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.
The influence of chronic angiotensin ATi receptor blockade by specific antibody on the development of genetic hypertension was studied in young spontaneously hypertensive rats (SHR). The immunization of 4-week-old SHR with a small part of the angiotensin ATi receptor molecule attenuated the development of hypertension in these animals. After five subcutaneous injections of the antigen both systolic and diastolic blood pressures were significantly lower (p<0.005) in immunized SHR compared to sham- immunized SHR. No effect on blood pressure was seen in immunized Wistar-Kyoto control rats. We conclude that renin-angiotensin system might be partially involved in the development of hypertension in young spontaneously hypertensive rats because it can be attenuated by a specific antibody raised against a part of the angiotensin ATi receptor.
Hyperinsulinaemia may play a causal role in the development of hypertension in obese hypertensives. However, experimental evidence supporting this statement is inappropriate. The main purpose of this study was to evaluate the chronic effects of insulin administration on blood pressure, total-body glucose metabolism and urinary catecholamine excretion. After 10 weeks of insulin injection blood pressure was substantially increased in insulin- treated animals compared to those treated with saline (125±2 vs 108±2 mm Hg, pcO.OOl). There were no differences in glycaemia, plasma triglyceride levels and free fatty acid levels between these two groups. Plasma level of corticosterone was increased in both insulin-treated and saline-treated rats as compared to untreated animals suggesting that the level of stress was similar in both injected groups. The urinary excretion of norepinephrine and dopamine was increased in the insulin-injected group by about 120 % and 310 %, respectively. Our data clearly indicate that long-term insulin administration increased blood pressure but the underlying mechanisms remain to be elucidated.
The relationship between possible alterations in the volume or distribution of extracellular fluid and the development of salt hypertension was studied in inbred salt-sensitive (SS/Jr) and salt-resistant (SR/Jr) Dahl rats. Blood pressure, cardiac and renal hypertrophy as well as body fluid volumes were determined in young and adult SS/Jr and SR/Jr rats of both sexes that were subjected to low, normal or high salt intake for various periods of time. Salt hypertension in young salt-sensitive rats fed a 4 % NaCl diet was not accompanied by any substantial intravascular or interstitial expansion as compared to salt-resistant rats that remained normotensive. There was no sex difference in the response of blood pressure or body fluids to high salt intake. Major expansion of plasma and blood volume, which was elicited by 8 % NaCl diet feeding from prepuberty, was not accompanied by a further blood pressure rise (compared to salt hypertensive SS/Jr rats fed 4 % NaCl diet). In conclusions, salt hypertension can occur in Dahl salt-sensitive rats without major salt and water retention. The degree of intravascular expansion is not directly related to blood pressure levels in salt-loaded Dahl rats. A high salt intake seems to exert its hypertensive effects in Dahl rats preferentially by influencing the balance of vasoconstrictor and vasodilator systems rather than by increasing the haemodynamically active intravascular volume.
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.
Close links between hypertension, hypertriglyceridemia, insulin resistance and other symptoms of metabolic syndrome was demonstrated in humans and experimental animals. Quantitative trait loci for defects in glucose and fatty acid metabolism, hypertriglyceridemia and hypertension were mapped in spontaneously hypertensive rats (SHR) on chromosome 4 and defective Cd36 gene was identified in this region. Here we investigated the polymorphism of Cd36 gene in Prague hereditary hypertriglyceridemic (HTG) rats, which represent another model of genetic hypertension and metabolic syndrome. These animals were compared with NIH-derived SHR and two different normotensive control strains (WKY, LEW). In spite of the fact that HTG and SHR rats had similar metabolic disturbances, genotype analysis of PCR products has shown that Cd36 mutation was not present in HTG rats. In conclusion, we have revealed that defective Cd36 is probably a candidate gene for disorded fatty-acid metabolism, glucose intolerance and insulin resistance in NIH-derived SHR, but other genes might play a role in pathogenesis of metabolic syndrome in Prague hereditary hypertriglyceridemic rats. This is in accordance with the absence of defective Cd36 gene in original SHR from Japan.
Our study addresses selected parameters of rat erythrocyte ion transport (Na+-K+ pump, Na+-K+-2Cl- cotransport, and passive cation fluxes) after acute or chronic hypoxia exposure. We did not find any significant change of ion transport after acute hypoxia. However, chronic hypoxia could modify ion transport because the affinity of Na+-K+ pump for intracellular Na+seems to be decreased.
A set of 131 F2 hybrids, obtained from a cross between normotensive Lewis and hypertensive hypertriglyceridaemic (HTG) rats, was studied in order to assess the relationship between blood pressure, plasma triglycerides and plasma uric acid. In progenitors, the plasma levels of triglycerides and uric acid were twice as high in HTG rats than in the Lewis rats. It was observed In the F2 cohort that high mean arterial pressure (MAP) was unrelated to body weight and relative heart or kidney weights. On the other hand, there were significant correlations between MAP and plasma triglycerides (r=0.420, n=131, p<0.0001) and between MAP and plasma uric acid (r=0.325, p<0.001). Plasma triglycerides of F2 hybrids were below the midparental values, suggesting a stronger influence of normotensive Lewis alleles. In conclusion, hypertension in hypertriglyceridaemic rats strongly cosegregated with plasma triglycerides and plasma uric acid. Our results indicated a linkage between high blood pressure and several metabolic alterations characteristic for the X syndrome.
The possible association of plasma lipids (triglycerides and cholesterol) with erythrocyte Na+ content (Na+j) and/or with alterations in red cell Na+ and K+ (Rb+) transport was studied in a population of F2 hybrids obtained by crossing hypertensive Prague hereditary hypertriglyceridaemic (HTG) rats with normotensive Lewis rats. The obtained data indicated a strong cosegregation (p<0.001) of plasma triglycerides with erythrocyte Na+ content. This was the cause for the close correlation of plasma triglycerides with the Ma+-K+ pump activity (measured as ouabain-sensitive Na+ extrusion). On the contrary, there was only marginal association (p<0.05) of erythrocyte Na+ content with plasma cholesterol which was significantly (p<0.01) related to bumetanide-sensitive Rb+ uptake mediated by the Ma+-K+ cotransport system. Na+ leak (bumetanide-resistant net Na+ uptake) correlated positively with blood pressure in female but not in male F2 rats. The close association between plasma triglycerides and erythrocyte Na+ content suggests that ion transport alterations might contribute to mechanisms responsible for the cosegregation of blood pressure with plasma triglycerides in HTG x Lewis F2 hybrids.
It was recognized that recombinant inbred strains are a very powerful system for the study of the genetics of hypertension, linkage analysis and gene mapping. Such set of recombinant inbred strains has been developed in the cooperation of Prof V. Křen and Dr. M. Pravenec in Prague. These recombinant inbred strains were used to search for the genes of spontaneous hypertension and to test the phenotypic differences. It was found that 1) the major histocompatibility compex of the rats showed a significant association with blood pressure, 2) the restriction fragment lenght polymorphism in kallikrein gene family as well as renin gene cosegregated with blood pressure, 3) Na+ leak in red blood cells cosegregated with blood pressure, 4) the relative heart and kidney weights are not closely related to mean arterial pressure and 5) the platelet aggregation and blood pressure are independent traits. The results indicate the usefulness of recombinant inbred strains in the analysis of the relationship between phenotype and genotype.