Browse > Article

Effects of Kanagawa Hemolysin on Blood Pressure and Arterial Tone in Rats  

Kim, Young-Moon (Department of Pharmacology, Chonnam National University Medical School)
Publication Information
The Korean Journal of Physiology and Pharmacology / v.6, no.4, 2002 , pp. 225-233 More about this Journal
Abstract
Kanagawa hemolysin (KH), an exotoxin produced from Kanagawa phenomenon-positive Vibrio parahemolyticus, has been shown to possess various biological activities including hemolysis, enterotoxicity, cytotoxicity, and cardiotoxicity. The aim of this study was to investigate the effect of KH on the cardiovascular system and its mechanism, employing in vivo and in vitro experiments of the rat. Intracerebroventricular (icv) administration of 100 mHU KH produced a marked and continuous pressor effect (icv KH-pressor effect), and the icv pressor effect was not repeatable. However, intravenous (iv) injection of the same dose of KH induced a prominent depressor effect (iv KH-depressor effect). The icv KH-pressor effect was inhibited by acid-denaturation, while the iv KH-depressor effect was not. Simultaneous icv administration of the three agents (ouabain, diltiazem, or bumetanide: $10{\mu}g/kg$ each) significantly reduced the pressor effect. The icv KH-pressor effect was inhibited by treatment with iv phentolamine or chlorisondamine, but was not affected by iv candesartan. The iv KH-depressor effect was repeatable and was attenuated by treatment with iv NAME or methylene blue. In vitro experiments using isolated thoracic aorta, $10^{-6}$ M phenylephrine (PE) and 50 mM KCl produced a sustained contraction. In rings contracted with either agents, KH showed relaxant responses in a concentration- dependent fashion and the relaxation (KH-vasorelaxation) was not dependent on the existence of the endothelium. The KH-vasorelaxation in the endothelium-intact rings contracted by PE was abolished by methylene blue treatment. In summary, the present findings suggest that in the icv KH-pressor effect the cation leak-inducing action of KH is implicated, which leads to the increased central sympathetic tone, that the iv KH-depressor effect results from the vasorelaxation via NO-guanylate cyclase system, and that the KH-vasorelaxation is independent of the endothelium and the guanylate cyclase system is involved in it. In conclusion, the mechanism of KH producing the icv pressor effect may not be identical to that of KH producing the iv depressor effect.
Keywords
Kanagawa hemolysin; Pressor effect; Depressor effect; Ion transport; Vasorelaxation; Intracerebroventricular; Aorta;
Citations & Related Records

Times Cited By SCOPUS : 0
연도 인용수 순위
  • Reference
1 Budzikowski AS, Huang BS, Leenen FH. Brain 'ouabain', a neurosteroid, mediates sympathetic hyperactivity in salt- sensitive hypertension. Clin Exp Hypertens 20: 119-140, 1998   DOI   ScienceOn
2 Dismukes RK, Mulder AH. Cyclic AMP and alpha-receptor-mediated modulation of noradrenaling release from rat brain slices. Eur J Pharmacol 39: 383-388, 1976   DOI   PUBMED   ScienceOn
3 Ekstrom J. Fall in choline acetyltransferase activity in the ventricles of the rat heart after treatment with a ganglion blocking drug. Acta Physiol Scand 102: 116-119, 1978.   DOI   ScienceOn
4 Honda T, Ni Y, Miwatani T, Adachi T, Kim J. The thermostable direct hemolysin of Vibrio parahaemolyticus is a pore-forming toxin. Can J Microbiol 38: 1175-1180, 1992   DOI   PUBMED   ScienceOn
