TLR7型
错义突变
系统性红斑狼疮
免疫学
生物
离体
表型
红斑狼疮
体外
分子生物学
Toll样受体
遗传学
医学
基因
免疫系统
病理
疾病
抗体
先天免疫系统
作者
C. David,Carlos A. Arango-Franco,Mihaly Badonyi,Julien Fouchet,Gillian Rice,Blaise Didry‐Barca,L. Maisonneuve,Luís Seabra,Robin Kechiche,Cécile Masson,Aurélie Cobat,Laurent Abel,Estelle Talouarn,Vivien Béziat,Caroline Deswarte,Katie Livingstone,C. Paul,G. R. Malik,Alison Ross,Jane Adam
摘要
UNC93B1 is a transmembrane domain protein mediating the signaling of endosomal Toll-like receptors (TLRs). We report five families harboring rare missense substitutions (I317M, G325C, L330R, R466S, and R525P) in UNC93B1 causing systemic lupus erythematosus (SLE) or chilblain lupus (CBL) as either autosomal dominant or autosomal recessive traits. As for a D34A mutation causing murine lupus, we recorded a gain of TLR7 and, to a lesser extent, TLR8 activity with the I317M (in vitro) and G325C (in vitro and ex vivo) variants in the context of SLE. Contrastingly, in three families segregating CBL, the L330R, R466S, and R525P variants were isomorphic with respect to TLR7 activity in vitro and, for R525P, ex vivo. Rather, these variants demonstrated a gain of TLR8 activity. We observed enhanced interaction of the G325C, L330R, and R466S variants with TLR8, but not the R525P substitution, indicating different disease mechanisms. Overall, these observations suggest that UNC93B1 mutations cause monogenic SLE or CBL due to differentially enhanced TLR7 and TLR8 signaling.
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