Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
 26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of autonomic-nerve stimulation on the activities of phosphorylase (EC 2.4.1.1), dephospho-phosphorylase kinase (EC 2.7.1.38) and phosphorylase phosphatase (EC 3.1.3.17), and on the concentration of adenosine 3', 5'-monophosphate in rabbit liver were investiaged. Results were compared with the effects of epinephrine and glucagon on these enzymes. 1. The acitivity of liver phosphorylase increased rapidly and markedly on electrical stimulation of the splanchnic nerve, or after intraportal administration of epinephrine or glucagon. The activity was not affected by vagal stimulation. 2. The activity of dephospho-phosphorylase kinase increased about 2--3-fold 1 min after injections of epinephrine and glucagon, glucagon causing more activation than epinephrine. The enzyme activity was not altered by splanchnic-nerve, or vagal stimulation. 3. Injections of epinephrine and glucagon caused marked elevation of liver adenosine 3', 5'-monophosphate within a few minutes. With epinephrine, the nucleotide concentration rose to a maximum after 1 min and amounted to about 3-fold increase, while with glucagon the maximum increase of approximately 8-fold increase was observed after 2 min. Stimulation of the splanchnic nerve for 10 min did not affect the adenosine 3', 5'-monophosphate level in the liver. Vagal stimulation also had no effect on the level. 4. The activity of phosphorylase phosphatase decreased promptly (within 30 s) and markedly on splanchnic-nerve stimulation, but did not change significantly on administration of epinephrine of glucagon. A small but insignificant increase in phosphatase activity wasobserved upon vagal stimulation. 5. The effect of Ca-2+ on purified dephospho-phosphorylase kinase was studied. The activity was found to depend partially on free Ca-2+ at low Ca-2+ concentrations (1-10-minus 7--1-10-minus 5 M). 6. These results suggest that the rise in hepatic phosphorylase content upon splanchnic-nerve stimulation, unlike that induced by epinephrine and glucagon, is not mediated by adenosine 3', 5'-monophosphate and subsequent activation of dephospho-phosphorylase kinase, but rather by inactivation of phosphorylase phosphatase. The possible existence of a new factor in this mechanism is discussed.
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PMID:Regulation of glycogen metabolism in liver by the autonomic nervous system. VI. Possible mechanism of phosphorylase activation by the splanchnic nerve. 16 28

In this report we describe a novel in vitro phenomenon involving the interaction of insulin with purified protein phosphatases. Evidence is presented that porcine insulin is capable of activating and binding to rabbit skeletal muscle protein phosphatases in vitro. Its effects were examined on four rabbit skeletal muscle protein phosphatases. Two of these, phosphatases C-I and C-II, are of Mr approximately 35,000 and are the dissociated forms of protein phosphatase. The two other phosphatases, H-I and H-II, have Mr approximately 250,000 by gel filtration and represent nondissociated forms of phosphatase. Insulin reproducibly activated homogeneous preparations of protein phosphatase C-II and H-II approximately 3-5-fold in vitro. The activation was dependent on temperature, time, and insulin concentration. The activities of the phosphatases toward both phosphorylase alpha and histone were affected, indicating that this was not a substrate-directed effect. The activation phenomenon was not mimicked by insulin A or B chains, somatostatin, glucagon, or bovine serum albumin, and could be prevented by insulin antiserum. 125I-Insulin was shown to bind to the protein phosphatases by solid phase binding assays. Phosphatases C-I, C-II, and H-II, but not phosphatase H-I, were found to bind insulin reversibly. Half-maximal binding to the protein phosphatases was observed at approximately 5 X 10(-10) M insulin. Labeled insulin was found to coelute with protein phosphatase H-II on gel filtration when a mixture of the two was chromatographed, providing evidence for the formation of an enzyme-insulin complex. These findings suggest that certain protein phosphatases may have a specific binding site(s) for insulin and that these insulin-phosphatase complexes may also exhibit enhanced catalytic activity.
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PMID:A novel in vitro interaction of insulin with rabbit skeletal muscle protein phosphatases. 632 53