Polymorphism of the major histocompatibility locus in the wild Norway rat

Specific alloantisera against the eight Ag-B groups found in inbred strains of rats were capable of reacting with all wild Norway rats (Rattus norvegicus) tested. Absorption studies, antisera production, and progeny testing involving wild rats showed that the antigenic specificities detected in the wild rat population were similar, if not identical, to the Ag-B antigens present in inbred strains. Xenoantisera prepared in rabbits against rat erythrocyte antigens (Ag-C1 and/or C2) reacted with erythrocytes from each wild rat tested. Progeny testing involving these erythrocyte antigens was identical to that observed in inbred strains. The restricted genetic polymorphism of theAg-B alleles in the wild rat population suggests that the functional and evolutionary significance of the major histocompatibility complex in the rat may not depend upon a high degree of genetic variability.     

Antihypertensive properties of Allium sativum (garlic) on normotensive and two kidney one clip hypertensive rats

Allium sativum (garlic) is reported to act as an antihypertensive amidst an inconsistency of evidence. In this study, we investigated the cardiovascular effects of aqueous garlic extracts (AGE) on normotensive and hypertensive rats using the two-kidney one-clip (2K1C) model. Mean arterial blood pressure (MAP) and heart rate (HR) were measured in normotensive and 2K1C rat models anesthetized with thiopentone sodium (50 mg/kg body weight i.p.) through the left common carotid artery connected to a recording apparatus. The jugular vein was cannulated for administration of drugs. Intravenous injection of AGE (5-20 mg/kg) caused a significant decrease in both MAP and HR in a dose-dependent manner in both the normotensive and 2K1C models, with more effects on normotensive than 2K1C rat model. The dose of 20mg/kg of AGE significantly reduced systolic (16.7 ± 2.0%), diastolic (26.7 ± 5.2%), MAP (23.1 ± 3.6%) and HR (38.4 ± 4.3%) in normotensive rats. In 2K1C group, it significantly reduced systolic (22.2 ± 2.1 %), diastolic (30.6 ± 3.2%), MAP (28.2 ± 3.1%) and HR (45.2 ± 3.5%) from basal levels. Pulse pressure was significantly elevated (33.3 ±5.1%) in the 2K1C group. Pretreatment of the animals with muscarinic receptor antagonist, atropine (2 mg/kg, i.v.), did not affect the hypotensive and the negative chronotropic activities of the extract. AGE caused a decrease in blood pressure and bradycardia by direct mechanism not involving the cholinergic pathway in both normotensive and 2K1C rats, suggesting a likely involvement of peripheral mechanism for hypotension.     

The rat renin gene: assignment to chromosome 13 and linkage to the regulation of blood pressure.

It has recently been suggested that in the rat, sequence variation in the renin gene or closely linked genes may have the capacity to affect blood pressure and contribute to the pathogenesis of hypertension. To map the chromosomal location of the rat renin gene and to investigate its relationship to the inheritance of increased blood pressure, we studied a panel of rat x mouse somatic cell hybrids and a large set of recombinant inbred (RI) strains derived from spontaneously hypertensive rats (SHR) and normotensive Brown-Norway (BN) rats. We have found that in the rat, the renin gene is located on chromosome 13 and that it belongs to a conserved synteny group located on chromosome 1 in man and mouse. We have also found the median blood pressure of the RI strains that inherited the renin allele of the SHR to be greater than that of the RI strains that inherited the renin allele of the normotensive BN rat. These findings, together with the results of previous studies, suggest that in the rat, sequence variation in the renin gene, or in genes linked to the renin locus on chromosome 13, may have the capacity to affect blood pressure.     

Quantitative trait loci for body weight, blood pressure, blood glucose, and serum lipids: linkage analysis with wild rats (Rattus norvegicus).

