The Y chromosome from spontaneously hypertensive rats (SHR) has a locus that raises blood pressure 20-25 mmHg. Associated with the SHR Y chromosome effect is a 4-week earlier pubertal rise of testosterone and dependence upon the androgen receptor for the full blood pressure effect. Several indices of enhanced sympathetic nervous system (SNS) activity are also associated with the SHR Y chromosome. Blockade of SNS outflow reduced the blood pressure effect. Salt sensitivity was increased by the Y chromosome as was salt appetite which was SNS dependent. A strong correlation (r = 0.57, P<0.001) was demonstrable between plasma testosterone and angiotensin II. Coronary collagen increased with blood pressure and the presence of the SHR Y chromosome. A promising candidate gene for the Y effect is the Sry locus (testis determining factor), a transcription factor which may also have other functions.
The objective of this study was to compare strain and gender differences in kidney and heart norepinephrine (NE) content and turnover rate in normotensive Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR, SHR/a, and SHR/y). Our laboratory has shown that the Y chromosome has a significant effect on blood pressure in the SHR model of hypertension through the use of two new rat stains, SHR/a and SHR/y, to study the Y chromosome. SHR/a have a SHR autosomal genetic background with a WKY Y chromosome, whereas the SHR/y rats have a WKY autosomal genetic background with a SHR Y chromosome. Tissues were homogenized after alpha-methyl-DL-p-tyrosine injection and analyzed for NE. The male kidney NE content was significantly lower in the WKY compared with the SHR, SHR/y, and SHR/a. Kidney and heart NE content was significantly higher in females compared with males in all strains except the SHR/y. The WKY and SHR/y females had significantly lower kidney NE turnover rates, and the SHR and SHR/a females had significantly higher kidney NE turnover rates than strain-matched males. This study suggests both a strain and gender difference in sympathetic nervous system activity through noradrenergic neurotransmission.
The enhanced vascular sensitivity to norepinephrine may have contributed to the greater exercise pressor response in the blacks.
The objectives were to determine 1) if female rats have higher Na intake than males and if social stress increases Na intake, 2) if the sympathetic nervous system (SNS) mediates the stress effects and the gender effect, and 3) if the Y chromosome (Yc) from a hypertensive father increases Na intake. Four rat strains (n = 10/group) of both sexes were used: 1) Wistar Kyoto normotensive (WKY), 2) an F(16) backcross with a Yc from a hypertensive father (SHR/y), 3) spontaneously hypertensive rat (SHR), and 4) an F(16) backcross with a Yc from a normotensive father (SHR/a). Females showed greater baseline Na intake than males (hypertensive strains), intruder stress increased Na intake, and clonidine decreased Na intake, but not in WKY or SHR females. SHR/y males had higher baseline Na intake compared with WKY males. In conclusion, the higher Na intake in females during baseline and stress was partially mediated through the SNS in hypertensive strains and the SHR Yc was partially responsible for the increased Na intake in SHR/y and SHR males compared with WKY.
Young SHR and WKY rats were compared, first, concerning sodium (Na) appetite during 'rest', mild social stress and ACTH injections, second, concerning the diurnal patterns of water intake, urine output, mean arterial pressure (MAP) and heart rate (HR) while on various Na diets: 0.5 mmol Na(LNa), 5 or 12-13 mmol Na (CNa), 50 (HNa) or 120 mmol Na (vHNa) per 100 g food. Sodium appetite and water intake were about 50% higher in SHR than in WKY (4-4.5 vs 2.5-3 mmol Na per 100 g body wt day-1). It was modestly increased by both social stress and ACTH, and more so in WKY, thereby approaching that in SHR. Concerning the various Na diets and their influences, daytime resting MAP was modestly lowered in LNaSHR and slightly increased in vHNaSHR compared with CNaSHR but largely equal in all WKY groups. Food-water consumption was concentrated to the active night period, but even high Na-water intakes caused no signs of sustained hypervolaemia, because each intake bout was in both SHR and WKY eliminated by urine within 30-40 min. However, particularly the vHNa diet in SHR also increased the frequency of drinking, and each bout caused transient, evidently neurogenic MAP and HR increases which occurred too rapidly to be consequences of blood volume expansion. As a result, the diurnal MAP-HR patterns in SHR varied markedly with the Na diets, in vHNa group resulting in considerably raised average diurnal MAP levels even though resting daytime MAP was here nearly the same as in CNaSHR. These findings illustrate how largely continuous diurnal recordings are needed to judge correctly the relationships between, for example, Na intake, volume equilibrium and MAP. Finally, the relevance of these results in rats for also judging the control of Na balance in man is discussed.
