Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Renal kallikrein is one of the tissue kallikreins, and the distal nephron is fully equipped as an element of the kallikrein-kinin system. Although a low excretion of urinary kallikrein has been reported in essential hypertension, the results from studies on patients with hypertension are not consistent. Congenitally hypertensive animals also excrete lowered levels of urinary kallikrein, but the effects of this are yet unknown. Extensive genetic and environmental studies on large Utah pedigrees suggest that the causes of hypertension are closely related to the combination of low kallikrein excretion and the potassium intake. Mutant kininogen-deficient Brown Norway-Katholiek rats, which cannot generate kinin in the urine, are very sensitive to salt loading and to sodium retention by aldosterone released by a non-pressor dose of angiotensin II, which results in hypertension. The major function of renal kallikrein-kinin system is to excrete sodium and water when excess sodium is present in the body. Failure of this function causes accumulation of sodium in the cerebrospinal fluid and erythrocytes, and probably in the vascular smooth muscle, which become sensitive to vasoconstrictors. We hypothesize that impaired function of the renal kallikrein-kinin system may play a pivotal role in the early development of hypertension. Inhibitors of kinin degradation in renal tubules and agents, which accelerate the secretion of urinary kallikrein from the connecting tubules and increase the generation of urinary kinin, may be novel drugs against hypertension.
 ...
PMID:Pivotal role of renal kallikrein-kinin system in the development of hypertension and approaches to new drugs based on this relationship. 886 49

Left ventricular hypertrophy remains a significant clinical problem and a predictor of fatal outcome in hypertension. Blood pressure per se and environmental modifiers including stress affect cardiac mass. Heat shock proteins are involved in the stress response as well as in the regulation of cardiac growth and cytoprotection. The present study evaluates heat shock protein 27 as a locus marker or candidate gene of cardiac hypertrophy in hypertension. The spontaneously hypertensive rat allele of heat shock protein 27 was associated with about a 6% increase in relative left ventricular weight (P = .0112) in 30 recombinant inbred strains from crosses of Brown Norway and spontaneously hypertensive rats. In 336 F2 crosses of spontaneously hypertensive and Wistar-Kyoto rats, the hypertensive allele was dominant and cosegregated with a similar 6% increase in the ratio of left ventricular weight to body weight (P = .0058) in rats fed a normal salt diet, but its contribution to left ventricular weight decreased in rats kept on a high salt diet. The contribution of the heat shock protein 27 allele was independent of blood pressure. We suggest that heat shock protein 27 represents a candidate gene/locus marker of cardiac hypertrophy in hypertension.
Hypertension 1996 Dec
PMID:HSP27 locus cosegregates with left ventricular mass independently of blood pressure. 895 7

The spontaneously hypertensive rat (SHR) is the most widely studied animal model of essential hypertension. Despite > 30 yr of research, the primary genetic lesions responsible for hypertension in the SHR remain undefined. In this report, we describe the construction and hemodynamic characterization of a congenic strain of SHR (SHR-Lx) that carries a defined segment of chromosome 8 from a normotensive strain of Brown-Norway rats (BN-Lx strain). Transfer of this segment of chromosome 8 from the BN-Lx strain onto the SHR background resulted in substantial reductions in systolic and diastolic blood pressure and cardiac mass. Linkage and comparative mapping studies indicate that the transferred chromosome segment contains a number of candidate genes for hypertension, including genes encoding a brain dopamine receptor and a renal epithelial potassium channel. These findings demonstrate that BP regulatory gene(s) exist within the differential chromosome segment trapped in the SHR-Lx congenic strain and that this region of chromosome 8 plays a major role in the hypertension of SHR vs. BN-Lx rats.
 ...
PMID:Genetic isolation of a region of chromosome 8 that exerts major effects on blood pressure and cardiac mass in the spontaneously hypertensive rat. 904 57

Role of renal kallikrein-kinin system has been studied using mutant Brown-Norway Katholiek (BN-Ka) rats, in which both high- and low-molecular weight kininogens were almost absent in plasma and kinin in urine was mainly not detectable. Mutant BN-Ka rats were very sensitive to increased salt intake, resulting in raised systemic blood pressure that is linked to reduced urinary excretion of sodium, when compared with normal BN-Kitasato (BN-Ki) rats. Consequently, sodium accumulated in erythrocytes and cerebrospinal fluid in mutant BN-Ka rats. Subcutaneous infusion of angiotensin II (20 mg/day/rat) also enhanced the concentration of sodium in erythrocytes and in cerebrospinal fluid and increased the systemic pressure by releasing aldosterone. A 4-day infusion of 0.3 M sodium solution (6 ml/kg/h) to the abdominal aorta of conscious and un-restrained mutant BN-Ka rats increased the pressor responses of the arterioles to norepinephrine and angiotensin II (i.a.) by 30- and 10-fold, respectively. Infusion of ebelactone B, (a selective inhibitor of carboxypeptidase Y-like exopeptidase, a kininase in rat urine), to normal BN-Ki rats during induction of hypertension with DOCA and salt, resulted in the reduction of the raised blood pressure, indicating that a site of action of kinins was at the luminal membrane of the renal tubule cells. Our results support the view that the role of renal kallikrein-kinin system is to excrete 'excess sodium' and a reduction in the generation of renal kinins may be a factor in the development of hypertension as a result of the sodium accumulation in the body.
 ...
PMID:Role of the renal kallikrein-kinin system in the development of hypertension. 922 52