To study polygenetically inherited human diseases like hypertension, inbred rat strains are usually the preferred models. Because many inbred generations under optimized environmental conditions may have led to the survival of "silent" disease genes, we used a cross between one wild rat and genetically hypertensive SHR rats to analyze quantitative trait loci (QTLs) of blood pressure and related traits. The (Wild x SHR)F1 hybrids were transferred into a pathogen-free environment by wet-hysterectomy and were backcrossed onto SHR to generate first backcross hybrids (BC1). Progeny from one F1 female (n = 72) were phenotypically and genetically characterized to map QTLs. Significant, subsignificant, and suggestive evidence was found for more sex-specific than common linkage of blood pressure and most blood-pressure-related traits. Male- and female-specific regions were determined on different chromosomes for blood pressures (Chrs. 2 and 7 vs 5 and 11), body weight (Chrs. 10 vs 18), and blood glucose (Chr. 17 vs 20). A linkage in both males and females was shown for serum triglycerides on chromosomes 6 and 17, respectively, and blood glucose on chromosome 15. For serum total cholesterol, a significant linkage was found on chromosome 14 only in males. Our findings not only indicate the complex character of quantitative traits per se but also show impressively their dependence on sex, age, and strains in cosegregation analysis.     

Individual QTLs controlling quantitative variation in blood pressure inherited in a Mendelian mode

We studied three possible genotypes at 10 well-defined blood pressure (BP) QTLs using congenic rat lines. The central question was whether the hypertensive or normotensive allele is dominant, or whether there is partial dominance. The congenic strains were employed to investigate the BP effects of alleles originating from normotensive rats in the background of hypertensive Dahl salt-sensitive (DSS) rats. The normotensive alleles at eight QTLs were fully dominant over DSS alleles, which we tentatively interpreted as indicating that DSS rats incurred a loss of function at these loci and that the QTLs produced BP-reducing agents. In contrast, the normotensive allele of only one QTL was recessive over its DSS counterpart, implying a gain of function at this QTL or a null allele involved in generating a BP-elevating agent. Only one locus, C17QTL, had alleles exhibiting partial dominance. These estimates of dominance differ considerably from those obtained by QTL analysis in a F2 cross. This disagreement demonstrates the importance of establishing a cause-effect relationship between a QTL and its phenotypic effect via congenic strains. The dominance relationships suggest pertinent strategies for gene identification and pharmaceutical intervention.     

Wild rats (Rattus norvegicus) for mapping of disease-resistant genes

Wild rat representing a disease-resistant phenotype and genotype, was used in a crossing study with spontaneously hypertensive rat (SHR) to search for quantitative trait loci (QTL) affecting blood pressure. Therefore, one male wild rat was crossed with SHR females and F1 hybrids were transferred in a pathogen free environment by wet-hysterectomy and backcrossed onto hypertensive SHR rats resulting in first backcross hybrids (BC1). Considering that the F1 hybrids are not uniform, as are the cross hybrids of inbred rat strains, we selected 72 BC1 progeny of one F1 female, which were characterised for systolic blood pressure, measured by tail cuff method and were genetically analysed using 200 microsatellites covering the whole genome. We found suggestive linkage of blood pressure to region on chromosome 2 flanked by D2Mit8 and Fgg loci (lod score 2.3). In addition, possible interaction between genes on chromosomes 7 and 3, X and 3, 14 and 3, 13 and 11 was described, indicating that blood pressure development in the SHR might be the result of interacting genes.     

