TRPC channels blockade abolishes endotoxemic cardiac dysfunction by hampering intracellular inflammation and Ca2+ leakage
Na Tang, Wen Tian, Guang-Yuan Ma, Xiong Xiao, Lei Zhou, Zezhi Li, Xiao-Xiao Liu, Chongyao Li, Kehan Wu, Wenjuan Liu, Xueying Wang, Yuanyuan Gao, Xin Yang, Jianzhao Qi, Ding Li, Yang Liu, Wensheng Chen, Jin‐Ming Gao, Xiaoqiang Li, Wei Cao
Abstract
Abstract Intracellular Ca 2+ dysregulation is a key marker in septic cardiac dysfunction; however, regulation of the classic Ca 2+ regulatory modules cannot successfully abolish this symptom. Here we show that the knockout of transient receptor potential canonical (TRPC) channel isoforms TRPC1 and TRPC6 can ameliorate LPS-challenged heart failure and prolong survival in mice. The LPS-triggered Ca 2+ release from the endoplasmic reticulum both in cardiomyocytes and macrophages is significantly inhibited by Trpc1 or Trpc6 knockout. Meanwhile, TRPC’s molecular partner — calmodulin — is uncoupled during Trpc1 or Trpc6 deficiency and binds to TLR4’s Pococurante site and atypical isoleucine-glutamine-like motif to block the inflammation cascade. Blocking the C-terminal CaM/IP3R binding domain in TRPC with chemical inhibitor could obstruct the Ca 2+ leak and TLR4-mediated inflammation burst, demonstrating a cardioprotective effect in endotoxemia and polymicrobial sepsis. Our findings provide insight into the pathogenesis of endotoxemic cardiac dysfunction and suggest a novel approach for its treatment.