The role of the matrix calcium level in the enhancement of mitochondrial pyruvate carboxylation by glucagon pretreatment.

Autor: Walajtys-Rhode, E, Zapatero, J, Moehren, G, Hoek, J B
Zdroj: Journal of Biological Chemistry; January 1992, Vol. 267 Issue: 1 p370-379, 10p
Abstrakt: The effect of Ca2+ on the rate of pyruvate carboxylation was studied in liver mitochondria from control and glucagon-treated rats, prepared under conditions that maintain low Ca2+ levels (1-3 nmol/mg of protein). When the matrix-free [Ca2+] was low (less than 100 nM), the rate of pyruvate carboxylation was not significantly different in mitochondria from control and glucagon-treated rats. Accumulation of 5-8 nmol of Ca2+/mg, which increased the matrix [Ca2+] to 2-5 microM in both preparations, significantly enhanced pyruvate carboxylase flux by 20-30% in the mitochondria from glucagon-treated rats, but had little effect in control preparations. Higher levels of Ca2+ (up to 75 nmol/mg) inhibited pyruvate carboxylation in both preparations, but the difference between the mitochondria from control and glucagon-treated animals was maintained. The enhancement of pyruvate dehydrogenase flux by mitochondrial Ca2+ uptake was also significantly greater in mitochondria from glucagon-treated rats. These differential effects of Ca2+ uptake on enzyme fluxes did not correlate with changes in the mitochondrial ATP/ADP ratio, the pyrophosphate level, or the matrix volume. Arsenite completely prevented 14CO2 incorporation when pyruvate was the only substrate, but caused only partial inhibition when succinate and acetyl carnitine were present as alternative sources of energy and acetyl-CoA. Under these conditions, mitochondria from glucagon-treated rats were less sensitive to arsenite than the control preparations, even at low Ca2+ levels. We conclude that the Ca(2+)-dependent enhancement of pyruvate carboxylation in mitochondria from glucagon-treated rats is a secondary consequence of pyruvate dehydrogenase activation; glucagon treatment is suggested to affect the conditions in the mitochondria that change the sensitivity of the pyruvate dehydrogenase complex to dephosphorylation by the Ca(2+)-sensitive pyruvate dehydrogenase phosphatase.
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