Nature Communications (Nov 2024)

AS160 is a lipid-responsive regulator of cardiac Ca2+ homeostasis by controlling lysophosphatidylinositol metabolism and signaling

  • Shu Su,
  • Chao Quan,
  • Qiaoli Chen,
  • Ruizhen Wang,
  • Qian Du,
  • Sangsang Zhu,
  • Min Li,
  • Xinyu Yang,
  • Ping Rong,
  • Jiang Chen,
  • Yingyu Bai,
  • Wen Zheng,
  • Weikuan Feng,
  • Minjun Liu,
  • Bingxian Xie,
  • Kunfu Ouyang,
  • Yun Stone Shi,
  • Feng Lan,
  • Xiuqin Zhang,
  • Ruiping Xiao,
  • Xiongwen Chen,
  • Hong-Yu Wang,
  • Shuai Chen

DOI
https://doi.org/10.1038/s41467-024-54031-5
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 18

Abstract

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Abstract The obese heart undergoes metabolic remodeling and exhibits impaired calcium (Ca2+) homeostasis, which are two critical assaults leading to cardiac dysfunction. The molecular mechanisms underlying these alterations in obese heart are not well understood. Here, we show that the Rab-GTPase activating protein AS160 is a lipid-responsive regulator of Ca2+ homeostasis through governing lysophosphatidylinositol metabolism and signaling. Palmitic acid/high fat diet inhibits AS160 activity through phosphorylation by NEK6, which consequently activates its downstream target Rab8a. Inactivation of AS160 in cardiomyocytes elevates cytosolic Ca2+ that subsequently impairs cardiac contractility. Mechanistically, Rab8a downstream of AS160 interacts with DDHD1 to increase lysophosphatidylinositol metabolism and signaling that leads to Ca2+ release from sarcoplasmic reticulum. Inactivation of NEK6 prevents inhibition of AS160 by palmitic acid/high fat diet, and alleviates cardiac dysfunction in high fat diet-fed mice. Together, our findings reveal a regulatory mechanism governing metabolic remodeling and Ca2+ homeostasis in obese heart, and have therapeutic implications to combat obesity cardiomyopathy.