Mitochondrial polymorphisms in rat genetic models of hypertension

Hypertension is a complex trait that has been studied extensively for genetic contributions of the nuclear genome. We examined mitochondrial genomes of the hypertensive strains: the Dahl Salt-Sensitive (S) rat, the Spontaneously Hypertensive Rat (SHR), and the Albino Surgery (AS) rat, and the relatively normotensive strains: the Dahl Salt-Resistant (R) rat, the Milan Normotensive Strain (MNS), and the Lewis rat (LEW). These strains were used previously for linkage analysis for blood pressure (BP) in our laboratory. The results provide evidence to suggest that variations in the mitochondrial genome do not account for observed differences in blood pressure between the S and R rats. However, variants were detected among the mitochondrial genomes of the various hypertensive strains, S, SHR, and AS, and also among the normotensive strains R, MNS, and LEW. A total of 115, 114, 106, 106, and 16 variations in mtDNA were observed between the comparisons S versus LEW, S versus MNS, S versus SHR, S versus AS, and SHR versus AS, respectively. Among the 13 genes coding for proteins of the electron transport chain, 8 genes had nonsynonymous variations between S, LEW, MNS, SHR, and AS. The lack of any sequence variants between the mitochondrial genomes of S and R rats provides conclusive evidence that divergence in blood pressure between these two inbred strains is exclusively programmed through their nuclear genomes. The variations detected among the various hypertensive strains provides the basis to construct conplastic strains and further evaluate the effects of these variants on hypertension and associated phenotypes.     

Depressor effect of diabetes in the spontaneously hypertensive rat: associated changes in heart performance

Effects of streptozotocin-induced diabetes (8 weeks) on the performance of perfused hearts from spontaneously hypertensive (SH) rats were compared with effects on normotensive Wistar-Kyoto (WK) and Sprague-Dawley (SD) rat hearts. Diabetes markedly decreased systolic arterial pressure (SAP) of SH rats in vivo but did not affect SAP of either of the normotensive strains. Diabetes also reduced heart size of SH and normotensive rats and reversed absolute left ventricular hypertrophy (wall-to-lumen ratios and left-to-right ventricular weight ratios) of SH rats. Heart perfusion at the end of the 8-week period revealed that diabetes (i) reduced hydraulic work at high pressure loads and efficiency of contraction (work/mu LO2 consumed) of SH rat hearts but not of WK or SD hearts, and (ii) depressed left ventricular pulse pressure development (LVPP) and contractility (LV + dP/dt) of SH hearts more extensively than it reduced these variables in either of the normotensive control groups. Effects of diabetes which were similar in hypertensive and normotensive hearts were reductions in stroke work at high volume loads and depressions in LV-dP/dt. Attendant hypothyroidism probably contributed to the reductions in SAP, heart size, LVPP, LV+ and -dP/dt, and stroke work but not to the decreased efficiency or reversal of hypertrophy of SH rat hearts. Malnutrition of SH rats, like hypothyroidism, also decreased heart size without reversing hypertrophy but had no effect on SAP and only reduced LV-dP/dt. The results show that diabetes reversed hypertrophy and selectively reduced contraction efficiency, contractility, and LVPP of SH hearts, but otherwise the effects of diabetes in hypertensive and normotensive rat strains were similar to each other.(ABSTRACT TRUNCATED AT 250 WORDS)     

Detection of an Ss-like protein in the sera of inbred and wild rats

A normal serum protein that crossreacts with rabbit anti-mouse Ss serum was isolated by alternating gel nitration and ion exchange chromatography from the inbred Long-Evans (LGE) rat strain. Rabbit antisera prepared against this protein detected it in the sera of all inbred and individual wild rats tested. The close physical and immunochemical similarity between this protein and the mouse C4 component of complement (Ss protein) indicates that this protein may represent the rat homolog of the mouse C4. Quantitative differences in the level of the Ss-like rat protein, comparable to those seen in Ss low mice, were not observed in 25 inbred strains or 22 individual wild rats. These quantitative results were supported by functional assays for total hemolytic complement and individual C2, C3, and C4 complement components. Sixteen inbred strains were examined and all had normal levels of activity for each of the assays.     

