Role of intrarenal alpha(2)-adrenoceptors in the renal responses to xylazine in rats.

This study examined the contribution of intrarenal alpha(2)-adrenoceptor mechanisms to the enhanced urine flow rate (V) and urinary sodium excretion (U(Na)V) responses in ketamine-xylazine-anesthetized rats. Ten minutes after left renal artery (LRA) injection, the alpha(2)-adrenoceptor antagonist yohimbine (5 microg) significantly decreased V from 58 +/- 8 to 35 +/- 7 microl. min(-1). g kidney wt(-1) and U(Na)V from 2.8 +/- 0.4 to 2.1 +/- 0.4 microeq. min(-1). g kidney wt(-1) without altering right kidney function. The renal effects of the LRA injection of yohimbine were completely abolished in chronic bilaterally renal-denervated (RDNX) rats. In RDNX rats, a higher LRA dose of yohimbine (15 microg) significantly reduced left and right kidney V, with no effects on U(Na)V. In separate bladder-catheterized rats, yohimbine (0.5 mg/kg), 20 min after intravenous injection, significantly decreased V from 63 +/- 9 to 13 +/- 2 microl. min(-1). g kidney wt(-1 )and U(Na)V from 4.5 +/- 0.5 to 1.1 +/- 0.1 microeq. min(-1). g kidney wt(-1). In RDNX rats, this dose of yohimbine reduced V and U(Na)V, but the magnitude was blunted compared with intact rats. In contrast, 0.1 mg/kg iv yohimbine significantly reduced V and U(Na)V to similar magnitudes in intact and RDNX groups. Together, these findings indicate that intravenous xylazine acts by renal nerve-dependent and -independent mechanisms to enhance renal excretory function in ketamine-anesthetized rats. Because the effects of the LRA dose of yohimbine were abolished in renal-denervated animals, it appears that xylazine has a direct renal action to augment the renal excretion of water and sodium via a presynaptic alpha(2)-adrenoceptor pathway that inhibits the release of neurotransmitters from renal sympathetic nerve terminals.