Your search keyword '"Salt-sensitive"' showing total 60 results

51. Sodium bicarbonate loading limits tubular cast formation independent of glomerular injury and proteinuria in Dahl salt-sensitive rats.

Author

Ray SC, Patel B, Irsik DL, Sun J, Ocasio H, Crislip GR, Jin CH, Chen J, Baban B, Polichnowski AJ, and O'Connor PM

Subjects

Acids urine, Animals, Blood Glucose metabolism, Disease Models, Animal, Fibrosis, Glomerulosclerosis, Focal Segmental etiology, Glomerulosclerosis, Focal Segmental metabolism, Hemodynamics drug effects, Hydrogen-Ion Concentration drug effects, Ion Channels deficiency, Ion Channels genetics, Ion Channels physiology, Male, Proteinuria metabolism, Rats, Inbred Dahl, Rats, Mutant Strains, Sodium Bicarbonate pharmacology, Sodium Chloride, Dietary pharmacology, Sodium Chloride, Dietary toxicity, Glomerulosclerosis, Focal Segmental prevention & control, Kidney Tubules pathology, Proteinuria prevention & control, Sodium Bicarbonate therapeutic use

Abstract

Sodium bicarbonate (NaHCO 3 ) slows the decline in kidney function in patients with chronic kidney disease (CKD), yet the mechanisms mediating this effect remain unclear. The Dahl salt-sensitive (SS) rat develops hypertension and progressive renal injury when fed a high salt diet; however, the effect of alkali loading on kidney injury has never been investigated in this model. We hypothesized that NaHCO 3 protects from the development of renal injury in Dahl salt-sensitive rats via luminal alkalization which limits the formation of tubular casts, which are a prominent pathological feature in this model. To examine this hypothesis, we determined blood pressure and renal injury responses in Dahl SS rats drinking vehicle (0.1 M NaCl) or NaHCO 3 (0.1 M) solutions as well as in Dahl SS rats lacking the voltage-gated proton channel (Hv1). We found that oral NaHCO 3 reduced tubular NH 4 + production, tubular cast formation, and interstitial fibrosis in rats fed a high salt diet for 2 weeks. This effect was independent of changes in blood pressure, glomerular injury, or proteinuria and did not associate with changes in renal inflammatory status. We found that null mutation of Hv1 also limited cast formation in Dahl SS rats independent of proteinuria or glomerular injury. As Hv1 is localized to the luminal membrane of TAL, our data suggest that alkalization of the luminal fluid within this segment limits cast formation in this model. Reduced cast formation, secondary to luminal alkalization within TAL segments may mediate some of the protective effects of alkali loading observed in CKD patients., (© 2018 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society.)

Published

2018

52. Einfluss einer cholesterinreichen Diät und einer Blockade des Endothelin-TypA- Rezeptors auf vaskuläre und renale Funktionsparameter bei experimenteller arterieller Hypertonie

Author

Traupe, Tobias

Subjects

hypertension, endothelium, endothelin-1, cholesterol, rat, salt-sensitive, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit::610 Medizin und Gesundheit, albuminuria, LU135252