Strain and site dependence of polyploidization of cultured rat smooth muscle

Smooth muscle cell (SMC) growth may play an important role in the pathogenesis of vascular diseases such as atherosclerosis and hypertension. Recent studies have demonstrated that, under different growth stimuli in vivo, SMC may respond by proliferation of diploid cells, polyploidization to the tetraploid (or even octaploid) state, or both. In this study, we used flow cytometry to evaluate the intrinsic tendencies of aortic SMC and nonarterial cells from rats of different strains, ages, and blood pressures to polyploidize in response to in vitro growth stimulation. Significant strain-related differences in polyploidization of aortic SMC were found (P less than 0.001): highest in WKY (normotensive inbred rat related to SHR), intermediate in SHR (genetically hypertensive rat), and lowest in Sprague-Dawley and Fischer (normotensive outbred and inbred rats). Animal age had less or no effect on the degree of polyploidization. Nonarterial cells (venous SMC and lung cells) from WKY and SHR remained essentially diploid, suggesting tissue specificity of in vitro polyploidization. Studies of the growth kinetics of uncloned and clonal populations of aortic SMC revealed decreased proliferation as the ploidy increased in WKY, SHR, and Sprague-Dawley. These findings suggest that genetic strain factors as well as cell type/site of origin significantly influence in vitro polyploidization, whereas animal age and blood pressure do not. The findings also emphasize the need to consider ploidy changes when evaluating in vitro SMC growth kinetics. Further studies will improve understanding of SMC growth regulation and the functional significance of vascular polyploidy.     

A new inbred Wistar-Kyoto rat substrain exhibiting apparent salt sensitivity and borderline hypertension

The normotensive Wistar-Kyoto (WKY) rat strain is a traditional control for the spontaneously hypertensive rat (SHR). We found trait differences between two inbred normotensive WKY strains, derived originally from different vendors, and compared these two strains from La Jolla-Taconic Farms (WKY/lj-tf) and La Jolla-Charles River (WKY/lj-cr) with the inbred SHR/lj-cr for cardiovascular, diurnal, and activity traits under normal and high (8%) NaCl diets. Marked genetic diversity was found between the two vendor-derived WKY. By using an extended study design and radiotelemetry, we compared WKY/lj-cr, WKY/lj-tf, and SHR/lj-cr with the following results: systolic pressure (120 +/- 1, 133 +/- 1, 168 +/- 3 mmHg, respectively); diurnal variation in heart rate (DeltaHR: 46 +/- 3, 71 +/- 4, 57 +/- 2 beats/min, respectively); and salt sensitivity of arterial pressure (Deltasystolic: 10 +/- 1, 21 +/- 1, 20 +/- 1 mmHg, respectively). The WKY/lj-tf genotype apparently results in compromised control of arterial pressure and heart rate, especially during high NaCl intake, and greater susceptibility to high pressure (i.e., high NaCl-induced secondary changes). WKY/lj-tf thus constitutes a new inbred borderline hypertensive WKY substrain offering unique opportunities for genomic studies into the development of genetic hypertension.     

Hypotensive properties of antibodies directed against an endogenous pressor peptide isolated from rat blood

Hypertensive factor (HF), a compound isolated from the erythrocytes of rats and tentatively identified as a peptide, has been shown to influence tissue calcium metabolism and induce prolonged blood pressure elevation. In the present study, we investigated the biological properties of antibodies directed against this peptide. Partially purified antibody preparations significantly decreased HF stimulation of lanthanum-resistant calcium uptake in rat aortic tissue in vitro. Infusion of the antibody preparation into spontaneously hypertensive (SH) or normotensive Sprague-Dawley rats resulted in a rapid decline in mean blood pressure of 54 and 34 Torr (1 Torr = 133.332 Pa), respectively. In contrast, infusion of the serum immunoglobulin preparations from controls (unimmunized and ovalbumin-immunized rabbits) had no significant effect on the blood pressure of SH or normotensive rats. The systolic blood pressure of SH rats was reduced for at least 72 h following a single injection of the antibody preparations, whereas the blood pressure of normotensive rats had returned to normal levels within 24 h following antibody injection. The results indicate that the anti-HF antibody preparation antagonizes the stimulation of calcium uptake by the peptide and acutely lowers blood pressure in SH and normotensive rats.     

