IP3 receptor orchestrates maladaptive vascular responses in heart failure

Haikel Dridi, Gaetano Santulli, Jessica Gambardella, Stanislovas S. Jankauskas, Qi Yuan, Jingyi Yang, Steven Reiken, Xujun Wang, Anetta Wronska, Xiaoping Liu, Alain Lacampagne, Andrew R. Marks

Research output: Contribution to journalArticlepeer-review

Abstract

Patients with heart failure (HF) have augmented vascular tone, which increases cardiac workload, impairing ventricular output and promoting further myocardial dysfunction. The molecular mechanisms underlying the maladaptive vascular responses observed in HF are not fully understood. Vascular smooth muscle cells (VSMCs) control vasoconstriction via a Ca2+-dependent process, in which the type 1 inositol 1,4,5-trisphosphate receptor (IP3R1) on the sarcoplasmic reticulum (SR) plays a major role. To dissect the mechanistic contribution of intracellular Ca2+ release to the increased vascular tone observed in HF, we analyzed the remodeling of IP3R1 in aortic tissues from patients with HF and from controls. VSMC IP3R1 channels from patients with HF and HF mice were hyperphosphorylated by both serine and tyrosine kinases. VSMCs isolated from IP3R1VSMC-/- mice exhibited blunted Ca2+ responses to angiotensin II (ATII) and norepinephrine compared with control VSMCs. IP3R1VSMC-/- mice displayed significantly reduced responses to ATII, both in vivo and ex vivo. HF IP3R1VSMC-/- mice developed significantly less afterload compared with HF IP3R1fl/fl mice and exhibited significantly attenuated progression toward decompensated HF and reduced interstitial fibrosis. Ca2+-dependent phosphorylation of the MLC by MLCK activated VSMC contraction. MLC phosphorylation was markedly increased in VSMCs from patients with HF and HF mice but reduced in VSMCs from HF IP3R1VSMC-/- mice and HF WT mice treated with ML-7. Taken together, our data indicate that VSMC IP3R1 is a major effector of increased vascular tone, which contributes to increased cardiac afterload and decompensation in HF.

Original languageEnglish (US)
JournalThe Journal of clinical investigation
Volume132
Issue number4
DOIs
StatePublished - Feb 15 2022

Keywords

  • Calcium channels
  • Calcium signaling
  • Cardiology
  • Cardiovascular disease
  • Cell Biology

ASJC Scopus subject areas

  • Medicine(all)

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