Abstract

Endoplasmic reticulum (ER) stress contributes to cardiovascular disease including heart failure. Interactions between the ER and mitochondria during ER stress can impair the mitochondrial respiratory chain and increase cell injury. p53 is a tumor suppressor protein that regulates apoptosis. p53 contributes to the regulation of mitochondrial and ER interactions, especially during the progression of ER stress. The knockout (KO) of p53 leads to decreased injury in hearts following ischemia-reperfusion. We asked if KO of p53 can protect mitochondria during the induction of ER stress and decrease cell injury. Floxed p53 mice were crossed with mice carrying an α-myosin heavy chain cre to generate cardiac specific p53 KO mice. Thapsigargin (THAP) was used to induce ER stress in wild type (WT) and p53 KO mice. Mice were euthanized after 48 h THAP treatment. Cardiac mitochondria were isolated for functional measurement. TUNEL staining was used to assess myocyte death. In WT mice, THAP treatment decreased the rate of oxidative phosphorylation using pyruvate + malate as complex I substrates compared to vehicle-treated control. Complex I activity was also decreased in the THAP-treated WT mice. The rate of oxidative phosphorylation and complex I activity were not altered in THAP-treated p53 KO mice. The content of pyruvate dehydrogenase (PDH) α1 subunit was decreased in THAP-treated WT mice but not in p53 KO mice. ER stress led to a release of cytochrome c and apoptosis inducing factor from mitochondria into cytosol in WT but not in KO mice. Knockout of p53 also preserved mitochondrial bcl-2 content in THAP-treated mice. In WT mice, THAP treatment markedly increased cell death compared to vehicle treated hearts. In contrast, cell injury was decreased in THAP-treated p53 KO mice compared to corresponding wild type. Thus, KO of p53 decreased cell injury by protecting mitochondria during the ER stress.

Highlights

  • The endoplasmic reticulum (ER) contributes an essential role in protein synthesis and folding, lipid production, and calcium storage [1, 2]

  • We show that knockout of p53 decreases cell death from THAP-induced ER stress in mouse hearts

  • These results indicate that knockout of p53 decreases the ER stress-induced cell death at least in part by protecting cardiac mitochondria

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Summary

Introduction

The endoplasmic reticulum (ER) contributes an essential role in protein synthesis and folding, lipid production, and calcium storage [1, 2]. The ER stress is involved in many cardiovascular diseases p53 and Mitochondrial Dysfunction including heart failure and ischemia-reperfusion injury. Induction of ER stress by inhibiting Ca2+-ATPase with thapsigargin (THAP) increases cell injury in mouse hearts [3]. Formation of the contact sites between MAM and mitochondria is important to key cellular events including the transport of calcium from the ER to mitochondria and the formation of autophagosomes to regulate the morphology and cell survival [4, 6]. P53 contributes to ER and mitochondrial interactions during ER stress [7]. We proposed that ER mediated mitochondrial damage in cardiomyocytes may occur in part via the actions of p53

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