Effects of Music Composed by Mozart and Ligeti on Blood Pressure and Heart Rate Circadian Rhythms in Normotensive and Hypertensive Rats

There is continuing discussion on the effect of music (“Mozart effect”) on numerous functions in man and experimental animals. Radiotelemetry now allows one to monitor cardiovascular functions in freely‐moving unrestrained experimental animals. Radiotelemetry was used to monitor systolic and diastolic blood pressure (SBP, DBP), heart rate (HR), and motor activity (MA) in male normotensive WKY and hypertensive SHR animals. Rats were synchronized to a 12 h light (L): 12 h dark (D) regimen in an isolated, ventilated, light‐controlled, sound‐isolated animal container. Music (Mozart, Symphony # 40; Ligeti, String Quartet # 2) were played for 2 h at 75 dB in the animal cabin starting at the onset of L or D in a cross‐over design. Data were collected every 5 min for 24 h under control conditions and during and after music. In addition, plasma concentrations of norepinephrine (NE) were determined in unrestrained animals at 3 h intervals over 24 h. In both WKY and SHR, highly significant circadian rhythms were obtained in SBP, DBP, HR, and MA under control conditions; HR was lower and BP higher in SHR than in WKY. NE was circadian rhythmic in both strains with higher values in D; the increase in NE with immobilization was much more pronounced in SHR than in WKY. The music of Mozart had no effect on either parameter in WKY, neither in L nor in D. In contrast, in SHR, the music of Mozart presented in L significantly decreased HR and left BP unaffected, leading to a small decrease in cardiac output. The music of Ligeti significantly increased BP both in L and in D and reflexively reduced HR in L, the effects being long‐lasting over 24 h. Interestingly, white noise at 75 dB had no effect at all on either function in both strains. The effects of both Mozart and Ligeti cannot be attributed to a stress reaction, as stress due to cage switch increased HR and BP both in WKY and SHR. The study clearly demonstrates that music of different character (tempo, rhythm, pitch, tonality) can modify cardiovascular functions in freely‐moving rats, with SHR being more sensitive than normotensive animals. The relative contribution of the characteristics of the two pieces of music, however, needs further evaluation.     

Spontaneously hypertensive rats exhibit supersensitivity to the hypertensive and hyperthermic effects of thyrotropin releasing hormone

The effect of thyrotropin releasing hormone (TRH) on colonic temperature and systolic blood pressure of age-matched spontaneously hypertensive (SHR) and normotensive Wistar-Kyoto (WKY) rats was determined. Administration of TRH produced dose-dependent increases in body temperature and systolic blood pressure. TRH-induced changes in both responses were of greater magnitude in SHR rats compared to WKY rats. The results provide the first evidence that SHR rats exhibit supersensitivity to non-neuroendocrinological effects of TRH and that TRH may play a role in the pathophysiology of elevated blood pressure.     

Embryo transfer in the rat as a tool to determine genetic components of the gestational environment

Embryo transfer, with the recipient dam nursing the transferred progeny, was used to study the impact of the gestational environment on adult blood pressure (BP) in three inbred rat strains, the hypertensive Dahl salt-sensitive SS/JrCtr, the normotensive Dahl salt-hypertension resistant SR/Jr, and the normotensive Dark Agouti rat. Rats that had been cross-fostered within 6 h of birth were included as a control for lactational and nurturing factors. Systolic BP was measured by tail-cuff plethysmography twice a week in rats after the age of 7 weeks. Embryo transfer success, measured as the percentage of embryos transferred resulting in pups weaned at 4 weeks, was 27% between the SS/JrCtr and SR/Jr and 53% for the SS/JrCtr and Dark Agouti. This assessment included all failures, some of which probably were not associated with the transfer. If only the number of embryos transferred to dams with successful pregnancies was included, the success rate was 48% between the SS/JrCtr and SR/Jr and 82% between the SS/JrCtr and Dark Agouti strains. Anomalies in pups were not evident. In contrast to the lactational environment, the gestational milieu had a profound effect on basal blood pressure of the hypertensive SS/JrCtr progeny, less of an effect on that of the Dark Agouti, and no effect on that of the SR/Jr. Although the SS/JrCtr strain is significantly larger than the SR/Jr and Dark Agouti strains, neither embryo transfer nor cross-fostering altered body weight of rats at the age of 6 weeks. These data indicate that embryo transfer can be an easy and efficient method of isolating genetically determined factors of the gestational environment.     

