HtrA1 activation is driven by an allosteric mechanism of inter-monomer communication
作者: Alvaro Cortes Cabrera , Esther Melo , Doris Roth , Andreas Topp , Frederic Delobel
DOI: 10.1101/163717
关键词: Tubulin 、 Trimer 、 Protease 、 HTRA1 、 Fibril 、 Allosteric regulation 、 Amyloid beta 、 Protein folding 、 Cell biology 、 Biology
摘要: The human protease family HtrA is responsible for preventing protein misfolding and mislocalization, a key player in several cellular processes. Among these, HtrA1 implicated cancers, cerebrovascular disease age-related macular degeneration. activation, although very relevant drug-targeting this protease, remains poorly characterized. Our work provides mechanistic step-by-step description of activation regulation. We report that the trimer regulated by an allosteric mechanism which monomers relay signal to each other, PDZ-domain independent fashion. Notably, we show inhibitor binding precluded if cannot communicate with other. study establishes how oligomerization plays fundamental role proteolytic activity. Moreover, it offers structural explanation HtrA1-defective pathologies as well insights into degradation complex extracellular fibrils such tubulin, amyloid beta tau belong repertoire HtrA1.
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