Renal tissue NO and intrarenal haemodynamics during experimental variations of NO content in anaesthetised rats.

Direct renal nitric oxide (NO) measurements were infrequent and no simultaneous measurements of renal cortical and medullary NO and local perfusion. Large-surface NO electrodes were placed in renal cortex and medulla of anaesthetised rats; simultaneously, renal blood flow (RBF, index of cortical perfusion) and medullary laser-Doppler flux (MBF) were determined. NO synthase inhibitors: nonselective (L-NAME) or selective for neuronal NOS (nNOS) (S-methyl-thiocitrulline, SMTC), and NO donor (SNAP), were used to manipulate tissue NO.

Effect of exogenous angiotensin II on renal tissue nitric oxide and intrarenal circulation in anaesthetized rats.

Aim: The renal medullary circulation is protected against depressor action of angiotensin II (Ang II) because of the opposed action of a vasodilator agent, possibly nitric oxide (NO). This possibility was evaluated by a simultaneous determination of the effect of exogenous Ang II on renal cortical and medullary tissue NO and on intrarenal circulation.

Methods: In anaesthetized rats effects were determined of pressor and subpressor Ang II doses on tissue NO concentration in the renal cortex and inner medulla (selective NO electrodes), total renal blood flow (RBF, Transonic renal artery probe) and inner medullary blood flow (IMBF, laser Doppler flux).

Prostaglandins but not nitric oxide protect renal medullary perfusion in anaesthetised rats receiving angiotensin II.

Angiotensin II (Ang II) fails to constrict renal medullary vasculature, possibly due to the counteraction of local vasodilators, such as prostaglandins or nitric oxide (NO). The effects of exogenous Ang II on intrarenal circulation were determined in anaesthetised rats that were untreated or pretreated with indomethacin (Indo) or L-NAME. The total renal blood flow (RBF), representing cortical perfusion, and outer and inner medullary blood flow (OMBF and IMBF) were measured.

Differential effect of angiotensin II on blood circulation in the renal medulla and cortex of anaesthetised rats.

The renal medulla is sensitive to hypoxia, and a depression of medullary circulation, e.g. in response to angiotensin II (Ang II), could endanger the function of this zone.

Renal vascular effects of frusemide in the rat: influence of salt loading and the role of angiotensin II.

We showed recently that post-frusemide (furosemide) natriuresis was associated with a major depression of medullary circulation. In the present study, prior to administration of frusemide the tubular transport of NaCl was modified by loading the animals with 5% saline to elucidate a possible interrelation between the tubular and vascular effects of the drug. Moreover, a possible involvement of the renin-angiotensin system was examined by pharmacological blockade using captopril, an inhibitor of angiotensin converting enzyme (1 mg x kg(-1), I.