Cardiovascular and metabolic responses of hypertensive and normotensive rats to one week of cold exposure

Challenges to energy homeostasis, such as cold exposure, can have consequences for both metabolic and cardiovascular functioning. We hypothesized that 1-wk cold exposure (4 degrees C) would produce concurrent increases in metabolic rate (VO(2); indirect calorimetry), heart rate (HR), and mean arterial blood pressure (MAP) measured by telemetry. In the initial hours of change in ambient temperature (T(a)), both spontaneously hypertensive rats (SHRs) and normotensive Sprague-Dawley rats showed rapid increases (in cold) or decreases (in rewarming) of VO(2), HR, and MAP, although the initial changes in MAP and HR were more exaggerated in SHRs. Throughout cold exposure, HR, VO(2), food intake, and locomotor activity remained elevated but MAP decreased in both strains, particularly in the SHR. During rewarming, all measures normalized quickly in both strains except MAP, which fell below baseline (hypotension) for the first few days. The results indicate that variations of T(a) produce rapid changes in a suite of cardiovascular and behavioral responses that have many similarities in hypertensive and normotensive strains of rats. The findings are consistent with the general concept that the cardiovascular responses to cold exposure in rats are closely related to and perhaps a secondary consequence of the mechanisms responsible for increasing heat production.     

Effect of 3beta-hydroxysteroid dehydrogenase inhibition by trilostane on blood pressure in the Dahl salt-sensitive rat

The brains of rats and humans express the enzymes required for the synthesis of aldosterone from cholesterol, including the 3beta-steroid dehydrogenase that catalyzes the conversion of pregnenolone to progesterone in the pathway of adrenal steroid synthesis. Salt-induced hypertension in the Dahl inbred salt-sensitive (SS/jr) rat is associated with normal to low levels of circulating aldosterone, yet it is abrogated by the central infusion of mineralocorticoid receptor antagonists. To test the hypothesis that de novo synthesis of aldosterone in the brain has a pathophysiological role in the salt-induced hypertension of the SS rat, the 3beta-steroid dehydrogenase antagonist trilostane was infused continuously intracerebroventricularly or subcutaneously in two different cohorts of Dahl SS/jr rats, one female, the other male, during and after the development of salt-induced hypertension. The doses of trilostane used had no effect on blood pressure when infused subcutaneously. Animals receiving vehicle intracerebroventricularly experienced a 30- to 45-mmHg increase in systolic blood pressure measured by tail cuff. The intracerebroventricular, but not subcutaneous, infusion of 0.3 microg/h trilostane effectively blocked the increase in systolic blood pressure and reversed the hypertension produced by drinking 0.9% saline. Trilostane was equally effective in female and male rats. Weight gain, serum aldosterone and corticosterone concentrations, and behavior assessed subjectively and by elevated plus maze were unchanged by the trilostane treatment. These studies suggest that the synthesis in the brain of a mineralocorticoid receptor agonist, probably aldosterone, is responsible in part for the salt-induced hypertension of the inbred Dahl SS/jr rat.     