5 Huntley JS, Hall AC. Aspects of the haemolytic reaction induced by Kanagawa haemolysin of Vibrio parahaemolyticus. Toxicon 32(11): 1397-1412, 1994   DOI   ScienceOn
6 Kaysner CA, Tamplin ML, Twedt RM. Compedium of Methods for the Microbiological Examination of Foods. In: Vanderzant C, Splittstoesser DF ed, Vibrio. American Public Health Association, Washington, DC, p 451-473, 1992
7 Nishibuchi M, Fasano A, Russell RG, Kaper JB. Enterotoxigenicity of Vibrio parahaemolyticus with and without genes encoding thermostable direct hemolysin. Infect Immun 60: 3539-3545, 1992   PUBMED
8 Takeda Y. Thermostable direct hemolysin of Vibrio parahaemolyticus. Pharmacol Ther 19: 123-146, 1982   DOI   PUBMED   ScienceOn
9 Yanagase Y, Inoue K, Ozaki M, Ochi T, Amano T, Chazono M. Hemolysins and related enzymes of Vibrio parahaemolyticus. I Identification and partial purification of enzymes. Biken J 13: 77-92, 1970   PUBMED
10 DePaola A, Hopkins LH, Peeler JT, Wentz B, McPhearson RM. Incidence of Vibrio parahaemolyticus in US coastal waters and oysters. Appl Environ Microbiol 56: 2299-2302, 1990   PUBMED
11 Morsing P, Adler G, Brandt-Linda U, Karp L, Ohlson K, Renberg L, Sjoquist P-O and Abrahamsson T. Mechanistic differences of various AT1-receptor blockers in isolated vessels of different origin. Hypertension 33: 1406-1413, 1999   DOI   PUBMED
12 Popoli P, Pezzola A, Sagratella S, Zeng YC, Scotti de Carolis A. Cromakalim (BRL 34915) counteracts the epileptiform activity elicited by diltiazem and verapamil in rats. Br J Pharmacol 104: 907-913, 1991   DOI   PUBMED   ScienceOn
13 Bernhardt I, Hall AC, Ellory JC. Effect of low ionic strength media on passive human red cell monovalent cation tracsport. J Physiol 434: 489-506, 1991   DOI   PUBMED
14 Cherwonogrodzky JW, Clark AG. The purification of the Kanagawa haemolysin from Vibrio parahaemolyticus. FEMS Microbiol Lett 15: 175-179, 1982   DOI   ScienceOn
15 Ijioma SC, Challiss RA, Boyle JP. Comparative effects of activation of soluble and particulate guanylyl cyclase on cyclic GMP elevation and relaxation of bovine tracheal smooth muscle. Br J Pharmacol 115: 723-732, 1995   DOI   PUBMED   ScienceOn
16 Blake PA, Merson MH, Weaver RE, Hollis DG, Heublein PC. Disease caused by a marine Vibrio. N Eng J Med 300: 1-6, 1979   DOI   ScienceOn
17 Kreger A, Lockwood D. Detection of extracellular toxin(s) produced by Vibrio vulnificus. Infect Immun 33: 583-590, 1981   PUBMED
18 Waldman SA, Rapoport RM, Murad F. Atrial natriuretic factor selectively activates particulate guanylate cyclase and elevates cyclic GMP in rat tissues. J Biol Chem 259: 14332-14334, 1984   PUBMED
19 Kline LW, Zhang ML, Pang PK. Cyclic AMP induces a relaxation response in the bullfrog Rana catesbeiana, but nitric oxide does not. J Exp Biol 200(Pt 20): 2669-2674, 1997   PUBMED
20 Kook H, Lee SE, Baik YH, Chung SS, Rhee JH. Vibrio vulnificus hemolysin dilates rat thoracic aorta by activating guanylate cyclase. Life Sci 59: PL41-PL47, 1996   DOI   ScienceOn
21 Kristova V, Kriska M, Vojtko R, Kurtansky A. Effect of indomethacin and deendothelisation on vascular responses in the renal artery. Physiol Res 49: 129-133, 2000   PUBMED
22 Rabkin SW. The calcium antagonist diltiazem has antiarrhythmic effects which are mediated in the brain through endogenous opioids. Neuropharmacology 31: 487-496, 1992   DOI   PUBMED   ScienceOn
23 Honda T, Goshima K, Takeda Y, Sugino Y, Miwatani T. Demonstration of the cardiotoxicity of the thermostable direct hemolysin(lethal toxin) produced by Vibrio parahaemolyticus. Infect Immun 13(1): 163-171, 1976   PUBMED
