Stage-dependent activation of cell cycle and apoptosis mechanisms in the right ventricle by pressure overload

A. Ecarnot-Laubriet, M. Assem, F. Poirson-Bichat, M. Moisant, C. Bernard, S. Lecour, E. Solary, L. Rochette, J. R. Teyssier

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    Résumé

    The molecular basis of the intrinsic vulnerability of the compliant right ventricle to chronic pressure overload is poorly understood. Extensive apoptosis, possibly coupled with aberrant cell cycle reentry, in response to unrestrained biomechanical stress may account for this phenotypic flaw. To address this issue we have studied changes in expression of the cell cycle and apoptosis regulators in the right ventricle following induction of pulmonary hypertension in the rat by injection of monocrotaline. Hypertrophy, apoptosis and cell cycle events, as well as expression of their regulator genes were documented during a period of 31 days. The hypertrophy index reached 127% at day 31. At the early stage both apoptosis and cell proliferation pathways were coincidentally activated. The level of cyclin A and E transcripts steadily increased, the labeling index was 4.8% at day 31, and expression of the caspase-3 gene peaked at day 14. Until day 21 execution of apoptosis was prevented, probably by a high level of Bcl-2. At this time point Bcl-2 collapsed, cyclin D1 was upregulated, the differentiation gatekeeper p27Kip1 was downregulated, pro-caspase-3 was activated and extensive apoptosis developed. These results indicate that the right ventricle is especially vulnerable to apoptotic pressure-dependent stimuli, and that the cell cycle and apoptosis pathways were co-activated in this experimental model.

    langue originaleAnglais
    Pages (de - à)233-242
    Nombre de pages10
    journalBiochimica et Biophysica Acta - Molecular Basis of Disease
    Volume1586
    Numéro de publication3
    Les DOIs
    étatPublié - 24 avr. 2002

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