Aims The regulation of protein degradation by the proteasome during cardiac hypertrophy remains largely unknown. Also, the proteasome translocates to the nuclear periphery in response to cellular stress in yeast, which remains unexplored in mammals. The purpose of this study was to determine the quantitative and qualitative adaptation of the proteasome during stable cardiac hypertrophy. Methods and results We measured proteasome activity, expression and sub-cellular distribution in a model of chronic cardiac hypertrophy induced by the stress-response chaperone H11 Kinase/Hsp22 (Hsp22). Over-expression of Hsp22 in a transgenic (TG) mouse leads to a 30% increase in myocyte cross-sectional area compared to wild-type (WT) mice (P < 0.01). Characterization of the proteasome in hearts from TG mice vs. WT revealed an increased expression of both 19S and 20S subunits (P < 0.05), a doubling in 20S catalytic activity (P < 0.01), a redistribution of both subunits from the cytosol to the nuclear periphery, and a four-fold increase in nuclear-associated 20S catalytic activity (P < 0.001). The perinuclear proteasome co-localized and interacted with Hsp22. Inhibition of proteasome activity by epoxomicin reduced hypertrophy in TG by 50% (P < 0.05). Adeno-mediated over-expression of Hsp22 in isolated cardiac myocytes increased both cell growth and proteasome activity, and both were prevented upon inhibition of the proteasome. Similarly, stimulation of cardiac cell growth by prohypertrophic stimuli increased Hsp22 expression and proteasome activity, and proteasome inhibition in that setting prevented hypertrophy. Proteasome inhibitors also prevented the increase in rate of protein synthesis observed after over-expression of Hsp22 or upon addition of pro-hypertrophic stimuli. Conclusions Hsp22-mediated cardiac hypertrophy promotes an increased expression and activity, and a subcellular redistribution of the proteasome. Inhibition of the proteasome reverses cardiac hypertrophy upon Hsp22 over-expression or upon stimulation by pro-hypertrophic hormones, and also blocks the stimulation of protein synthesis in these conditions.

• 出版日期2008-2-1