1. Increasing concentrations of 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), a mild respiratory-chain inhibitor [Halestrap (1987) Biochim. Biophys. Acta 927, 280-290], caused progressive inhibition of glucose production from lactate + pyruvate by hepatocytes from starved rats incubated in the presence or absence of oleate and gluconeogenic hormones. 2. No significant changes in tissue ATP content were observed, but there were concomitant decreases in ketone-body output and cytochrome c reduction and increases in NADH fluorescence and the ratios of [lactate]/[pyruvate] and [beta-hydroxybutyrate]/[acetoacetate]. 3. The inhibition by DCMU of palmitoylcarnitine oxidation by isolated liver mitochondria was used to calculate a flux control coefficient of the respiratory chain towards gluconeogenesis. In the presence of 1 mM-oleate, the calculated values were 0.61, 0.39 and 0.25 in the absence of hormone and in the presence of glucagon or phenylephrine respectively, consistent with activation of the respiratory chain in situ as previously suggested [Quinlan & Halestrap (1986) Biochem. J. 236, 789-800]. 4. Cytoplasmic oxaloacetate concentrations were shown to decrease under these conditions, implying inhibition of pyruvate carboxylase. 5. Inhibition of gluconeogenesis from fructose and dihydroxyacetone was also observed with DCMU and was accompanied by an increased output of lactate + pyruvate, suggesting that activation of pyruvate kinase was occurring. With the latter substrate, measurements of tissue ADP and ATP contents showed that DCMU caused a small fall in [ATP]/[ADP] ratio. 6. Two inhibitors of fatty acid oxidation, pent-4-enoate and 2-tetradecylglycidate, were shown to abolish and to decrease respectively the effects of hormones, but not valinomycin, on gluconeogenesis from lactate + pyruvate, without changing tissue ATP content. 7. It is concluded that the hormonal increase in mitochondrial matrix volume stimulates fatty acid oxidation and respiratory-chain activity, allowing stimulation of pyruvate carboxylation and thus gluconeogenesis to occur without major changes in [ATP]/[ADP] or [NADH]/[NAD+] ratios. 8. The high flux control coefficient of the respiratory chain towards gluconeogenesis may account for the hypoglycaemic effect of mild respiratory-chain inhibitors.
Rat hepatocytes whose phosphatidylinositol 4-phosphate (PIP) and phosphatidylinositol 4,5-bisphosphate (PIP2) had been labelled for 60 min with 32P were treated with glucagon for 10 min or phenylephrine for 2 min. Glucagon caused a 20% increase in PIP but no change in PIP2 whereas phenylephrine caused a similar increase in PIP but a 15% decrease in PIP2. Addition of both hormones together for 10 min produced a 40% increase in PIP. A crude liver mitochondrial fraction incubated with [32P]Pi and ADP incorporated label into PIP, PIP2 and phosphatidic acid. The PIP2 was shown to be in contaminating plasma membranes and PIP in both lysosomal and plasma-membrane contamination. A minor but definitely mitochondrial phospholipid, more polar than PIP2, was shown to be labelled with 32P both in vitro and in hepatocytes. The rate of 32P incorporation into PIP was faster in mitochondrial/plasma-membrane preparations from rats treated with glucagon or if 3 microM-Ca2+ and Ruthenium Red were present in the incubation buffer. Loss of 32P from membranes labelled in vitro was shown to be accompanied by formation of inositol 1,4,5-trisphosphate (IP3) and inositol 1,4-bisphosphate, and was faster in preparations from glucagon-treated rats or in the presence of 3 microM-Ca2+. It is concluded that glucagon stimulates both PIP2 phosphodiesterase and phosphatidylinositol kinase activities, as does the presence of 3 microM-Ca2+. The resulting formation of IP3 may be responsible for the observed release of intracellular Ca2+ stores. The roles of a guanine nucleotide regulatory protein and phosphorylation in mediating these effects are discussed.
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