This review summarizes our findings concerning the altered balance of vasoactive systems (namely sympathetic nervous system and nitric oxide) in various forms of experimental hypertension – genetic hypertension (SHR, HTG rats), salt hypertension (Dahl rats) and NO-deficient hypertension (L-NAME-treated rats). An attempt is made to define relative NO deficiency (compared to the existing level of sympathetic vasoconstriction), to describe its possible causes and to evaluate particular indicators of its extent. A special attention is paid to reactive oxygen species, their interaction with NO metabolism, cell Ca2+ handling and blood pressure regulation. Our current effort is focused on the investigation of abnormal regulation of cytosolic Ca2+ levels in smooth muscle and endothelium of hypertensive animals. Such a research should cl
arify the mechanisms by which genetic and/or environmental factors could chronically modify blood pressure level.
Previous in vitro studies have shown that vascular smooth muscle cells (VSMC) isolated from the aortae of male spontaneously hypertensive rats (SHR) proliferate more rapidly than those obtained from female SHR. Sex-dependent differences of cytosolic free calcium concentration ([Ca2+]j) were therefore studied in VSMC under basal conditions and after the stimulation by different concentrations of angiotensin II (Ang II). No significant difference in basal [Ca2+]i was found in VSMC from male and female SHR. Angiotensin II significantly increased |Ca2+], in VSMC from both genders. This [Ca2+]j rise elicited by 10'7 and 10~9 M Ang II was more pronounced in cells isolated from males than in those from females. This difference may be attributed to greater mobilisation of intracellular calcium stores in male VSMC. It can be concluded that the cytosolic free calcium response to angiotensin II is augmented in VSMC of male SHR, which also grow more rapidly in response to this peptide hormone.
The growth response to angiotensin II (Ang II) was studied using cultured vascular smooth muscle cells (VSMC) isolated from the aortae of male and female spontaneously hypertensive rats (SHR). Systolic and mean arterial blood pressure of 10-week-old males was significantly higher when compared to age-matched females. The specific growth rate of male VSMC was significantly higher on the third and sixth day after synchronisation. Angiotensin II in concentration 10~7 M stimulated the specific growth rate only in male VSMC during the exponential phase of growth. Moreover, doubling time was 3 hours shorter in male VSMC in comparison with the females. Our results suggest that both the increased specific growth rate and augmented growth-response of male VSMC to Ang II may explain the higher sensitivity of males to hypertensive stimuli.