R Girchev scite author profile

1. Angiotensin II (ANG II) and atrial natriuretic peptide (ANP) are functionally antagonistic circulating hormones involved in blood pressure and body fluid regulation. An inappropriate atrial secretion of ANP has been implicated in the pathogenesis of hypertension, but clinical and experimental results on the role of ANP in hypertension are still conflicting. 2. In the brain both peptides have been localized in close proximity, preferentially in areas involved in central cardiovascular, electrolyte and volume control. ANP was shown to inhibit ANG II‐induced drinking, release of pituitary hormones and natriuresis, and to induce sodium retention when given alone. 3. These findings suggest that also in the brain ANG II and ANP exert functionally antagonistic effects. However, in contrast to their peripheral effects, ANG II induces natriuresis while ANP appears to cause antinatriuresis in the brain.

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In vivo investigation of homocysteine metabolism to polyamines by high-resolution accurate mass spectrometry and stable isotope labeling

Ruseva

Lozanov

Markova

et al. 2014

Analytical Biochemistry

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Renal endothelin system and excretory function in Wistar–Kyoto and Long–Evans rats

et al. 2005

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Involvement of Renal Nerves and Endothelins in the Regulation of Renal Water Excretion in Diabetes insipidus Rats

Girchev

Markova

Mikhov

et al. 2001

Kidney Blood Press Res

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The interaction between renal nerves, endothelins acting via endothelin-A receptors and vasopressin in the regulation of renal excretory function was investigated. In conscious intact and renal denervated diabetes insipidus (DI) Brattleboro rats, as well as their controls, Long-Evans (LE) rats, an infusion of 16.4 nmol/kg/min ET_A receptor antagonist BQ-123 was performed in the course of 50 min. Femoral artery blood pressure, heart rate, C_cr, V · U_Na, V · U_K and V · U_Cl did not alter in any of the groups. Urine flow rate diminished by 38.1% (p < 0.02), while urine osmolality increased by 30.3% (p < 0.05) as a result of BQ-123 infusion in the intact LE rats but neither urine flow rate nor urine osmolality changed in the DI rats. In contrast to intact LE rats, BQ-123 infusion in renal denervated LE rats did not alter urine flow rate or urine osmolality. However, urine flow rate in renal denervated DI rats surprisingly decreased by 71.1% (p < 0.01) while urine osmolality increased by 161% (p < 0.001) as a result of BQ-123 infusion. Endogenous endothelins can regulate renal water excretion through ET_A receptor activation. Renal sympathetic nerves participate in the modulation of renal water excretion influencing the ET_A receptor-mediated effects of endothelins in the kidney.

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R Girchev

Impaired response of the denervated kidney to endothelin receptor blockade in normotensive and spontaneously hypertensive rats

Atrial natriuretic peptide (ANP) as a neuropeptide: interaction with angiotensin II on volume control and renal sodium handling.

In vivo investigation of homocysteine metabolism to polyamines by high-resolution accurate mass spectrometry and stable isotope labeling

Renal endothelin system and excretory function in Wistar–Kyoto and Long–Evans rats

Involvement of Renal Nerves and Endothelins in the Regulation of Renal Water Excretion in Diabetes insipidus Rats

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