Abstract 68: p38 MAP Kinase Regulates Chamber Specific Postnatal Remodelling of Cardiac Ventricles

Abstract

Background: Left ventricle (LV) and right ventricle (RV) in mouse heart undergo dramatically different chamber-specific remodeling after birth, leading to rapid increase in LV vs. RV chamber size. However, the underlying regulatory mechanism mediating chamber specific remodeling process remains enigmatic. Results and Methods: In neonatal mouse heart, p38 MAP kinase activity is dynamically activated in a chamber specific manner. p38 activity is specifically elevated in RV comparing to LV at E18.5, postnatal day 3 (P3) and P7 stages whereas p38 activity is lower in both ventricles at P0 and P1. In mouse heart with cardiomyocyte specific-knockout of p38α and β (p38ab-cdKO), total p38 activity was diminished in both chambers. The p38ab-cdKO mice had significant neonatal lethality associated with RV specific chamber enlargement and significant increase in both RV wall thickness (RVW) and inner diameter of RV (RVID) as early as P3. Interestingly, p38 inactivation suppressed myocyte apoptotic activity specifically in RV while increased RV myocyte proliferation and hypertrophy during neonatal period. Unexpectedly, RNA-seq results implicated Xbp1 mediated transcriptional regulation significantly contributing to p38 dependent transcriptome reprogramming in RV. Indeed, IRE1α expression in neonatal cardiomyocyte is sufficient to induce proliferation in vitro. Furthermore, knockdown of Xbp1 blunted p38 inhibition-induced myocyte proliferation, suggesting that IRE1a/Xbp1 mediate p38 signaling in neonatal myocyte proliferation. Conclusion: Chamber-specific remodeling in neonatal heart involves temporally regulated and RV specific p38 MAP kinase activity. RV specific myocyte proliferation and hypertrophy concurrent with RV specific programmed myocyte death is orchestrated by two innate stress-response pathways, p38 and Xbp1.