To test the hypothesis that genetic factors can determine susceptibility to hypertension-induced renal damage, we derived an experimental animal model in which two genetically different yet histocompatible kidneys are chronically and simultaneously exposed to the same blood pressure profile and metabolic environment within the same host. Kidneys from normotensive Brown Norway rats were transplanted into unilaterally nephrectomized spontaneously hypertensive rats (SHR-RT1.N strain) that harbor the major histocompatibility complex of the Brown Norway strain. 25 d after the induction of severe hypertension with deoxycorticosterone acetate and salt, proteinuria, impaired glomerular filtration rate, and extensive vascular and glomerular injury were observed in the Brown Norway donor kidneys, but not in the SHR-RT1.N kidneys. Control experiments demonstrated that the strain differences in kidney damage could not be attributed to effects of transplantation-induced renal injury, immunologic rejection phenomena, or preexisting strain differences in blood pressure. These studies (a) demonstrate that the kidney of the normotensive Brown Norway rat is inherently much more susceptible to hypertension-induced damage than is the kidney of the spontaneously hypertensive rat, and (b) establish the feasibility of using organ-specific genome transplants to map genes expressed in the kidney that determine susceptibility to hypertension-induced renal injury in the rat.
 ...
PMID:Genetic susceptibility to hypertension-induced renal damage in the rat. Evidence based on kidney-specific genome transfer. 929 2

Kinins acting on the B2 receptor appear to be involved in the cardioprotective effect of preconditioning on myocardial ischemia/reperfusion injury. We tested the hypothesis that in mice lacking the gene encoding for the B2 kinin receptor (B2 knockout mice; B2-KO) as well as in rats deficient in high-molecular-weight (HMW) kininogen (Brown Norway Katholiek rats; BNK), the cardioprotective effect of preconditioning is diminished or abolished. 129SvEvTac (SV129) mice and Brown Norway rats (BN) served as controls. We confirmed that plasma HMW kininogen in BNK rats was 100-fold lower than in BN and 140-fold lower than in Sprague-Dawley rats (33+/-4 versus 1814+/-253 and 2397+/-302 ng/mL, P<.01). Each strain of mice was divided into (1) controls (without preconditioning); (2) one cycle of preconditioning (3 minutes ligation and 5 minutes reperfusion); and (3) three cycles of preconditioning. Each strain of rats was divided into (1) controls; and (2) three cycles of preconditioning. All animals were subjected to 30 minutes of ischemia and 120 minutes of reperfusion. In SV129 controls, the ratio of infarct size to risk area (IS/AR) was 55.6+/-4.6%. One and three cycles of preconditioning reduced IS/AR to 38.6+/-3.2% and 31.1+/-2.3%, respectively (P<.05 and P<.01 versus control). This protective effect was absent in B2-KO mice: IS/AR was 54.8+/-2.9% in controls, 58.5+/-3.6% with one cycle of preconditioning, and 58.5+/-3.4% with three cycles. In BN rats without preconditioning, IS/AR was 84.7+/-3.9%; preconditioning reduced it to 61.6+/-3.4% (P<.01). In BNK rats, IS/AR was 87.1+/-4.8% in controls and 84.3+/-4.1% with preconditioning. Preconditioning also prevented reperfusion arrhythmias in BN but not BNK rats. Within species, risk area, mean blood pressure, and heart rate were similar between strains. We concluded that (1) preconditioning protects the heart against ischemia/reperfusion injury in mice and rats; (2) activation of prekallikrein, which in turn generates kinins from HMW kininogen, may contribute to the effect of preconditioning; and (3) an intact kallikrein-kinin system is necessary for the cardioprotective effect of preconditioning.
Hypertension 1997 Sep
PMID:Role of kinins in the cardioprotective effect of preconditioning: study of myocardial ischemia/reperfusion injury in B2 kinin receptor knockout mice and kininogen-deficient rats. 932 15

Recent linkage studies in the spontaneously hypertensive rat (SHR) suggest that a blood pressure regulatory gene or genes may be located on rat chromosome 1q. To investigate this possibility, we replaced a region of chromosome 1 in the SHR (defined by the markers D1Mit3 and Igf2) with the corresponding chromosome segment from the normotensive Brown-Norway (BN) strain. In male SHR congenic rats carrying the transferred BN chromosome segment, 24-hour average systolic and diastolic blood pressures were significantly lower than in male progenitor SHR. Polymerase chain reaction genotyping using 60 polymorphic microsatellite markers dispersed throughout the genome confirmed the congenic status of the new strain designated SHR.BN-D1Mit3/Igf2. These findings provide direct evidence that a blood pressure regulatory gene exists on the differential segment of chromosome 1 that is sufficient to decrease blood pressure in the SHR. The SHR.BN-D1Mit3/Igf2 congenic strain represents an important new model for fine mapping and characterization of genes on chromosome 1 involved in the pathogenesis of spontaneous hypertension.
Hypertension 1997 Oct
PMID:Genetic isolation of a chromosome 1 region affecting blood pressure in the spontaneously hypertensive rat. 933 84

