A K63-Ubiquitination Dependent Necroptosis Signaling Network in the Heart

Project Summary/Abstract Loss of cardiomyocytes by apoptosis and/or necrosis is a hallmark of cardiac ischemic injury, pathological remodeling, and end-stage heart failure. Although necrosis was traditionally regarded as a passive and unregulated process, emerging evidence has shifted this paradigm and identified several forms of “programmed

necrosis”, including death receptor-mediated necrosis (termed “necroptosis”), mitochondria-mediated necrosis, and other regulated necrotic processes. Despite recent progress, how necroptosis is regulated in the heart remain largely unknown and preventing necroptotic cardiomyocyte death is still an important challenge. Our pilot

studies identified a new K63-linked polyubiquitination (K63-Ub) dependent necroptosis signaling network that critically regulates cardiac ischemic injury and pathological remodeling. Intriguingly, the K63-deubiquitinase CYLD (cylindromatosis) was markedly up-regulated, whereas the E3 ubiquitin ligase TRAF2 (TNF receptor

associated factor-2) was down-regulated, in the heart after ischemia-reperfusion injury. Our preliminary results further identified CYLD and TRAF2 as an activator and a suppressor of myocardial necroptosis, respectively. Importantly, cardiomyocyte-specific ablation of CYLD attenuated ischemic injury and adverse remodeling by

inhibiting necroptosis. Acute deletion of TRAF2 in the adult heart caused dilated cardiomyopathy by promoting necroptosis, whereas TRAF2 gene transfer elicited cardioprotection. Mechanistically, we propose a new K63- Ub dependent necroptotic regulatory mechanism whereby CYLD deubiquitinates TRAF2 and TAK1, disrupts

TAK1-RIP1 interaction, and promotes the necroptotic complex. As an opposing mechanism, TRAF2 acts as an E3 ligase for TAK1 to inhibit necroptosis signaling. Thus, the reversible K63-Ub (mainly non-proteolytic) constitutes a new paradigm of necroptosis signaling with important biological implications. We hypothesize

that the deubiquitinase CYLD, in conjunction with the E3 ligase TRAF2, critically regulate myocardial necroptosis, ischemic injury, and remodeling, thus representing promising therapeutic targets. Aim 1 will investigate the opposing roles of K63-Ub modifying enzymes CYLD and TRAF2 in regulating myocardial necroptosis and

ischemic injury in vivo. Aim 2 will define a CYLD/TRAF2 mediated, K63-Ub dependent necroptosis signaling network in cardiomyocytes. Using genetic and molecular strategies, we will investigate the opposing roles of CYLD and TRAF2 in regulating myocardial necroptosis under basal conditions and in the setting of ischemic

injury. The proposed studies will provide new insights into the molecular regulation and functional significance of necroptosis in the heart, which has important translational implications, especially given our preliminary results revealing CYLD/TRAF2 as key necroptotic regulators and promising targets for ischemic heart disease.