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Conformational transitions of caspase-6 in substrate-induced activation process explored by perturbation-response scanning combined with targeted molecular dynamics

Shuheng Huang, Mei Hu, Laichun Lu, Zuyin Kuang, Yu Heng, Lei Xu, Xiaoqi Liang, Minyao Qiu, Xianchao Pan

2021Computational and Structural Biotechnology Journal8 citationsDOIOpen Access PDF

Abstract

Caspase-6 participates in a series of neurodegenerative pathways, and has aroused widespread attentions as a promising molecular target for the treatment of neurodegeneration. Caspase-6 is a homodimer with 6 central-stranded β-sheets and 5 α-helices in each monomer. Previous crystallographic studies suggested that the 60's, 90's and 130's helices of caspase-6 undergo a distinctive conformational transition upon substrate binding. Although the caspase-6 structures in apo and active states have been determined, the conformational transition process between the two states remains poorly understood. In this work, perturbation-response scanning (PRS) combined with targeted molecular dynamics (TMD) simulations was employed to unravel the atomistic mechanism of the dynamic conformational transitions underlying the substrate-induced activation process of caspase-6. The results showed that the conformational transition of caspase-6 from apo to active states is mainly characterized by structural rearrangements of the substrate-binding site as well as the conformational changes of 60's and 130's extended helices. The H-bond interactions between L1, 130's helix and 90's helix are proved to be key determinant factors for substrate-induced conformational transition. These findings provide valuable insights into the activation mechanism of caspase-6 as well as the molecular design of caspase-6 inhibitors.

Topics & Concepts

Molecular dynamicsConformational changeBiophysicsChemistryHelix (gastropod)Substrate (aquarium)Transition (genetics)Molecular mechanicsActive siteProtein structureStereochemistryCrystallographyEnzymeBiochemistryBiologyComputational chemistrySnailGeneEcologyCell death mechanisms and regulationProtein Structure and DynamicsRNA and protein synthesis mechanisms