Portal de Periódicos da CAPES

ADRENERGIC MECHANISMS IN CARDIAC GLYCOGEN METABOLISM*

1967; Wiley; Volume: 139; Issue: 3 Linguagem: Inglês

10.1111/j.1749-6632.1967.tb41238.x

1749-6632

Steven E. Mayer, Betty J. Williams, Jerry M. Smith,

Biochemical Analysis and Sensing Techniques

Annals of the New York Academy of SciencesVolume 139, Issue 3 p. 686-702 Full Access ADRENERGIC MECHANISMS IN CARDIAC GLYCOGEN METABOLISM* Steven E. Mayer, Steven E. Mayer Department of Pharmacology, Division of Basic Health Sciences, Emory University, Atlanta, Ga.Search for more papers by this authorBetty J. Williams, Betty J. Williams Department of Pharmacology, Division of Basic Health Sciences, Emory University, Atlanta, Ga.Search for more papers by this authorJerry M. Smith, Jerry M. Smith Department of Pharmacology, Division of Basic Health Sciences, Emory University, Atlanta, Ga.Search for more papers by this author Steven E. Mayer, Steven E. Mayer Department of Pharmacology, Division of Basic Health Sciences, Emory University, Atlanta, Ga.Search for more papers by this authorBetty J. Williams, Betty J. Williams Department of Pharmacology, Division of Basic Health Sciences, Emory University, Atlanta, Ga.Search for more papers by this authorJerry M. Smith, Jerry M. Smith Department of Pharmacology, Division of Basic Health Sciences, Emory University, Atlanta, Ga.Search for more papers by this author First published: February 1967 https://doi.org/10.1111/j.1749-6632.1967.tb41238.xCitations: 49 * Publication No. 675 of the Division of Basic Health Sciences. The researches of the authors were supported by grants from the Public Health Service: Research Grant HE 04626, Career Development Award GM 6257 (S.E.M.), Pharmacology Graduate Training Grant 2G179 (B.J.W.) and a Postdoctoral Fellowship, HE 7062 (J.M.S.). AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 Ahlquist, R. P. 1966. Development of the concept of alpha and beta adrenotropic receptors. This monograph. 2 Moran, N. C. & M. E. Perkins. 1958. Adrenergic blockade of the mammalian heart by a dichloro analogue of isoproterenol. J. Pharmacol. 124: 223. 2a Moran, N. C. & M. E. Perkins. 1961. An evaluation of adrenergic blockade of the mammalian heart. J. Pharmacol. 133: 192. 3 Mayer, S. E. & N. C. Moran. 1960. Relation between pharmacologic augmentation of cardiac contractile force and the activation of myocardial glycogen phosphorylase. J. Pharmacol. 129: 271. 4 Mayer, S. E., N. C. Moran & J. Fain. 1961. The effect of adrenergic blocking agents on some metabolic actions of catecholamines. J. Pharmacol. 134: 18. 5 Hornbrook, K. R. & T. M. Brody. 1963. Phosphorylase activity in rat liver and skeletal muscle after catecholamines. Biochem. Pharmacol. 12: 1407. 6 Burns, J. J., K. I. Colville, L. A. Lindsay & R. A. Salvador. 1964. Blockade of some metabolic effects of catecholamines by N-isopropyl methoxamine (B. W. 61–43). J. Pharmacol. 144: 163. 7 Salvador, R. A., K. I. Colville, S. A. April & J. J. Burns. 1964. Inhibition of lipid mobilization by N-isopropyl methoxamine (B. W. 61–43). J. Pharmacol. 144: 172. 8 Ali, H. I. El S., A. Antonio & N. Haugaard. 1964. The action of sympathomimetic amines and adrenergic blocking agents on tissue phosphorylase activity. J. Pharmacol. 145: 142. 9 Mayer, S. E., N. C. Moran & D. H. Namm. 1965. Unpublished observations. 10 Robison, G. A., R. W. Butcher, I. Øye, H. E. Morgan & E. W. Sutherland. 1965. The effect of epinephrine on adenosine 3′, 5′-phosphate levels in the isolated perfused rat heart. Molec. Pharmacol. 1: 168. 11 Sutherland, E. W. & T. W. Rall. 1960. The relation of adenosine-3′, 5′-phosphate and phosphorylase to the actions of catecholamines and other hormones. Pharmacol. Rev. 12: 265. 12 Harvey, S. C., C. Y. Wang & M. Nickerson. 1952. Blockade of epinephrine-induced hyperglycemia. J. Pharmacol. 104: 363. 13 Fleming, W. W. & A. D. Kenny. 