Proteasome activation during cardiac hypertrophy by the chaperone H11 Kinase/Hsp22

doi:10.1093/cvr/cvm054

Cardiovascular Research Advance Access first published online on October 30, 2007
This version [Corrected Proof] published online on November 23, 2007
Cardiovascular Research, doi:10.1093/cvr/cvm054

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Proteasome activation during cardiac hypertrophy by the chaperone H11 Kinase/Hsp22

Nadia Hedhli¹, Li Wang¹, Qian Wang¹, Eman Rashed¹, Yimin Tian¹, Xiangzhen Sui¹, Kiran Madura² and Christophe Depre¹^,*

¹ New Jersey Medical School, Department of Cell Biology and Molecular Medicine, Cardiovascular Research Institute, University of Medicine and Dentistry of New Jersey, 185 South Orange Avenue, MSB G-609, Newark, NJ 07103, USA
² Robert Wood Johnson Medical School, Department of Biochemistry, University of Medicine and Dentistry of New Jersey, Piscataway, NJ, USA

^* Corresponding author. Tel: +1 973 972 3926; fax: +1 973 972 7489. E-mail address: deprech{at}umdnj.edu

Aims: The regulation of protein degradation by the proteasome duringcardiac hypertrophy remains largely unknown. Also, the proteasometranslocates to the nuclear periphery in response to cellularstress in yeast, which remains unexplored in mammals. The purposeof this study was to determine the quantitative and qualitativeadaptation of the proteasome during stable cardiac hypertrophy.

Methods and results: We measured proteasome activity, expression and sub-cellulardistribution in a model of chronic cardiac hypertrophy inducedby the stress-response chaperone H11 Kinase/Hsp22 (Hsp22). Over-expressionof Hsp22 in a transgenic (TG) mouse leads to a 30% increasein myocyte cross-sectional area compared to wild-type (WT) mice(P < 0.01). Characterization of the proteasome in heartsfrom TG mice vs. WT revealed an increased expression of both19S and 20S subunits (P < 0.05), a doubling in 20S catalyticactivity (P < 0.01), a redistribution of both subunits fromthe cytosol to the nuclear periphery, and a four-fold increasein nuclear-associated 20S catalytic activity (P < 0.001).The perinuclear proteasome co-localized and interacted withHsp22. Inhibition of proteasome activity by epoxomicin reducedhypertrophy in TG by 50% (P < 0.05). Adeno-mediated over-expressionof Hsp22 in isolated cardiac myocytes increased both cell growthand proteasome activity, and both were prevented upon inhibitionof the proteasome. Similarly, stimulation of cardiac cell growthby pro-hypertrophic stimuli increased Hsp22 expression and proteasomeactivity, and proteasome inhibition in that setting preventedhypertrophy. Proteasome inhibitors also prevented the increasein rate of protein synthesis observed after over-expressionof Hsp22 or upon addition of pro-hypertrophic stimuli.

Conclusions: Hsp22-mediated cardiac hypertrophy promotes an increased expressionand activity, and a subcellular redistribution of the proteasome.Inhibition of the proteasome reverses cardiac hypertrophy uponHsp22 over-expression or upon stimulation by pro-hypertrophichormones, and also blocks the stimulation of protein synthesisin these conditions.

KEYWORDS Growth factors; Hypertrophy; Transgenic animal models

Time for primary review: 36 days

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