Experimental Studies Effects of Captopril on Interstitial Collagen in the Myocardium After Infarction in Rats

1997 
Background: Myocardial infarction is an important cause of heart failure because it causes tissue loss and contractility disturbances. In chronically infarcted hearts the increase in the collagen content in the extracellular matrix of the surviving viable myocardium has been considered a major factor contributing to development of heart failure. Postinfarction neuroendocrine activation involving the renin-angiotensin system has been implicated in this cardiac fibrosis. Methods and Results: As collagen synthesis and degradation are dynamic processes and postinfarction remodeling is a time-dependent phenomenon, rats submitted to coronary artery ligation to produce myocardial infarction were treated with captopril after infarction (30 mg/kg, intraperitoneally, daily) to investigate whether blockade of the renin-angiotensin system can prevent postinfarction myocardial hypertrophy and reactive fibrosis. Groups of rats with myocardial infarction were treated with captopril throughout the protocol period (6 weeks), or during the first 3 weeks after infarction (early therapy), or only during the last 3 weeks of the protocol (late therapy). Untreated groups of rats with or without myocardial infarction were used as control subjects. All animals were killed 6 weeks after surgery to evaluate hypertrophy of heart chambers and collagen deposition in the right ventricle wall and in surviving left ventricular muscle. Protein and hydroxyproline concentrations were assayed biochemically in these tissue homogenates. Only rats with an infarct covering 20 to 40% of the left ventricular surface were included in the study. In the control uninfarcted group (n = 12), hydroxyproline content was 152 + 12 btg in the fight ventricle and 370 _+ 30 btg in the left ventricle. These values increased (P < .05) to 232 + 13 and 630 _+ 46 btg, respectively, in the group with myocardial infarction (n = 8) without treatment. These values were significantly reduced (P < .05) to 160 _+ 9 btg in the fight ventricle and 520 _+ 40 gg in the left ventricle in the group with myocardial infarction treated with captopril for 6 weeks. The percentage decreases in collagen content and myocardial weight produced by captopril were similar. Thus, hydroxyproline concentration (rag hydroxyproline muscle), which increases significantly in both ventricles after myocardial infarction, was not modified by captopril therapy. Protein concentration in the fight and left ventricular muscles decreased after myocardial infarction. This decrease was enhanced in the infarcted groups submitted to captopril treatment, mainly in the group treated for 6 weeks. Lesser effects on hypertrophy and hydroxyproline content were observed in the groups of rats treated with captopril in only the earlier or later phase of infarction. Conclusions: It is concluded that captopril reduces similarly postinfarction hypertrophy and collagen deposition in surviving myocardium. These effects, although less intense, also occur when the drug is used for a short period immediately after myocardial infarction or when used later, when ventricular remodeling is almost fully developed.
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