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  • Title: Effect of age on phosphorylated compounds and mechanical activity of isolated rat heart: a 31P-NMR study.
    Author: Finelli C, Aussedat J, Ray A, Lortet S, Lavanchy N, Guarnieri C, Caldarera CM, Rossi A.
    Journal: Cardiovasc Res; 1993 Nov; 27(11):1978-82. PubMed ID: 8287406.
    Abstract:
    OBJECTIVE: The aim was to test the hypothesis that aging may change the function and energetics of isolated hearts subjected to an increased work load induced by varying the calcium concentration ([Ca2+]) in the perfusion fluid from 0.5 to 1.0, 1.5, or 2.0 mM. METHODS: Female Wistar rats aged 4, 12-14, and 22-24 months were used. Their hearts were perfused through the aorta and changes in myocardial phosphorylated compound concentration were measured by means of 31P-nuclear magnetic resonance spectroscopy and biochemical analysis. Myocardial contractility was measured in situ in closed heart anaesthetised animals and was followed in vitro during perfusion. RESULTS: The contractile indices measured in situ revealed a decrease with aging of the left ventricular developed pressure and dP/dtmax, while heart rate did not show any significant difference. In all age groups the stepwise increase in [Ca2+] caused a graded increase in left ventricular pressure in the perfused hearts. In aged rats, the left ventricular pressure associated with the different concentrations of Ca2+ was significantly lower than in young rats. In all three groups the myocardial content of inorganic phosphorus (Pi) increased in response to a rise in [Ca2+] and left ventricular pressure. The ATP content of the hearts remained constant in all three groups at each value of [Ca2+] induced left ventricular pressure. However, both ATP and total adenine nucleotide contents of the hearts were lower in aged rats. When the alteration in Pi due to each increase in [Ca2+] was expressed in relation to the rise in left ventricular developed pressure, this relationship was not significantly different in the three groups of hearts. CONCLUSIONS: The reduced mechanical activity of aged rat hearts is not due to a diminished efficiency of the mechanisms transferring high energy phosphates.
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