1964. The effect of fasting on the hyperglycemic responses to catecholamines in rats. Brit. J. Pharmacol. 22: 267. 14 Kvam, D. C., D. A. Riggilo & P. M. Lish. 1965. Effect of some new β-adrenergic blocking agents on certain metabolic responses to catecholamines. J. Pharmacol. 149: 183. 15 Ashmore, J., J. E. Preston & W. C. Love. 1962. Effects of dichloroisoproterenol on blood sugar and plasma free fatty acids. Proc. Soc. Exp. Biol. Med. N. Y. 109: 291. 16 Northrop, G. & R. E. Parks, Jr. 1964. The effects of adrenergic blocking agents and theophylline on 3′, 5′-AMP-induced hyperglycemia. J. Pharmacol. 145: 87. 17 Love, W. C., L. Carr & J. Ashmore. 1963. Lipolysis in adipose tissue: effects of dl-3, 4-dichloroisoproterenol and related compounds. J. Pharmacol. 140: 287. 18 Wenke, M., E. MÜHLBACHOVÁ, S. Hynie & K. DolejŠOVÁ. 1963. Metabolic effects of catecholamines. Physiol. bohemoslov. 12: 43. 19 Fain, J. 1966. Adrenergic blockade of hormone-induced lipolysis in isolated fat cells. This monograph. 20 Murad, F., Y.-M. Chi, T. W. Rall & E. W. Sutherland. 1962. Adenyl cyclase III. The effect of catecholamines and choline esters on the formation of adenosine 3′, 5′-phosphate by preparations from cardiac muscle and liver. J. biol. Chem. 237: 1233. 21 Hammermeister, K. E., A. A. Yunis & E. G. Krebs. 1965. Studies on phosphorylase activation in the heart. J. biol. Chem. 240: 986. 22 Butcher, R. W. & E. W. Sutherland. 1962. Adenosine 3′, 5′-phosphate in biological materials I. Purification and properties of cyclic 3′, 5′-nucleotide phosphodiesterase and use of this enzyme to characterize adenosine 3′, 5′-phosphate in human urine. J. biol. Chem. 237: 1244. 23 Rall, T. W. & T. C. West. 1963. The potentiation of cardiac inotropic responses to norepinephrine by theophylline. J. Pharmacol. 139: 269. 24 Honig, C. R. & A. C. Stam, Jr. 1966. The effect of catecholamines and adrenergic blocking agents on the contractile proteins of the heart. This monograph. 25 Robison, G. A. & E. W. Sutherland. 1966. Adenyl cyclase as the beta adrenergic receptor. This monograph. 26 Haugaard, N. & M. E. Hess. 1965. Actions of autonomic drugs on phosphorylase activity and function. Pharmacol. Rev. 17: 27. 27 Mayer, S. E., M. De V. Cotten & N. C. Moran. 1963. Dissociation of the augmentation of cardiac contractile force from the activation of myocardial phosphorylase by catecholamines. J. Pharmacol. 139: 275. 28 Drummond, G. I., J. R. E. Valadares & L. Duncan. 1964. Effect of epinephrine on contractile tension and phosphorylase activation in rat and dog hearts. Proc. Soc. exp. Biol. N. Y. 117: 307. 29 Hess, M. E., J. Shanfeld & N. Haugaard. 1962. The effect of epinephrine on isometric tension and phosphorylase activity of the isolated rat heart. Biochem. Pharmacol. 11: 1031. 30 Williamson, J. R. & D. Jamieson. 1965. Dissociation of the inotropic from the glycogenolytic effect of epinephrine in the isolated rat heart. Nature (Lond.) 206: 364. 31 Øye, I. 1965. The action of adrenaline in cardiac muscle. Dissociation between phosphorylase activation and inotropic response. Acta Physiol. Scand. 65: 251. 32 Mayer, S. E. 1963. Action of epinephrine on glucose uptake and glucose-6-phosphate in the dog heart in situ. Biochem. Pharmacol. 12: 193. 33 Hagen, J. H. & P. B. Hagen. 1964. Actions of adrenalin and noradrenalin on metabolic systems. In Actions of Hormones on Molecular Processes. G. Litwack & D. Kritchevsky Ed. : 268. John Wiley & Sons, New York . 34 Williamson, J. R. 1964. Metabolic effects of epinephrine on the isolated perfused rat heart I. Dissociation of the glycogenolytic from the metabolic stimulatory effect. J. biol. Chem. 239: 2721. 35 Reeves, R. B. 1963. Control of glycogen utilization and glucose uptake in the anaerobic turtle heart. Am. J. Physiol. 205: 23. 36 Mott, J. L. 1961. The ability of young mammals to withstand total oxygen lack. Brit. Med. Bull. 17: 144. 