Structural basis for pharmacological modulation of the TRPC6 channel-Reference-Cited by-同舟云学术

Structural basis for pharmacological modulation of the TRPC6 channel

Published:2020-03-09 Issue: Volume:9 Page:
ISSN:2050-084X
Container-title:eLife
language:en
Short-container-title:

Author:

Bai Yonghong¹^ORCID,Yu Xinchao²,Chen Hao³,Horne Daniel⁴,White Ryan⁴,Wu Xiaosu⁵,Lee Paul⁶,Gu Yan³,Ghimire-Rijal Sudipa¹,Lin Daniel C-H⁵,Huang Xin¹

Affiliation:

1. Department of Molecular Engineering, Amgen Research, Amgen Inc, Cambridge, United States

2. Department of Molecular Engineering, Amgen Research, Amgen Inc, South San Francisco, United States

3. Department of Protein Technologies, Amgen Research, Amgen Inc, Cambridge, United States

4. Department of Medicinal Chemistry, Amgen Research, Amgen Inc, Cambridge, United States

5. Department of Cardiometabolic Disorders, Amgen Research, Amgen Inc, South San Francisco, United States

6. Department of Discovery Technologies, Amgen Research, Amgen Inc, South San Francisco, United States

Abstract

Transient receptor potential canonical (TRPC) proteins form nonselective cation channels that play physiological roles in a wide variety of cells. Despite growing evidence supporting the therapeutic potential of TRPC6 inhibition in treating pathological cardiac and renal conditions, mechanistic understanding of TRPC6 function and modulation remains obscure. Here we report cryo-EM structures of TRPC6 in both antagonist-bound and agonist-bound states. The structures reveal two novel recognition sites for the small-molecule modulators corroborated by mutagenesis data. The antagonist binds to a cytoplasm-facing pocket formed by S1-S4 and the TRP helix, whereas the agonist wedges at the subunit interface between S6 and the pore helix. Conformational changes upon ligand binding illuminate a mechanistic rationale for understanding TRPC6 modulation. Furthermore, structural and mutagenesis analyses suggest several disease-related mutations enhance channel activity by disrupting interfacial interactions. Our results provide principles of drug action that may facilitate future design of small molecules to ameliorate TRPC6-mediated diseases.

Publisher

eLife Sciences Publications, Ltd

Subject

General Immunology and Microbiology,General Biochemistry, Genetics and Molecular Biology,General Medicine,General Neuroscience

Link

https://cdn.elifesciences.org/articles/53311/elife-53311-v2.pdf

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