On the nature of cell death during remodeling of hypertrophied human myocardium
S Yamamoto, K Sawada, H Shimomura… - Journal of molecular and …, 2000 - Elsevier
S Yamamoto, K Sawada, H Shimomura, K Kawamura, TN James
Journal of molecular and cellular cardiology, 2000•ElsevierS. Yamamoto, K.-i. Sawada, H. Shimomura, K. Kawamura and TN James. On the Nature of
Cell Death During Remodeling of Hypertrophied Human Myocardium. Journal of Molecular
and Cellular Cardiology (2000) 32, 161–175. Cardiocyte loss during myocardial hypertrophy
leads to progressive dysfunction in human hearts with chronic hemodynamic overload. The
mechanism for such cell elimination is unknown. We examined lysosomal participation in
cardiocytic degradation present in human cardiac biopsies, utilizing electron microscopic …
Cell Death During Remodeling of Hypertrophied Human Myocardium. Journal of Molecular
and Cellular Cardiology (2000) 32, 161–175. Cardiocyte loss during myocardial hypertrophy
leads to progressive dysfunction in human hearts with chronic hemodynamic overload. The
mechanism for such cell elimination is unknown. We examined lysosomal participation in
cardiocytic degradation present in human cardiac biopsies, utilizing electron microscopic …
S. Yamamoto, K.-i. Sawada, H. Shimomura, K. Kawamura and T. N. James. On the Nature of Cell Death During Remodeling of Hypertrophied Human Myocardium. Journal of Molecular and Cellular Cardiology (2000) 32, 161–175. Cardiocyte loss during myocardial hypertrophy leads to progressive dysfunction in human hearts with chronic hemodynamic overload. The mechanism for such cell elimination is unknown. We examined lysosomal participation in cardiocytic degradation present in human cardiac biopsies, utilizing electron microscopic cytochemistry (acid phosphatase). Lysosomes were significantly increased in number (t -test, P<0.001) in 50 hemodynamically overloaded hearts (375±69, mean±s.e.m. , per 5000 μ m2cardiocytic area; eight controls, 38±11). Secondary lysosomes were prominent near degenerative intracellular organelles in both hypertrophic and atrophic cardiocytes. Increased lysosomal and phagocytic activity in the cytoplasm without typical nuclear apoptosis resembled cytoplasmic degradation in developmental programmed cell death described in different tissues. We also demonstrated cardiocytic DNA degradation (in situ nick-end labeling) in autopsy hearts, including 299 nuclei normalized per 106observed nuclei from five concentrically hypertrophied hearts, 1961 nuclei from five eccentrically hypertrophied hearts, and no positive nuclei in five controls. We postulate a chronic self-controlled cytoplasmic proteolysis in cardiocytes, not initially associated with either nuclear degradation or intercellular dehiscence but later possibly accompanied by apoptotic nuclear elimination, and leading to apoptotic cell death.
Elsevier