Abstract

Titelblatt Inhaltsverzeichnis 1 Einleitung 5 2 Material und Methoden 10 2.1 Studienaufbau 10 2.2 Versuchstiere 10 2.3 Blutdruckmessung 12 2.4 Biochemische Urin- und Blutanalysen 13 2.5 Organentnahme 14 2.6 Organkammer-Experimente 15 2.6.1 Versuchsaufbau 15 2.6.2 Versuchsprotokolle 15 2.6.3 Substanzen 17 2.7 Statistische Auswertung 17 3 Ergebnisse 19 3.1 Studie A: Genetisch determinierte Hypertonie 19 3.1.1 Körper- und Organgewichte 19 3.1.2 Systolischer Blutdruck 19 3.1.3 Biochemische Urinanalysen 21 3.1.4 Biochemische Blutanalysen 21 3.1.5 Untersuchungen zur Gefäßfunktion 23 3.2 Studie B: Spontane Proteinurie bei Hypertonie 26 3.2.1 Körper- und Organgewichte 26 3.2.2 Systolischer Blutdruck 26 3.2.3 Biochemische Urinanalysen 27 3.2.4 Biochemische Blutanalysen 27 3.2.5 Untersuchungen zur Gefäßfunktion 29 3.3 Studie C: Salzsensitive Hypertonie 32 3.3.1 Körper- und Organgewichte 32 3.3.2 Systolischer Blutdruck 33 3.3.3 Biochemische Urinanalysen 33 3.3.4 Untersuchungen zur Gefäßfunktion 35 4 Diskussion 37 4.1 Genetisch determinierte Hypertonie 37 4.1.1 Wirkungen einer Cholesterinbehandlung auf renale Funktionsparameter 37 4.1.1 Wirkungen einer Cholesterinbehandlung auf vaskuläre Funktionsparameter 39 4.2 Spontane Proteinurie bei Hypertonie 41 4.2.1 Wirkungen einer Cholesterinbehandlung auf renale Funktionsparameter 41 4.2.2 Wirkungen einer Cholesterinbehandlung auf vaskuläre Funktionsparameter 43 4.3 Salzsensitive Hypertonie 44 4.3.1 Wirkungen einer Endothelinblockade auf renale Funktionsparameter 44 4.3.2 Wirkungen einer Endothelinblockade auf vaskuläre Funktionsparameter 46 5 Abkürzungen 50 6 Zusammenfassung 52 7 Literatur 54 8 Lebenslauf, Publikationen und Danksagung 66 9 Anhang 71 9.1 Materialliste 71 9.1.1 Laborgeräte 71 9.1.2 Laborzubehör 72 9.1.3 Substanzen 73, Die arterielle Hypertonie ist ein wesentlicher Risikofaktor für die Entstehung der Atherosklerose, die für etwa die Hälfte der Morbidität und Mortalität in den Industrieländern verantwortlich ist. Im Rahmen hypertensiver Endorganschädigungen kommt es zu einer systemischen Dysfunktion des vaskulären Endothels und zu einer Mikroalbuminurie, die wichtige prognostische Marker bei Patienten mit kardiovaskulären Erkrankungen darstellen. In der vorliegenden Arbeit wurde daher untersucht, ob eine Cholesterindiät (ChD) zu einer verstärkten Endorganschädigung an Niere und Aorta bei der spontan hypertensiven Ratte (SHR) und der München Wistar Frömter (MWF)-Ratte führt. Weiterhin wurde untersucht, ob eine Behandlung mit einem Endothelin ET(A)-Rezeptorantagonisten (LU135252) die Entstehung von Hypertonie und Endorganschäden bei der salzsensitiven Sabra-Ratte (SBH) beeinflussen kann. Um funktionelle Veränderungen an Aorta und Niere bestimmen zu können, wurden Relaxations- und Kontraktionsexperimente mit isolierten Aortenringen in Organkammern, biochemische Urin- und Blutanalysen sowie Blutdruckmessungen durchgeführt. Unsere Untersuchungen konnten zeigen, dass eine ChD bei der SHR zu einer Albuminurie, einem Anstieg des CRP und einer abgeschwächten endothel- vermittelten Relaxation führt. Nach in vitro-Behandlung mit LU135252 zeigte sich eine deutliche Abschwächung der Kontraktionen auf Phenylephrin. Dies deutet auf eine endothelinvermittelte Modulation der alpha1-rezeptorvermittelten Kontraktionen bei diesen Tieren hin. Die deutlich ausgeprägte Albuminurie der MWF-Ratte wurde durch eine ChD trotz Nierenhypertrophie nicht weiter erhöht. Eine veränderte endothel-abhängige Relaxation konnte auch nach Behandlung mit einer ChD nicht festgestellt werden, ebenso zeigte sich nach in vitro-Behandlung mit L-NMMA oder LU135252 keine Abschwächung der Kontraktionen auf Phenylephrin. Bei der salzsensitiven Sabra-Ratte (SBH) verhinderte die orale Gabe von LU135252 eine linksventrikuläre Herzhypertrophie und bewirkte eine deutliche Abschwächung des systolischen Blutdruckanstiegs und der Albuminurie nach Salzbehandlung. Kontraktionen auf ET-1 waren bei normotensiven SBH im Vergleich zu salzresistenten SBN deutlich geringer ausgeprägt und nach Salzbehandlung oder gleichzeitiger Gabe von LU135252 noch weiter abgeschwächt. Diese Befunde deuten auf eine spezifische, stark gestörte funktionelle Einschränkung der ET(A)-vermittelten intrazellulären Signaltransduktion in der Aorta von SBH hin, die sich von den bekannten Hypertoniemodellen unterscheidet. Die vorliegenden Untersuchungen zeigen erstmals die Bedeutung von exogen zugeführtem Cholesterin bzw. DOCA-Salz auf funktionelle Parameter von Aorta und Niere bei verschiedenen experimentellen Hypertoniemodellen sowie die Rolle des Vasokonstriktors und Wachstumsfaktors Endothelin in diesem Zusammenhang., Arterial hypertension is a major risk factor for the development of atherosclerosis, which still accounts for the majority of cardiovascular morbidity and mortality in industrialized countries and its incidence is increasing in developing countries. Hypertension may cause impairment of vascular endothelial cell function as well as microalbuminuria which both are important determinants of disease progression in patients with increased cardiovascular risk. We therefore investigated whether a high-cholesterol diet (ChD) increases endorgan-damage of the kidney or the aorta in the spontaneously hypertensive rat (SHR) and the Munich Wistar Fromter rat (MWF). Moreover, we investigated whether treatment with an orally active endothelin ET(A) receptor-antagonist (LU135252) prevents hypertension or endorgan-damage in the Sabra model of salt-sensitive hypertension (SBH). To assess functional alterations of aorta and kidneys, contractions and relaxations of isolated aortic rings suspended in organ chambers, biochemical analysis of blood and urine, and blood pressure measurements were performed. In this study, we demonstrate that ChD increases albuminuria and C-reactive protein serum levels, and attenuates endothelium-dependent relaxations in SHR rats. After in vitro treatment with LU135252, contractions to phenylephrine were markedly decreased which indicates endothelin-1 mediated modulation of alpha1-receptor mediated contractions. Interestingly, ChD did not affect distinct albuminuria in MWF rats, although animals showed renal hypertrophy. Endothelium-dependent relaxations were neither attenuated in this model, nor affected by ChD. Furthermore, contractions to phenylephrine were not affected by in vitro treatment with L-NAME or LU135252. In contrast, oral treatment with LU135252 prevented leftventricular hypertrophy in the Sabra model of hypertension and ameliorated increased systolic blood pressure as well as albuminuria after salt-loading. Contractions to endothelin-1 were markedly decreased in normotensive SBH rats as compared with salt-resistent SBN, and further decreased after salt-loading with or without LU135252 treatment. These results indicate a pronounced functional impairment of ET(A) receptor mediated intracellular signalling in the aorta of SBH rats which is different from other experimental models of hypertension. In summary, this study demonstrates the effect of high-cholesterol diet and salt-loading on vascular and renal function in different animal models of hypertension, including the role of endothelin-1.

