Biallelic Cys141Tyr variant of SEL1L is associated with neurodevelopmental disorders, agammaglobulinemia, and premature death
Denisa Weis, Liangguang L. Lin, Huilun H. Wang, Zexin Jason Li, Katarina Kusikova, Peter Ciznar, Hermann M. Wolf, Alexander Leiss-Piller, Zhihong Wang, Xiaoqiong Wei, Serge Weis, Katarina Skalicka, Gabriela Hrckova, Lubos Danisovic, Andrea Soltysova, Tingxuan T. Yang, René Günther Feichtinger, Johannes A. Mayr, Ling Qi
Denisa Weis, Liangguang L. Lin, Huilun H. Wang, Zexin Jason Li, Katarina Kusikova, Peter Ciznar, Hermann M. Wolf, Alexander Leiss-Piller, Zhihong Wang, Xiaoqiong Wei, Serge Weis, Katarina Skalicka, Gabriela Hrckova, Lubos Danisovic, Andrea Soltysova, Tingxuan T. Yang, René Günther Feichtinger, Johannes A. Mayr, Ling Qi
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Research Article Cell biology

Biallelic Cys141Tyr variant of SEL1L is associated with neurodevelopmental disorders, agammaglobulinemia, and premature death

Abstract

Suppressor of lin-12-like–HMG-CoA reductase degradation 1 (SEL1L-HRD1) ER-associated degradation (ERAD) plays a critical role in many physiological processes in mice, including immunity, water homeostasis, and energy metabolism; however, its relevance and importance in humans remain unclear, as no disease variant has been identified. Here, we report a biallelic SEL1L variant (p. Cys141Tyr) in 5 patients from a consanguineous Slovakian family. These patients presented with not only ERAD-associated neurodevelopmental disorders with onset in infancy (ENDI) syndromes, but infantile-onset agammaglobulinemia with no mature B cells, resulting in frequent infections and early death. This variant disrupted the formation of a disulfide bond in the luminal fibronectin II domain of SEL1L, largely abolishing the function of the SEL1L-HRD1 ERAD complex in part via proteasomal-mediated self destruction by HRD1. This study reports a disease entity termed ENDI-agammaglobulinemia (ENDI-A) syndrome and establishes an inverse correlation between SEL1L-HRD1 ERAD functionality and disease severity in humans.

Authors

Denisa Weis, Liangguang L. Lin, Huilun H. Wang, Zexin Jason Li, Katarina Kusikova, Peter Ciznar, Hermann M. Wolf, Alexander Leiss-Piller, Zhihong Wang, Xiaoqiong Wei, Serge Weis, Katarina Skalicka, Gabriela Hrckova, Lubos Danisovic, Andrea Soltysova, Tingxuan T. Yang, René Günther Feichtinger, Johannes A. Mayr, Ling Qi

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Figure 8

Our models for disease causality of SEL1LC141Y and an inverse correlation between ERAD function and disease severity in humans.

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Our models for disease causality of SEL1LC141Y and an inverse correlatio...
(A) Human SEL1LC141Y variant causes a significant loss of SEL1L-HRD1 ERAD function due to aggregation and self-destruction, leading to ENDI-A. (B) In comparison with other variants, the SEL1LC141Y variant is much more severe in terms of ERAD dysfunction and disease severity.