Abstract
Our previous study (Tan, A. W. H., and Nuttall, F. Q. (1983) J. Biol. Chem. 258, 9624-9630) indicated that liver synthase D contained a large number of endogenous phosphates, 12 of which were stable and 6 labile to alkali treatment. We wished to investigate the nature of the phosphates on synthase which became isotopically labeled when inorganic [32P]phosphate was given either to intact rats or to isolated liver cells. An antibody against liver synthase D was used for the isolation of synthase. The antibody recognized both the phosphorylated and dephosphorylated form of the enzyme, native as well as partially cleaved species. A large enzyme form, with Mr of 90,000 as well as one with Mr of 73,000 was observed. A 61% decrease in [32P]phosphate was found in synthase when prelabeled liver cells were treated with glucose, whereas a 25% increase was seen in cells treated with glucagon. After [32P]synthase D was converted to synthase I by synthase phosphatase, 95% of the [32P]phosphate was lost. All of the bound [32P]phosphates were found to be labile to alkali. Thus, under the in vivo conditions used, the [32P]phosphates incorporated into synthase were characterized by their fast turnover rate, alkali lability and susceptibility to the action of synthase phosphatase, both in vivo and in vitro. These criteria serve to distinguish them from the slower turning-over, alkali-stable phosphates found previously in both synthases D and I.
Highlights
From the Metabolic-Endocrine Section, Veterans Administration Medical Center, Minneapolis, Minneso5t5a41 7 and the Departments of Biochemistry and Medicine, Universityof Minnesota, Minneapolis, Minnesota 55455
Based on nature of the phosphates on synthase which became the susceptibility to cleavage by several proteases, thelocation isotopically labeled when inorganic [32P]phosphate was given eithetro intact rats or to isolated liver cells
An antibody against liver synthase D was used for the isolation of synthase
Summary
From the Metabolic-Endocrine Section, Veterans Administration Medical Center, Minneapolis, Minneso5t5a41 7 and the Departments of Biochemistry and Medicine, Universityof Minnesota, Minneapolis, Minnesota 55455. Using [”PI that liver synthase D contained a large number of ATP,this enzyme canbephosphorylatedon seven serine endogenous phosphates, 12 of which were stable and 6 residues by at least five different protein kinasesresulting in labile to alkali treatment. The amount of endogenousalkali-labile phosphates at specific sites were investigated with the help of large enzyme form, with M , of 90,000 as well as one 32P-peptide markers prepared with the purified kinases. Under the in vivo conditions used, the rylationandinactivation of the liver enzyme by protein [32P]phosphatesincorporatedinto synthase were characterized by their fast turnover rate, alkalilability and susceptibility to the action of synthase phosphatase, both in vivoand in vitroT. Hese criteria serveto distinguish them from the slower turning-over, alkali-stable phosphates found previously in both synthases D and kinases.Killilea andWhelan (10) first showed that liver synthase was phosphorylated and inactivated by CAMP-dependent protein kinase. Huang et al (12) have studied the synergistic action of two
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