ST, encoding GP130, can cause hyper-IgE syndrome (HIES). Monoallelic LOF variants in IL6ST lead to HIES when located in the intracellular domain downstream of box 1/2 and upstream of the STAT3 phosphorylation sites and the recycling motif, due to their dominant negative (DN) activity. In this region, 2 previously unreported IL6ST variants, p.K702Sfs7* and p.Y759Wfs26*, were identified in 2 families with autosomal dominant (AD) HIES. Both variants were LOF and exhibited DN effects, leading to the accumulation of mutant GP130 on the cell surface. The p.K702Sfs7* mutation was the most upstream N-terminal mutation linked to HIES caused by heterozygous IL6ST variants. Comprehensive screening of IL6ST mutants revealed that most premature terminations downstream of amino acid F641, at the end of the transmembrane domain, resulted in LOF and DN effects via GP130 accumulation on the cell surface. The absence of the recycling motif (positions 782–787) in surface-expressed LOF GP130 led to its accumulation, contributing to the DN effect. The importance of intracellular truncating IL6ST variants can possibly be predicted based on the location of the premature stop codon. GP130 accumulation on the cell surface is a characteristic and potentially diagnostic finding in patients with HIES with heterozygous IL6ST variants.

Authors

Kosuke Ashihara, Takaki Asano, Kanako Takeuchi, Kosuke Noma, Miyuki Tsumura, Wenjie Wang, Wei-Te Lei, Hisao Higo, Toshio Kubo, Yoko Mizoguchi, Shuhei Karakawa, Aurélie Cobat, Clément Conil, Etsushi Toyofuku, Akimasa Sekine, Kohsuke Imai, Dusan Bogunovic, Jean-Laurent Casanova, Cheng-Lung Ku, Vivien Béziat, Satoshi Okada

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