Xiaogang Peng scite author profile

The transient receptor potential canonical subfamily member 5 (TRPC5), one of seven mammalian TRPC members, is a nonselective calcium-permeant cation channel. TRPC5 is of considerable interest as a drug target in the treatment of progressive kidney disease, depression, and anxiety. Here, we present the 2.8-Å resolution cryo–electron microscopy (cryo-EM) structure of the mouse TRPC5 (mTRPC5) homotetramer. Comparison of the TRPC5 structure to previously determined structures of other TRPC and TRP channels reveals differences in the extracellular pore domain and in the length of the S3 helix. The disulfide bond at the extracellular side of the pore and a preceding small loop are essential elements for its proper function. This high-resolution structure of mTRPC5, combined with electrophysiology and mutagenesis, provides insight into the lipid modulation and gating mechanisms of the TRPC family of ion channels.

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Structure of the mouse TRPC4 ion channel

Duan

Zeng

et al. 2018

Nat Commun

123

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Members of the transient receptor potential (TRP) ion channels conduct cations into cells. They mediate functions ranging from neuronally mediated hot and cold sensation to intracellular organellar and primary ciliary signaling. Here we report a cryo-electron microscopy (cryo-EM) structure of TRPC4 in its unliganded (apo) state to an overall resolution of 3.3 Å. The structure reveals a unique architecture with a long pore loop stabilized by a disulfide bond. Beyond the shared tetrameric six-transmembrane fold, the TRPC4 structure deviates from other TRP channels with a unique cytosolic domain. This unique cytosolic N-terminal domain forms extensive aromatic contacts with the TRP and the C-terminal domains. The comparison of our structure with other known TRP structures provides molecular insights into TRPC4 ion selectivity and extends our knowledge of the diversity and evolution of the TRP channels.

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IL‐17A produced by both γδ T and Th17 cells promotes renal fibrosis via RANTES‐mediated leukocyte infiltration after renal obstruction

Peng

Xiao

Zhang

et al. 2014

The Journal of Pathology

111

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IL-17A-producing T lymphocytes play a crucial role in inflammatory kidney diseases, but their role in renal fibrosis remains to be explored. Here, we demonstrated that up-regulation of IL-17A was associated with the development of obstructive kidney injury. The primary source of IL-17A production in obstructed kidneys was infiltrating γδ T lymphocytes and CD4(+) T cells. IL-17A-deficient mice were protected from myofibroblast activation and extracellular matrix deposition, leading to reduced kidney fibrosis in response to obstructive injury. Mechanistically, IL-17A deficiency suppressed the expression of the chemokine RANTES in infiltrated CD3(+) T cells and peritubular inflammation following renal obstruction. Administration of RANTES-neutralizing antibody significantly reduced the accumulation of T cells and macrophages, and of collagen deposition in obstructed kidneys. Taken together, our results indicate that IL-17A contributes significantly to the pathogenesis of renal fibrosis by regulating RANTES-mediated inflammatory cell infiltration.

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The Notch γ-secretase inhibitor ameliorates kidney fibrosis via inhibition of TGF-β/Smad2/3 signaling pathway activation

Xiao

Zhang

Peng

et al. 2014

The International Journal of Biochemistry & Cell Biology

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Xiaogang Peng

Low Population Selenium Status Is Associated With Increased Prevalence of Thyroid Disease

Cryo-EM structure of TRPC5 at 2.8-Å resolution reveals unique and conserved structural elements essential for channel function

Structure of the mouse TRPC4 ion channel

IL‐17A produced by both γδ T and Th17 cells promotes renal fibrosis via RANTES‐mediated leukocyte infiltration after renal obstruction

The Notch γ-secretase inhibitor ameliorates kidney fibrosis via inhibition of TGF-β/Smad2/3 signaling pathway activation

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