Published

2003

53. Hemodynamic and Autonomic Response to Different Salt Intakes in Normotensive Individuals.

Author

Castiglioni P, Parati G, Lazzeroni D, Bini M, Faini A, Brambilla L, Brambilla V, and Coruzzi P

Subjects

Adult, Blood Pressure Monitoring, Ambulatory, Dose-Response Relationship, Drug, Female, Humans, Male, Blood Pressure drug effects, Heart Rate drug effects, Hemodynamics drug effects, Sodium, Dietary pharmacology

Abstract

Background: Even if sodium sensitivity represents a risk factor at any blood pressure (BP) level, limited evidence is available that it may influence cardiovascular control in normotensives, particularly in white individuals. Therefore, the aim of the study was to investigate whether sodium sensitivity alters hemodynamic or autonomic responses to salt in normotensives., Methods and Results: We evaluated the Sodium-Sensitivity Index (SS-Index) in 71 white normotensives after 5 days of high- and low-sodium diets. We measured BP continuously at the end of each period, estimating hemodynamic indices from BP waveform analysis, and autonomic indices from heart rate (HR) and BP variability. According to the SS-Index distribution, we defined 1 sodium-sensitive group (SS, with SS-Index >15 mm Hg/[mmol·day]), 1 sodium-resistant group, (unresponsive to sodium load with -15≤ SS-Index ≤+15), and 1 inverse sodium-sensitive group, responsive to sodium by decreasing BP, with SS-Index <-15). We compared the effects of the diets among groups, and correlated autonomic/hemodynamic indices with the SS-Index. After sodium loading, a significant decrease in systemic peripheral resistances, HR, spectral indices of BP modulation, and a significant increase of indices of HR vagal modulation were found in the inverse sodium-sensitive group but not in SS normotensives. Moreover, the highest SS-Indices were associated with the lesser vagal HR decelerations., Conclusions: Our data suggest that salt sensitivity in white normotensive individuals is associated with impaired vasodilation and altered autonomic response to dietary salt. Such dysfunction may critically contribute to induce a BP response to dietary salt., (© 2016 The Authors. Published on behalf of the American Heart Association, Inc., by Wiley Blackwell.)

Published

2016

54. Macula Densa Nitric Oxide Synthase 1β Protects against Salt-Sensitive Hypertension.

Author

Lu Y, Wei J, Stec DE, Roman RJ, Ge Y, Cheng L, Liu EY, Zhang J, Hansen PB, Fan F, Juncos LA, Wang L, Pollock J, Huang PL, Fu Y, Wang S, and Liu R

Subjects

Animals, Hypertension prevention & control, Male, Mice, Mice, Inbred C57BL, Nitric Oxide Synthase Type I therapeutic use, Hypertension enzymology, Hypertension etiology, Juxtaglomerular Apparatus enzymology, Nitric Oxide Synthase Type I physiology, Sodium Chloride, Dietary adverse effects

