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  • Title: Myocardial biosynthesis of prostacyclin and the influence of cardiac loading and drugs.
    Author: Mentz P, Pawelski KE, Giessler C, Mest HJ, Mannes F, Rotzoll S.
    Journal: Biomed Biochim Acta; 1988; 47(10-11):S244-7. PubMed ID: 3073764.
    Abstract:
    Cardiac tissue from different parts of hearts from guinea pigs and rabbits have the capacity to rapidly synthesize prostacyclin (PGI2). Auricles show a higher PGI2-formation than ventricles. Addition of the endoperoxide PGH2 markedly enhanced the myocardial PGI2-biosynthesis. Furthermore many cardiotonic drugs induced a significant rise, but eicosanoids or cyclooxygenase inhibitors a marked reduction of the cardiac PGI2-formation. Acute pressure overload by graduated aortic stenosis, ischemia by coronary ligation or pacing with high frequency reduced the cardiac contractility. After aortic stenosis the myocardial PGI2-biosynthesis is lowered, but increased after coronary ligation or pacing. Under these conditions indomethacin, PGE1, iloprost, verapamil and trapidil markedly reduced the PGI2-biosynthesis and exert a protective effect in regard to cardiac damage. The results indicate that pathophysiological changes significantly influence the PGI2-biosynthesis of the heart. The drug induced inhibition of the myocardial PGI2-formation parallels a cardioprotective effect of these substances.
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