24 Naim R, Iida T, Takahashi A, Honda T. Monodansylcadaverine inhibits cytotoxicity of Vibrio parahaemolyticus thermostable direct hemolysin on cultured rat embryonic fibroblast cells. FEMS Microbiol Lett 196: 99-105, 2001a   DOI   ScienceOn
25 Huntley JS, Hall AC, Sathyamoorthy V, Hall RH. Cation flux studies of the lesion induced in human erythrocyte membranes by the thermostable direct hemolysin of Vibrio parahaemolyticus. Infect Immun 61(10): 4326-4332, 1993   PUBMED
26 Kelso E, McDermott B, Silke B, Spiers P. Positive effect of bumetanide on contractile activity of ventricular cardiomyocytes Eur J Pharmacol 400: 43-50, 2000
27 Miyamoto Y, Kato T, Obara Y, Akiyama S, Takizawa K, Yamai S. In vitro hemolytic characteristic of Vibrio parahaemolyticus: its close correlation with human pathogenicity. J Bacteriol 100: 1147-1149, 1969   PUBMED
28 Naim R, Yanagihara I, Iida T, Honda T. Vibrio parahaemolyticus thermostable direct hemolysin can induce an apoptotic cell death in Rat-1 cells from inside and outside of the cells. FEMS Microbiol Lett 195: 237-244, 2001b   DOI   ScienceOn
29 Goshima K, Owaribe K, Yamanaka H, Yoshino S. Requirements of calcium ions for cell degeneration with a toxin (vibriolysin) from Vibrio parahaemolyticus. Infect Immun 22: 821-832, 1978   PUBMED
30 Huntley JS, Hall AC. Nature of the cation leak induced in erythrocyte membranes by Kanagawa haemolysin of Vibrio parahaemolyticus. Biochimica et Biophysica Acta 1281: 220- 226, 1996   DOI   ScienceOn
31 Honda T, Iida T. The pathogenecity of Vibrio parahaemolyticus and the role of thermostable direct hemolysin and related hemolysins. Rev Med Microbial 4: 106-113, 1993   DOI   ScienceOn
32 Gray LD, Kreger AS. Purification and characterization of an extracellular cytolysin produced by Vibrio vulnificus. Infect Immun 48: 62-72, 1985   PUBMED
33 Sakurai J, Honda T, Jinguji Y, Arita M, Miwatani T. Cytotoxic effect of the thermostable direct hemolysin produced by Vibrio parahaemolyticus on FL cells. Infect Immun 13: 876, 1976
34 Douet JP, Castroviejo M, Dodin A, Bebear C. Purification and characterisation of Kanagawa haemolysin from Vibrio parahaemolyticus. Res Microbiol 143: 569-577, 1992   DOI   ScienceOn
35 Avontuur JA, Bruining HA, Ince C. Inhibition of nitric oxide synthesis causes myocardial ischemia in endotoxemic rats. Circ Res 76: 418-425, 1995   DOI   PUBMED   ScienceOn
36 Tang G, Iida T, Yamamoto K, Honda T. Analysis of functional domains of Vibrio parahaemolyticus thermostable direct hemolysin using monoclonal antibodies. FEMS Microbiol Lett 150: 289 -296, 1997   DOI   PUBMED   ScienceOn
37 Michea L, Irribarra V, Goecke IA, Marusic ET. Reduced Na-K pump but increased Na-K-2Cl cotransporter in aorta of streptozotocin- induced diabetic rat. Am J Physiol Heart Circ Physiol 280: H851-H858, 2001   DOI   PUBMED
38 Philip AS, Scott CB, Darly WH. Osmolarity, ionic flux, and changes in brain excitability. Epilepsy Res 32: 275-285, 1998   DOI   ScienceOn
39 Sakazaki R, Tamura K, Kato T, Obara Y, Yamai S, Hobo K. Studies on the enteropathogenic, facultatively halophillic bacteria Vibrio parahaemolyticus. III. Enteropathogenicity. Jpn J Med Sci Biol 21: 325-331, 1968   DOI   PUBMED
40 Tang G, Iida T, Yamamoto K, Honda T. Ca$^2+$-independent cytotoxicity of Vibrio parahaemolyticus thermostable direct hemolysin (TDH) on Intestine 407, a cell line derived from human embryonic intestine. FEMS Microbiol Lett 134: 233-238, 1995   DOI   PUBMED