醇溶蛋白
内肽酶
化学
腹腔疾病
体内
生物化学
面筋
酶原
谷氨酸受体
重组DNA
突变体
酶
生物
遗传学
医学
疾病
受体
病理
基因
作者
Laura del Amo-Maestro,Soraia R. Mendes,Arturo Rodríguez-Banqueri,Laura Garzon-Flores,Marina Girbal,María J. Rodríguez-Lagunas,Tibisay Guevara,Àngels Franch,Francisco J. Pérez‐Cano,Ulrich Eckhard,F. Xavier Gomis‐Rüth
标识
DOI:10.1038/s41467-022-32215-1
摘要
The digestion of gluten generates toxic peptides, among which a highly immunogenic proline-rich 33-mer from wheat α-gliadin, that trigger coeliac disease. Neprosin from the pitcher plant is a reported prolyl endopeptidase. Here, we produce recombinant neprosin and its mutants, and find that full-length neprosin is a zymogen, which is self-activated at gastric pH by the release of an all-β pro-domain via a pH-switch mechanism featuring a lysine plug. The catalytic domain is an atypical 7+8-stranded β-sandwich with an extended active-site cleft containing an unprecedented pair of catalytic glutamates. Neprosin efficiently degrades both gliadin and the 33-mer in vitro under gastric conditions and is reversibly inactivated at pH > 5. Moreover, co-administration of gliadin and the neprosin zymogen at the ratio 500:1 reduces the abundance of the 33-mer in the small intestine of mice by up to 90%. Neprosin therefore founds a family of eukaryotic glutamate endopeptidases that fulfils requisites for a therapeutic glutenase.
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