Alpha(2A)-adrenoceptors regulate sympathetic transmitter release in mice kidneys.
Article Details
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Vonend O, Habbel S, Stegbauer J, Roth J, Hein L, Rump LC
Alpha(2A)-adrenoceptors regulate sympathetic transmitter release in mice kidneys.
Br J Pharmacol. 2007 Jan;150(1):121-7. Epub 2006 Nov 20.
- PubMed ID
- 17115069 [ View in PubMed]
- Abstract
BACKGROUND AND PURPOSE: In the present study, a rodent model was used to investigate whether the alpha(2A)-adrenoceptor (alpha(2A)) represents the presynaptic autoinhibitory receptor regulating sympathetic transmitter release in the kidney. Moreover, the potential role of alpha(2A) as a heteroceptor regulating adenosine triphosphate (ATP) release was tested. EXPERIMENTAL APPROACH: Kidneys from wild-type (WT) and alpha(2A)-knockout (KO) mice were isolated and perfused. Renal nerves were stimulated with platinum-electrodes. Endogenously released noradrenaline (NA) was measured by HPLC. The perfusion pressure was monitored continuously. KEY RESULTS: Renal nerve stimulation (RNS) induced a frequency (1,2,5,7.5,10,15 Hz)-dependent release of NA in WT mice (994+/-373, 2355+/-541, 6375+/-950, 11626+/-1818, 19138+/-2001 pg NA g(-1) kidney (means+/-s.e.m.)). There was a 2.7-fold (5 Hz) increase of NA release in alpha(2A)-KO mice. In WT animals alpha-adrenoceptor blockade by phentolamine increased RNS-induced NA release in a concentration-dependent manner up to 350% of control. No facilitation by phentolamine was observed in alpha(2A)-KO mice. Pressor responses to 1 Hz and 2 Hz were resistant to alpha(1)-adrenoceptor blockade (0.03 microM prazosin) but abolished by P(2) receptor blockade (5 microM PPADS). Blockade of alpha(2)-adrenoceptors (1 microM rauwolscine) increased these purinergic pressor responses to 296+/-112% (1 Hz) in WT but not in alpha(2A)-KO mice. Exogenous ATP (100 microM) increased basal but not RNS-induced NA release. CONCLUSIONS AND IMPLICATIONS: alpha(2A)-Adrenoceptor-activation inhibits NA and ATP release from renal sympathetic nerves. Pressor responses to RNS at higher stimulation frequencies (>2 Hz) are mediated by NA. At lower frequencies neuronally released ATP seems to be the predominant transmitter mediating renovascular resistance.