炎症
精氨酸
材料科学
结晶
半乳糖凝集素
纳米技术
细胞生物学
生物化学
免疫学
生物
氨基酸
化学工程
工程类
作者
Wenbo Zhang,Shuyuan Li,Yang Wang,Shuli Liu,Lei Liu,Zhun Deng,Shanshan Mo,Mingrui Chen,Zhenyan Li,Ruonan Wang,Zhou Xin,Longxin Xu,Lanlan Yu,Zhenlin Liu,Hongwei Li,Junbo Liang,Chenxuan Wang
标识
DOI:10.1021/acsami.4c18411
摘要
Protein self-assembly into a crystal in vivo triggers acute or chronic organ injury that can lead to intractable diseases lacking specific treatment options. In this study, we report the discovery of ionic arginine-rich peptides to disrupt the pathogenic galectin-10 (gal-10) crystallization, where the aberrant deposition of gal-10 crystals in airways causes the activation of IL-1β-dependent inflammation and the stimulation of epithelial cells to produce TNF-α. Gal-10 crystals show susceptibility to pH changes and charged residue substitutions at the protein packing interfaces, manifesting the role of charge-charge attractions across protein-protein interaction interfaces in governing gal-10 crystallization. To dissolve the gal-10 crystal, the ionic peptides R9 and R12Y8 were identified to eliminate the interprotein charge-charge interactions. The efficacy of R12Y8 in mitigating the gal-10 crystallopathy in vivo was assessed in a crystal-induced lung inflammation mice model. The mice intratracheally administrated by R12Y8 exhibited a downregulated release of proinflammatory cytokines and reduced infiltration of inflammatory cells in the lungs. Our study demonstrates that the pathogenic gal-10 crystallization is readily eliminated by R-rich peptides, which may display translational potentials for the treatment of gal-10 crystallopathy.
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