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An SNX31 variant underlies dominant familial exudative vitreoretinopathy-like pathogenesis
Ningda Xu, Yi Cai, Jiarui Li, Tianchang Tao, Caifei Liu, Yan Shen, Xiaoxin Li, Leiliang Zhang, Mingwei Zhao, Xuan Shi, Jing Li, Lvzhen Huang
Ningda Xu, Yi Cai, Jiarui Li, Tianchang Tao, Caifei Liu, Yan Shen, Xiaoxin Li, Leiliang Zhang, Mingwei Zhao, Xuan Shi, Jing Li, Lvzhen Huang
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Research Article Genetics Ophthalmology

An SNX31 variant underlies dominant familial exudative vitreoretinopathy-like pathogenesis

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Abstract

Familial exudative vitreoretinopathy (FEVR) is a complex hereditary eye disorder characterized by incomplete development of the retinal vasculature, which thereby affects retinal angiogenesis. But the genetic factors contributing to FEVR’s development or pathogenesis remain elusive. In a Chinese family with FEVR with 19 members, by using whole-exome sequencing, we identified a candidate disease-causing DNA variant in sorting nexin 31 (SNX31) (c.963delG; p. Trp321Cys), which results in a frameshift mutation. We studied the biochemical mechanism of this mutation and determined that it is deficient in β1-integrin binding and stability. The SNX31 c.963delG point mutation mouse model (SNX31m/m) was constructed with CRISPR/Cas9 technology. At 2–4 months of age, SNX31m/m mice showed fundus phenotypes similar to FEVR-like changes, including vascular leakage and retinal atrophy. Moreover, we found that VEGF and apoptotic pathways were involved in these ocular phenotypes. Hence, our study extended the FEVR mutation spectrum to include SNX31. These findings expanded our understanding of the molecular pathogenesis of FEVR and may facilitate the development of methods for the diagnosis and prevention of FEVR.

Authors

Ningda Xu, Yi Cai, Jiarui Li, Tianchang Tao, Caifei Liu, Yan Shen, Xiaoxin Li, Leiliang Zhang, Mingwei Zhao, Xuan Shi, Jing Li, Lvzhen Huang

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Figure 2

Mutant SNX31 failed to bind β1 integrin, downregulated β1 integrin levels, and affected the basic function of vascular cells.

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Mutant SNX31 failed to bind β1 integrin, downregulated β1 integrin level...
(A) A diagram showing the SNX31 structure, including the PX and FERM domain. The SNX31-mut we identified has a frameshift mutation at 321, resulting in a truncated protein of 343 amino acids. (B) 293T cells were transfected with the HA-SNX31-WT and HA-SNX31-Mut. GST-integrin β1 tail pulled down HA-SNX31-WT but not the HA-SNX31-Mut. (C) SNX31-WT increased the levels of β1-integrin while the SNX31 mutant decreased the levels of β1-integrin. Actin was used as a reference. (D) Quantitation of results in C. (E and F) The tube-forming ability of the SNX31-Mut in HRMECs was examined. Scale bar: 400 μm. (G and H) The migration ability of SNX31-Mut group is significantly less than the blank control, Flag-vec, and SNX31-WT groups. Scale bar: 400 μm. (I) Cell proliferation in the SNX31-Mut group was inhibited. The 3 transfection groups were compared with the blank group. Statistical analysis was performed via unpaired parametric t test or 1-way ANOVA. Data are shown as mean ± SEM. *P < 0.05, **P > 0.05. See complete unedited blots in the supplemental material.

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