The objective of this paper was to test the hypothesis that testosterone (T) raises blood pressure (BP), which is associated with increased coronary adventitial collagen, whereas the hemodynamic force of BP increases the coronary media:lumen ratio. Five treatment groups of spontaneously hypertensive rat (SHR) were established (n = 8-10 per group): controls; hydralazine (HYZ); castration; castration + HYZ; and castration + HYZ + T + captopril. At 12 weeks of age, the castrate + HYZ group was divided so that the mean BP was the same in both groups (162 mmHg). Both groups continued to receive HYZ treatment; however one group received T implants. Also, at 12 weeks of age the castrate + HYZ + T + captopril group received T implants. BP in the HYZ group was reduced compared with controls (192 mmHg vs 218 mmHg, p < 0.01). Castration lowered BP to 170 mmHg (p < 0.01) compared with controls. However, T implants increased BP by 15 mmHg (p < 0.02) in the castrate + HYZ group and by 44 mmHg in the castrate + HYZ + captopril group (p < 0.01). Captopril in combination with HYZ significantly reduced BP compared with controls but T replacement increased BP and coronary collagen deposition in spite of HYZ and captopril treatment.
This study tested the hypothesis that there is an increase in the amount of voluntary running performed by SHR/y vs.WKY rat strains. The SHR/y rat is a strain having the SHR Y chromosome in a normotensive WKY genetic background by backcrossing 19 generations of male offspring to a WKY female. Two groups of adult rats (WKY and SHR/y) (n=6/group) were established. Each rat was housed individually in cages connected with PVC tubing to a running wheel. Blood glucose and hematocrit of each rat was measured at baseline and every two weeks thereafter. Results of this ongoing study indicate that male SHR/y rats, when given access to a running wheel, voluntarily run significantly (p<0.05) longer distances/day (~80%) on average compared to WKY rats. Additionally, blood glucose and hematocrit were positively correlated with one another (p<0.05) and SHR/y rats had elevated hematocrit compared to WKY (p<.05) for the first two weeks of study. In conclusion, rats with the SHR Y chromosome have a higher voluntary running activity than rats with the WKY Y chromosome, which may be due to increased SNS activity and higher aerobic capacity.
Recently we described six Sry loci on a single Y chromosome of SHR. To determine if these loci have the potential to express functional proteins we cloned the coding region of each into eukaryotic (pcDNA3.1) and prokaryotic (pIVEX2.3) expression constructs. Western blot analysis with a commercially available antiserum was used to confirm the presence of recombinant eukaryotic Sry (reSry), expressed in transiently transfected CHO cells, and recombinant prokaryotic Sry (rpSry), expressed in BL21(De3) cells. Six reSry and six rpSry proteins were detected. Only the rpSry proteins were detected using a peptide antibody against amino acids 117–130 of rat Sry; this antibody did not detect reSry proteins. One explanation for why the antibody did not react with reSry is the presence of a potential PKC phosphorylation site at amino acid 124. Results from these studies demonstrate that we can express and detect recombinant Sry and suggest that reSry is potentially phosphorylated. DNA affinity purification was successfully performed with reSry and rpSry proteins using oligonucleotides containing an Sry response element, indicating that all reSry and rpSry interact with consensus Sry DNA response elements. The relative DNA binding affinity of each protein with and without posttranslational modification for Sry response elements can now be addressed. Supported by NIH RO1‐HL71579‐01A3 and UA FRG 1653.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.