The coronary endothelium: a highly active metabolic barrier for adenosine

Afonso S, Ansfield TJ, Berndt TB, Rowe GG (1972) Coronary vasodilator responses to hypoxia before and after aminophylline. J Physiol 221:589–599

Anversa P, Levicky V, Beghi C, McDonald SL, Kikkana Y (1983) Morphometry of exercise-induced right ventricular hypertrophy in the rat. Circ Res 52:57–64

Bassingthwaighte JB, Yipintsoi T, Harvey RB (1974) Microvasculature of the dog left ventricular myocardium. Microvasc Res 7:229–249

Belloni FL (1979) The local control of coronary blood flow. Cardiovasc Res 13:63–85

Bennett AS, Luft JH, Hampton JC (1959) Morphological classification of vertebrate blood capillaries. Am J Physiol 196:381–390

Berne RM (1963) Cardiac nucleotides in hypoxia: possible role in regulation of coronary blood flow. Am J Physiol 204:317–322

Berne RM, Rubio R (1979) Coronary circulation. In: Berne RM, Sperelakis N (eds) Handbook of Physiology. The Cardiovascular System. Section 2, vol 1, chap 25, Am Physiol Soc, Washington DC, pp 873–952

Böck M, Nees S, Möller A, Gerlach E (1985) Extrazellulärer Abbau von Adeninnukleotiden (AN) an Endothelzellen (EC) aus verschiedenen Gefäßabschnitten und im Vollblut. Z Kardiol 74:Suppl 3

Bünger R, Haddy FJ, Querengässer A, gerlach E (1974) An isolated guinea pig heart preparation with in vivo like features. Pflügers Arch 353:317–326

Bünger R, Haddy FJ, Gerlach E (1975) Coronary responses to dilating substances and competitive inhibition by theophylline in the isolated perfused guinea pig heart. Pflügers Arch 358:213–224

Cryer A (1983) Biochemical interactions at the endotthelim. Elsevier, Amsterdam, New York, Oxford

Daly JW (1982) Adenosine receptors: targets for future drugs. J Med Chem 25:197–207

Daly JW (1985) Adenosine receptors. In: Cooper DMF, Simon KB (eds) Advances in cyclic nucleotides and protein phosphorylation research. Raven Press, New York, Vol 19, pp 29–46

Degenring FH, Curnish RR, Rubio R, Berne RM (1976) Effect of dipyridamole on myocardial adenosine metabolism and coronary flow in hypoxia and reactive hyperemia in the isolated perfused guinea pig heart. J Mol Cell Cardiol 8:877–888

Eikens E, Wilcken DEL (1973) The role of endothelium in the response of vascular smooth muscle to drugs. Ann Rev Pharmacol Toxicol 24:175–197

Furchgott RF (1984) The role of endothelium in the response of vascular smooth muscle to drugs. Ann Rev Pharmacol Toxicol 24:175–197

Feigl EO (1983) Coronary Physiology. Physiol Rev 63:1-205 Am Physiol Soc

Fishman A (1982) Endothelium. Annals of the New York Academy of Sciences, Vol 401. The New York Academy of Science, New York

Gerlach E, Deuticke B, Dreisbach RH (1963) Der Nucleotid-Abbau im Herzmuskel bei Sauerstoffmangel und seine mögliche Bedeutung für die Coronardurchblutung. Naturwissenschaften 50:228–229

Giles RW, Wilcken DEL (1977) Reactive hyperemia in the dog heart: inter-relations between adenosine, ATP, and aminophylline and the effect of indomethacin. Cardiovasc Res 11:113–121

Gudbjarnason S, Mathes P, Ravens KG (1970) Functional compartmentation of ATP and creatine phosphate in the heart muscle. J Mol Cell Cardiol 1:325–339

Jaffe EA (1984) Biology of endothelial cells. Martinus Nijhoff Publishers, Boston, The Hague, Dordrecht, Lancaster

Jarasch ED, Grund C, Bruder G, Heid HW, Keenan TW, Franke WW (1981) Localization of xanthine oxidase in mammary gland epithelium and capillary endothelium. Cell 25:67–82

Jones CE, Hurst TW, Randall JR (1982) Effect of aminophylline on coronary functional hyperemia and myocardial adenosine. Am J Physiol 243:H480–487

Klocke FJ, Ellis AK (1980) Control of coronary blood flow. Ann Rev Med 31:489–508