To investigate whether molecular variation in the renin gene contributes to the greater blood pressure of spontaneously hypertensive rats (SHR) versus normotensive Brown Norway (BN) rats, we measured blood pressure in an SHR progenitor strain and an SHR congenic strain that are genetically identical except at the renin gene and an associated segment of chromosome 13 transferred from the BN strain. Backcross breeding and molecular selection at the renin locus were used to create the SHR congenic strain (designated SHR.BN-Ren) that carries the renin gene transferred from the normotensive BN strain. We found that transfer of the renin gene from the BN strain onto the genetic background of the SHR did not decrease blood pressure in rats fed either a normal or high-salt diet. In fact, the systolic blood pressures of the SHR congenic rats tended to be slightly greater than the systolic blood pressures of the SHR progenitor rats. However, the congenic strain exhibited lower serum high-density lipoprotein cholesterol, and greater levels of total cholesterol, very-low-density lipoprotein, and intermediate-density lipoprotein cholesterol during administration of a high-fat, high-cholesterol diet. These findings demonstrate that (1) under the environmental circumstances of the current study, the greater blood pressure of SHR versus BN rats cannot be explained by strain differences in the renin gene and (2) a quantitative trait locus affecting lipid metabolism exists on chromosome 13 within the transferred chromosome segment. The SHR.BN-Ren congenic strain may provide a useful new animal model for studying the interaction between high blood pressure and dyslipidemia in cardiovascular disease.
Hypertension 1998 Jan
PMID:Effect of renin gene transfer on blood pressure in the spontaneously hypertensive rat. 945 31

1. The association of the Tnfalpha locus with several cardiovascular phenotypes and body mass has been studied in the F2 generation of a reciprocal cross between rats of the New Zealand genetically hypertensive (GH) and the normotensive Brown Norway (BN) strains. In the total F2 population the GH allele of Tnfalpha cosegregated with increased intra-arterial blood pressure (BP) in a recessive manner. A similar but weaker effect was observed for tail BP. 2. An association between genotype and body mass in females with GH grandfathers was also detected. 3. An association between genotype and pulse rate was observed for females. 4. This work supports other evidence pointing to an association of a gene (or genes) on rat chromosome 20 with hypertension.
 ...
PMID:Cosegregation of the Tnfalpha locus with cardiovascular phenotypes in the F2 generation of a New Zealand genetically hypertensive and Brown Norway cross. 959 May 69

It has been proposed that one of the primary events in the development of essential hypertension is a growth-related process initiated as early as during fetal development. Differences in kidney size have been observed between most rat models of hypertension and their respective controls. In this study, we analyzed relative kidney size (kidney weight/body wt) in a set of rat recombinant inbred strains (RIS) (N = 27) and their progenitors, the spontaneously hypertensive rat strain (SHR/Ola) and Brown Norway congenic strain (BN.1x), at two different ages, at birth and at 15 weeks. In the progenitors, the relative kidney weight was higher in the hypertensive than in the normotensive strain of both the newborn (P < 0.001) and adult (P < 0.001) animals. In the RIS, a significant correlation was found between the newborn and adult relative kidney weight (r = 0.49, P = 0.01), indicating that the two phenotypes share some of their genetic determinants. A total genome search of newborn and adult relative kidney weight was performed with a total of 453 genetic markers. These analyses revealed several suggestive quantitative trait loci (QTL), some of which were, indeed, significant for both newborn and adult relative kidney weight (such as, D3Mit9 on rat chromosome 3; r = -0.50, P < 0.01; r = -0.47, P < 0.01; respectively). Others, such as the locus on rat chromosome 1 (Rt6; r = -0.43, P < 0.05), were significant only for the adult relative kidney size. This QTL was found in close proximity to a region previously related to susceptibility to hypertensive renal disease in the fawn-hooded rat and, similarly to that study, its effect was found to be independent of blood pressure. Furthermore, a growth pattern of the kidneys after birth, evaluated as the difference between the newborn and adult relative kidney weight, was also subjected to total genome scan. Several suggestive QTL were identified. One of the most significant loci was found at the D1a marker on rat chromosome 17 (r = -0.51, P < 0.01), which was previously related to the determination of adult heart weight in the RIS. In conclusion, the current study demonstrates the usefulness of RIS in studies of hypertension-related phenotypes, some of which are abnormal before the development of high blood pressure. To better understand their role in the pathogenesis of hypertension, studies at different ages are needed, which are uniquely feasible in RIS.
 ...
PMID:Newborn and adult recombinant inbred strains: a tool to search for genetic determinants of target organ damage in hypertension. 960 80


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>