ZFP36L2 suppresses mTORc1 through a P53-dependent pathway to prevent peripartum cardiomyopathy in mice
Hidemichi Kouzu, … , Perry J. Blackshear, Hossein Ardehali
Hidemichi Kouzu, … , Perry J. Blackshear, Hossein Ardehali
Published March 22, 2022
Citation Information: J Clin Invest. 2022;132(10):e154491. https://doi.org/10.1172/JCI154491.
View: Text | PDF
Research Article Cardiology Cell biology

ZFP36L2 suppresses mTORc1 through a P53-dependent pathway to prevent peripartum cardiomyopathy in mice

Abstract

Pregnancy is associated with substantial physiological changes of the heart, and disruptions in these processes can lead to peripartum cardiomyopathy (PPCM). The molecular processes that cause physiological and pathological changes in the heart during pregnancy are not well characterized. Here, we show that mTORc1 was activated in pregnancy to facilitate cardiac enlargement that was reversed after delivery in mice. mTORc1 activation in pregnancy was negatively regulated by the mRNA-destabilizing protein ZFP36L2 through its degradation of Mdm2 mRNA and P53 stabilization, leading to increased SESN2 and REDD1 expression. This pathway impeded uncontrolled cardiomyocyte hypertrophy during pregnancy, and mice with cardiac-specific Zfp36l2 deletion developed rapid cardiac dysfunction after delivery, while prenatal treatment of these mice with rapamycin improved postpartum cardiac function. Collectively, these data provide what we believe to be a novel pathway for the regulation of mTORc1 through mRNA stabilization of a P53 ubiquitin ligase. This pathway was critical for normal cardiac growth during pregnancy, and its reduction led to PPCM-like adverse remodeling in mice.

Authors

Hidemichi Kouzu, Yuki Tatekoshi, Hsiang-Chun Chang, Jason S. Shapiro, Warren A. McGee, Adam De Jesus, Issam Ben-Sahra, Zoltan Arany, Jonathan Leor, Chunlei Chen, Perry J. Blackshear, Hossein Ardehali

×

Figure 6

SESN2 and REDD1 regulation by ZFP36L2 is P53 dependent.

Options: View larger image (or click on image) Download as PowerPoint
SESN2 and REDD1 regulation by ZFP36L2 is P53 dependent. (A) mRNA levels ...
(A) mRNA levels of Sesn2 and Redd1 after treating H9c2 cells with increasing concentrations of nutlin3, illustrating that nutlin3 increases both Sesn2 and Redd1 mRNA levels in a dose-dependent manner (n = 3–4). (B) Sesn2 and Redd1 mRNA levels in response to Zfp36l2 KD and after treatment with nutlin3 (n = 4–6). (C) Representative Western blot of H9c2 cells treated with Zfp36l2 siRNA in the presence and absence of nutlin3. (D) Summary of densitometry of Western blot analysis in C (n = 4), demonstrating that nutlin3 reverses the effects of Zfp36l2 KD on the protein levels of P53, SESN2, and REDD1. (E) Western blot of P53, SESN2, REDD1, p-S6S240/244, and total S6 in cardiomyocytes isolated from mice with cardiac deletion of Zfp36l2 and (F) summary of densitometry (n = 3–4). Data were analyzed by unpaired Student’s t test (A and F), 2-way ANOVA with Tukey’s test for multiple group comparison (B), or 1-way ANOVA with Tukey’s test for multiple group comparison (D).