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Abstract 416: Sarcomere Disassembly After Unloading is Regulated by Ubiquitination and Acetylation of Capz and α-actinin

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Cardiac function mainly depends on the total myocyte mass in the ventricles. Assembly and disassembly of sarcomeres occurs to adjust this mass to altered mechanical demand. In the heart, hypertrophic… Click to show full abstract

Cardiac function mainly depends on the total myocyte mass in the ventricles. Assembly and disassembly of sarcomeres occurs to adjust this mass to altered mechanical demand. In the heart, hypertrophic cardiomyopathy results from myofibrillar assembly controlled by post-translational modification of proteins directed by signaling pathways. More is known about assembly on loading than disassembly on unloading. Here, the hypothesis tested is that unloading of mechanical forces affects acetylation (Ac) and ubiquitination (Ub) of the actin-binding proteins, α-actinin and CapZ. Omecamtiv mecarbil (0.5 μM) and mavacamten (1 μM) were used to increase (load) and decrease (unload) cardiomyocyte tension, respectively, via their action on myosin ATPase. Mavacamten decreased myocyte contractility in rat ventricular myocytes (NRVMs) and caused significant sarcomere disassembly by 6 h and 70% atrophy by 24 h. Assembly was preserved with omecamtiv mecarbil (0.5 μM) over the 24 h time period. Post-translational modification was determined in loaded and unloaded NRVMs at 6 h of drug treatment. Bottom-up mass spectrometry analysis showed single residues in α-actinin and CapZ that were acetylated or ubiquitinated. Acetylation levels appeared to increase in the mavacamten-treated samples while these levels are preserved in untreated and omecamtiv mecarbil-treated samples. Ac and Ub in the Z-discs were quantified on immunofluorescent images. The Z-discs colocalized oligo-Ub (K-48 oligo-Ub linkage) and Ac in untreated samples; this Z-disc localization of Ub and Ac was diminished with unloading. Fluorescence recovery after photobleaching (FRAP) measurements of the dynamics of α-actinin and CapZ after reduced cell tension with mavacamten (1 μM) and omecamtiv mercabil (0.5 μM) are ongoing. Overall, results suggest sarcomere assembly is regulated by mechanical forces through a mechanism involving Ac and Ub of myofibrillar proteins. These findings could have consequences for cardiac heart disease with abnormal sarcomeric proteostasis.

Keywords: disassembly unloading; omecamtiv mecarbil; acetylation; sarcomere disassembly; capz; actinin capz

Journal Title: Circulation Research
Year Published: 2020

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