Kübler W, Spieckermann PG, Bretschneider HJ (1970) Influence of dipyridamole (Persantin) on myocardial adenosine metabolism. J Mol Cell Cardiol 1:23–38

Langendorff O (1985) Untersuchungen am überlebenden Säugetierherzen. Pflügers Arch 61:291–332

Liu MS, Feinberg H (1971) Incorporation of adenosine 8-14C and inosine 8-14C into rabbit heart adenine nucleotides. Am J Physiol 220:1242–1248

Meisel M, Meisel P (1974) Is adenosine the mediator for the regulation of the coronary circulation and for the effciency of coronardilators? Pharmazie 29:561–568

Nees S, Gerbes AL, Gerlach E (1981) Isolation, identification, and continuous culture of coronary endothelial cells from guinea pig hearts. Eur J Cell Biol 24:287–297

Nees S, Böck M, Gerlach E (1983) Tissue culture of endothelial cells: New technologic approaches. In: Crone C (ed) Nouvelles methodes d'étude de la microcirculation. Institut national de la santé et de la recherche médicale. Paris Faculté X. Bichat, pp 19–34

Nees S, Böck M, Herzog V, Becker B, Des Rosiers C, Gerlach E (1985) The adenine nucleotide metabolism of the coronary endothelium: implications for the regulation of coronary flow by adenosine. In: Schubert P, Stefanovich V, Rudolphi K (eds) Adenosine: receptors and modulation of cell function. IRL Press, Oxford, England (in press)

Olsson RA, Patterson RE (1976) Adenosine as a physiological regulator of coronary blood flow. In: Hahn FE (ed) Progress in Molecular and Subcellular Biology, Springer-Verlag, New York, pp 227–248

Olsson RA, Davis CJ, Khouri EM, Patterson RE (1976) Evidence for an adenosine receptor on the surface of dog coronary myocytes. Circ Res 39:93–98

Paolini HJ, Wilcken DEL (1971) Inter-relation between the actions of dipyridamole, adenosine, aminophylline and propranolol on the coronary circulation of the transplanted dog heart. Anst J Exp Biol Med Sci 49:537–552

Parrat JR, Wadsworth RM (1972) The effects of dipyridamole on the myocardial vasodilator actions of noradrenaline, isoprenaline and adenosine. Br J Pharmacol 46:585–593

Rhodin JAG (1967) The ultrastructure of mammalian arterioles and precapillary sphincters. J Ultrastruct Res 18:181–223

Salpeter MM, Bachmann L (1964) Autoradiography with the electron microscope. A procedure for improving resolution, sensitivity, and contrast. J Cell Biol 22:469–477

Sasaki R, Watanabe Y, Morishita T, Yamagata S (1968) Estimation of the cell number of heart muscles in normal rats. Tohoku J Exp Med 95:177–184

Scholtholt J, Nitz RE, Schraven E (1972) On the mechanism of antagonistic action of xanthine derivatives against adenosine and coronary vasodilators. Arzneim Forsch 22:1225–1259

Schrader J (1976) Compartmentation of cardiac adenine nucleotides and formation of adenosine. Pflügers Arch 367:129–135

Schrader J (1977) Release of adenosine, inosine, and hypoxanthine from the isolated guinea pig heart during hypoxia, flow-autoregulation and reactive hyperemia. Pflügers Arch 369:1–6

Schrader J, Nees S, Gerlach E (1977) Evidence for a cell surface adenosine receptor on coronary myocytes and atrial muscle cells. Pflügers Arch 369:251–257

Schrader J (1981) Sites of action and production of adenosine in the heart. Receptors Recognition Series B 12:121–162

Shepro D, D'Amore PA (1984) Physiology and biochemistry of the vascular wall endothelium. In: Renkin EM, Michel C Ch, Geiger SR (eds) Handbook of Physiology. The Cardiovascular System, Section 2, Vol IV, Microcirculation, Part. 1. American Physiological Socitety, Bethesda, Maryland, pp 103–164

Simionescu M, Simionescu N (1978) Isolation and characterization of endothelial cells from the heart microvasculature. Microvasc Res 16:426–452

Stone TN (1983) Purine receptor classification: a point for discussion. TIPS 5:492

Wiedmeier VTh, Rubio R, Berne RM (1972) Incorporation and turnover of adenosine-U-14C in perfused guinea pig myocardium. Am J Physiol 223:51–54

Zydowo M (1976) Adenine compounds and the heart. Int J Biochem 7:353–357