Mutation of p53 Acetylation Protects Against Angiotensin-II-Induced Cardiac Dysfunction and Fibrosis
Aubrey C. Cantrell, Quinesha A. Williams, Jian-Xiong Chen, Heng Zeng

TL;DR
This study shows that a mutation in p53 acetylation protects mice from heart damage caused by high blood pressure.
Contribution
The study demonstrates that p53 acetylation mutation provides cardiac protection against Ang-II-induced hypertension effects.
Findings
p53aceKO mice showed no significant changes in heart structure despite high blood pressure.
p53aceKO mice did not develop cardiac fibrosis induced by Ang-II.
Acetylated p53 may be a novel therapeutic target for hypertension-related heart complications.
Abstract
Hypertension is a major risk factor for heart failure. Acetylation of p53 is known to regulate its activities. We have previously identified that p53 acetylation is required for cardiac remodeling in a mouse model of pressure overload-induced heart failure. Acetylation mutant p53 (p53aceKO) mice have been shown to have the ability to regulate SIRT3 KO-induced cardiac fibrosis. In the present study, we hypothesized that p53aceKO mice would exhibit cardiac protection and blunt cardiac fibrosis when subjected to Ang-II-induced hypertension. Control and p53aceKO mice received either a micro-osmotic pump implant administering Ang-II for 28 days or a sham procedure. Blood pressure was measured weekly, and echocardiography was performed every two weeks. Mice were euthanized and hearts were processed for histological analysis. While both control and p53aceKO mice receiving Ang-II exhibit…
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Taxonomy
TopicsCardiac Fibrosis and Remodeling · Peptidase Inhibition and Analysis · MicroRNA in disease regulation