37 Krebs, E. G., D. S. Love, G. E. Bratvold, K. A. Trayser, W. L. Meyer & E. H. Fischer. 1964. Purification and properties of rabbit skeletal muscle phosphorylase b kinase. Biochemistry 3: 1022. 38 Drummond, G. I., L. Duncan & A. J. D. Friesen. 1965. Some properties of cardiac phosphorylase b kinase. J. biol. Chem. 240: 2778. 39 Meyer, W. L., E. H. Fischer & E. G. Krebs. 1964. Activation of skeletal muscle phosphorylase b kinase by Ca+2. Biochemistry 3: 1033. 40 Danforth, W. H., E. Helmreich & C. F. Cori. 1962. The effect of contraction and of epinephrine on the phosphorylase activity of frog sartorius muscle. Proc. Natl. Acad. Sci. U. S. 48: 1191. 41 Posner, J. B., R. Stern & E. G. Krebs. 1965. Effects of electrical stimulation and epinephrine on muscle phosphorylase, phosphorylase b kinase, and adenosine 3′, 5′-phosphate. J. biol. Chem. 240: 982. 42 Craig, J. W. & J. Larner. 1964. Influence of epinephrine and insulin on uridine diphosphate glucose-α glucan transferase and phosphorylase on muscle. Nature, Lond. 202: 971. 43 Danforth, W. H. 1965. Glycogen synthetase activity in skeletal muscle. Interconversion of two forms and control of glycogen synthesis. J. Biol. Chem. 240: 588. 44 Bloom, W. L. & J. A. Russell. 1955. Effects of epinephrine and of norepinephrine on carbohydrate metabolism in the rat. Am. J. Physiol. 183: 356. 45 Hardman, J. G., S. E. Mayer & B. Clark. 1965. Cocaine potentiation of the positive inotropic and phosphorylase responses to catecholamines as related to the uptake of H3-catecholamines. J. Pharmacol. 150: 341. 46 Villar-Palasi, C. & J. Larner. 1961. Insulin treatment and increased UDPG-glycogen transglucosylase activity in muscle. Arch. Biochem. Biophys. 94: 436. 47 Lowry, O. H., J. V. Passonneau, F. X. Hasselberger & D. W. Schulz. 1964. Effect of ischemia on known substrates and cotactors of the glycolytic pathway in brain. J. biol. Chem. 239: 18. 48 Fales, F. W. 1951. The assimilation and degradation of carbohydrates by yeast cells. J. biol. Chem. 193: 113. 49 Appleman, M. M., E. Belocopitow & H. N. Torres. 1964. Factors affecting the activity of muscle glycogen synthetase. Biochem. Biophys. Res. Commun. 14: 550. 50 Belocopitow, E., M. M. Appleman & H. N. Torres. 1965. Factors affecting the activity of muscle glycogen synthetase II. The regulation by Ca+2. J. Biol. Chem. 240: 3473. 51 Friedman, D. L. & J. Larner. 1965. Studies on uridine diphosphate glucose: α-1, 4-glucan α-4-glucosyl transferase VIII. Catalysis of the phosphorylation of muscle phosphorylase and transferase by separate enzymes. Biochemistry 4: 2261. 52 Danforth, W. H., S. Naegle & R. J. Bing. 1960. Effect of ischemia and reoxygenation on glycolytic reactions and adenosine triphosphate in heart muscle. Circul. Res. 8: 965. 53 Klarwein, M., W. Lamprecht & E. Lohmann. 1962. Der Stoffwechsel des Herzens bei experimentellen Kammerflimmern. Z. Physiol. Chem. 328: 41. 54 Cornblath, M., P. J. Randle, A. Parmeggiani & H. E. Morgan. 1963. Regulation of glycogenolysis in muscle. Effects of glucagon and anoxia on lactate production, glycogen content, and phosphorylase activity in the perfused isolated rat heart. J. Biol. Chem. 238: 1592. 55 Krause, E.-G. & A. Wollenberger. 1965. Über die Aktivierung der Phosphorylase und die Glykolyserate im akut anoxischen Hunde Herzen. Biochem. Z. 342: 171. 56 Morgan, H. E. & A. Parmeggiani. 1964. Regulation of glycogenolysis in muscle II. Control of glycogen phosphorylase reaction in isolated perfused heart. J. Biol. Chem. 239: 2435. 57 Karpatkin, S., E. Helmreich & C. F. Cori. 1964. Regulation of glycolysis in muscle II. Effect of stimulation and epinephrine in isolated frog sartorius muscle. J. biol. Chem. 239: 3139. Citing Literature Volume139, Issue3New Adrenergic Blocking Drugs: Biochemical and Clinical ActionsFebruary 1967Pages 686-702 ReferencesRelatedInformation