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Contractile effects of angiotensin peptides in rat aorta are differentially dependent on tyrosine kinase activity

Department of Physiology, petrescugh{at}yahoo.com

Marcel Costuleanu

Department of Pathophysiology

Simona Mihaela Slatineanu

Department of Physiology

Natalia Costuleanu

Department of Biochemistry, University of Medicine and Pharmacy "Gr. T. Popa" Iasi, Romania

Liliana Foia

Department of Biochemistry, University of Medicine and Pharmacy "Gr. T. Popa" Iasi, Romania

Angela Costuleanu

Department of Physiology

It has been suggested that tyrosine kinase activity participates in the regulation of signal transduction associated with angiotensin II (Ang II)-induced pharmaco-mechanical coupling in rat aortic smooth muscle. We further tested the effects of genistein, a tyrosine-kinase inhibitor, and its inactive analogue, daidzein, on angiotensin I (Ang I), angiotensin III (Ang III) and angiotensin IV (Ang IV) contractions, as compared with those on Ang II. Genistein partially inhibited Ang II- and Ang I-induced contractions. The genistein-induced inhibition was more evident on Ang III and especially important on Ang IV contractile effects. Thus, Ang IV- and Ang III-induced contractions seem to be more dependent on tyrosine kinase activity than those evoked by Ang II or Ang I. Daidzein did not significantly affect the contractile effects of any of angiotensin peptides tested. These results clearly suggest that the inhibition of the action of angiotensin peptides actions by genistein is mediated by inhibition of endogenous tyrosine kinase activity. Furthermore, our data show that the type and/or intensity of tyrosine kinase activity is differentially associated with the contractile effects of different angiotensin peptides in rat aorta. Nifedipine, a blocker of membrane L-type Ca²⁺ channels, strongly inhibited Ang IV-induced contractions. At the same time, it significantly inhibited Ang III contractile effects as compared with Ang II and Ang I contractions. Meanwhile, we observed a close relationship between calcium influx and tyrosine kinase phosphorylation activity under the stimulatory effects of angiotensin peptides. Furthermore, genistein did not significantly influence the phasic contractions induced by angiotensin peptides in Ca²⁺-free Krebs-Henseleit solution. Thus, it appears that Ca²⁺ influx, rather than the release of Ca²⁺ from IP3-sensitive stores, may play a major role in the contractile effects of angiotensin peptides in rat aorta via tyrosine kinase activation. One argument against a direct action of genistein on the Ca ²⁺ channel itself is that it did not markedly affect the K⁺-induced contraction (depolarisation) in rat aorta. At the same time, a potential role for tyrosine kinase activity in the process of calcium entry is suggested. An elevation of intracellular calcium via tyrosine kinase-mediated processes may mediate the actions of G-protein coupled receptor agonists in smooth muscle, including angiotensin peptides.

Key Words: angiotensin I • angiotensin II • angiotensin III • angiotensin IV • tyrosine kinase activity • aorta • rat

Journal of Renin-Angiotensin-Aldosterone System, Vol. 2, No. 3, 180-187 (2001)
DOI: 10.3317/jraas.2001.025


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