Genetic variability in response to dietary calcium

Supplemental dietary calcium has been shown to reduce blood pressure in spontaneously hypertensive rats while restricted calcium diets cause an elevation in blood pressure. This latter nutrient effect has been enhanced by modest sodium restriction and is associated with a reduction in serum ionized calcium concentration. To determine whether alterations of dietary calcium and sodium have a similar influence on blood pressure in genetically normotensive rats, Fisher 344, Wistar Furth, and ACI rats were fed either a low (0.1%) calcium, low (0.25%) sodium diet or normal (1.0%) calcium, normal sodium (0.45%) diet from 4 weeks of age through 29 weeks of age. Indirect measurements of systolic blood pressure showed that only the Fisher 344 rats consistently responded to the low calcium/low sodium diets with an elevation of blood pressure. There was considerable variation in serum electrolytes across strains in the normal diets but all three strains experienced a reduction in ionized calcium and an elevation in phosphorus and magnesium on the restricted diets. In the Fisher 344 rats there were significant (p less than .05) inverse correlations among systolic blood pressure and serum ionized and total calcium concentrations and positive correlations among systolic blood pressure, phosphorus, and magnesium. There was no significant correlation between serum electrolytes and blood pressure in the other two strains. The data indicate that there is genetic variability in the blood pressure response to alterations in dietary calcium and sodium. The pattern of change in serum electrolytes across strains suggests that diet-induced alterations of serum electrolytes, specifically calcium, are not necessarily predictive of a pressor response. It would appear that some other calcium-sensitive physiological process involved in blood pressure regulation must respond differentially to calcium availability across strains.     

Inconsistent susceptibility to autoimmunity in inbred LEW rats is due to genetic crossbreeding involving segregation of the arthritis-regulating gene Ncf1

We recently identified a single-nucleotide polymorphism in the Ncf1 gene, a component of the NADPH oxidase complex, to be the cause of one of the strongest identified loci for arthritis severity in rats. This polymorphism was found to be naturally occurring in a collection of inbred rat strains as well as in wild rats. Among the inbred strains we found that different LEW substrains (LEW/Ztm and LEW/Mol), originating from different breeders, showed an allelic discrepancy in Ncf1, suggesting an impact on arthritis susceptibility between these substrains. In fact, the LEW/Mol strain was completely resistant to pristane-induced arthritis, in contrast to the LEW/Ztm strain, which was susceptible. Moreover, the LEW/Mol strain had higher production of radical oxygen species in peripheral blood leukocytes, a phenomenon most likely regulated by the polymorphisms in the Ncf1 gene. However, the phenotypic difference between LEW/Mol and LEW/Ztm is most likely a combination of several genes, of which Ncf1 is suggested to be the major regulating gene. This has also been confirmed by previous linkage analyses involving the LEW/Ztm strain which shows that a QTL on chromosome 12, most likely caused by polymorphism of Ncf1, is the major regulatory gene but that other loci are contributing. That more genes are likely to contribute was shown by a complete genome comparison of the LEW/Ztm and the LEW/Mol rat strains that uncovered an introduction of approximately 37% non-LEW genome into the LEW/Mol strain, which probably was caused by past crossbreeding. Therefore, the LEW/Mol should be regarded as a recombinant inbred strain.     

Pressor responses to endothelin-1 in normotensive and spontaneously hypertensive rats

In freely moving rats, endothelin-1 (0.0135–4.5 nmol/kg) administered as an intravenous bolus injection, produced an immediate, short-lasting, dose-related fall in blood pressure followed by a long-lasting, dose-related increase in blood pressure. There was a higher sensitivity in the pressor responses to endothelin-1, in spontaneously hypertensive (SH) rats (ED₅₀ = 0.11 ± 0.02 and 0.28 ± 0.02 nmol/kg, in SH and normotensive rats, respectively), but no change in the maximal pressor effect of endothelin-1 in SH rats.

In rat isolated aorta, endothelin-1 induced a greater vasocontractile effect in SH rats than in normotensive rats. In both rat strains, removal of the endothelium did not change the concentration-effect curves obtained in endothelium-intact preparations. These data add further support to the hypothesis that endothelin-1 could play a role in genetic hypertension, at least in the maintenance of high blood pressure.