Lysosomal changes during thyroxine-induced left ventricular hypertrophy in rabbits.

By use of a combined morphologic, immunocytochemical, and biochemical approach, this study demonstrates the changes in the lysosomal vacuolar apparatus that accompany thyroxine-induced cardiac hypertrophy. During the 1st wk of thyroxine administration, immunocytochemical studies revealed a decline in cathepsin D within many myocytes, but an increase within interstitial cells. These events transpired with only a modest rise in cathepsin D activity. During the 2nd wk, cathepsin D reappeared within most myocytes and continued to increase within the interstitial population and was associated with a general rise in lysosomal enzyme activity. These data demonstrate the importance of employing both immunocytochemical and biochemical approaches to evaluate the status of the lysosomal vacuolar apparatus, and suggests that the lysosomal vacuolar apparatus may be involved in the apparent remodeling that attends rapid cardiac growth, which may represent one component of the enhanced rates of proteolysis documented in this model of cardiac hypertrophy.