Abstract

Nitric oxide (NO) is an important negative modulator of tubuloglomerular feedback responsiveness. We recently found that macula densa expresses α-, β-, and γ-splice variants of neuronal nitric oxide synthase 1 (NOS1), and NOS1β expression in the macula densa increases on a high-salt diet. This study tested whether upregulation of NOS1β expression in the macula densa affects sodium excretion and salt-sensitive hypertension by decreasing tubuloglomerular feedback responsiveness. Expression levels of NOS1β mRNA and protein were 30- and five-fold higher, respectively, than those of NOS1α in the renal cortex of C57BL/6 mice. Furthermore, macula densa NO production was similar in the isolated perfused juxtaglomerular apparatus of wild-type (WT) and nitric oxide synthase 1α-knockout (NOS1αKO) mice. Compared with control mice, mice with macula densa-specific knockout of all nitric oxide synthase 1 isoforms (MD-NOS1KO) had a significantly enhanced tubuloglomerular feedback response and after acute volume expansion, significantly reduced GFR, urine flow, and sodium excretion. Mean arterial pressure increased significantly in MD-NOS1KO mice (P<0.01) but not NOS1flox/flox mice fed a high-salt diet. After infusion of angiotensin II, mean arterial pressure increased by 61.6 mmHg in MD-NOS1KO mice versus 32.0 mmHg in WT mice (P<0.01) fed a high-salt diet. These results indicate that NOS1β is a primary NOS1 isoform expressed in the macula densa and regulates the tubuloglomerular feedback response, the natriuretic response to acute volume expansion, and the development of salt-sensitive hypertension. These findings show a novel mechanism for salt sensitivity of BP and the significance of tubuloglomerular feedback response in long-term control of sodium excretion and BP., (Copyright © 2016 by the American Society of Nephrology.)

Published

2016

55. Do You Want to Ditch Sodium? Meet Nitric Oxide Synthase 1β at the Macula Densa.

Author

Jose PA and Welch W

Subjects

Kidney Glomerulus, Kidney Tubules, Nitric Oxide, Nitric Oxide Synthase Type I, Nitric Oxide Synthase, Sodium

Published

2016

56. Contribution of the sympathetic nervous system to the pathogenesis of salt-sensitive hypertension

Author

Pazzol, Michael Lee

Subjects

Health sciences, Hypertension, NCC, SPAK, Beta2, Salt-sensitive, Sympathetic nervous system

Abstract

Dysregulation of the sodium-chloride cotransporter (NCC) is believed to significantly impact blood pressure. Recent studies have implicated overactivity of the sympathetic nervous system as a mechanism driving renal NCC dysregulation to evoke the development of salt-sensitive hypertension. It is proposed that the sympathetic nervous system accomplishes this by norepinephrine (NE)-mediated over-activation of the beta2-adrenergic receptors located in the distal tubules of the kidney. Beta2-adrenoreceptor activation is hypothesized to stimulate the protein kinases SPAK and OxSR1 to phosphorylate and thus activate NCC. This beta2-receptor-SPAK/OxSR1-NCC pathway was elucidated in studies that challenged salt-resistant mice with high-salt diets, bilateral adrenalectomies, and NE infusion. To expand the scope of these studies, we investigated the effects of elevated circulating NE on blood pressure, NCC activity, and expression of NCC proteins, SPAK, and OxSR1 in a different salt-resistant animal species (the Sprague-Dawley rat). In this study we implanted male Sprague-Dawley rats with osmotic minipumps delivering a subcutaneous infusion of either saline, NE, a 50:50 solution of DMSO/isotonic saline, a combination of NE and the NCC antagonist hydrochlorothiazide, or a combination of NE and the beta-adrenoreceptor antagonist propranolol. Following implantation of the pumps the rats were randomly assigned to either a standard diet (0.4% NaCl) or a high-salt diet (8% NaCl) for two weeks. After fourteen days all animals underwent acute femoral artery, vein, and bladder cannulation in order to monitor heart rate and blood pressure, administer drugs intravenously, and track renal function, respectively. Following surgical recovery, blood pressure and heart rate were measured continuously, and urine was collected in ten-minute intervals in order to assess peak natriuretic responses to amiloride and hydrochlorothiazide. Following this protocol the rats received an intravenous bolus of hexamethonium (30 mg/kg), and their peak drops in blood pressure were recorded. Afterwards both kidneys were harvested and frozen at -80 °C for measurement of NCC proteins, SPAK, and OxSR1 expression. This study demonstrates that increased circulating NE induces salt-sensitive hypertension in the naturally salt-resistant Sprague-Dawley rat. Chronic infusion of NE raised the blood pressure of the rats, and a high-salt diet exacerbated this effect. Furthermore, NE prevented salt-evoked suppression of NCC activity and NCC, SPAK, and OxSR1 protein expression. Co-infusion of hydrochlorothiazide with NE attenuated NE-mediated hypertension and caused no variance in the blood pressures between the standard salt and high-salt groups. This indicates that chronically antagonizing NCC eliminated the salt-sensitive component of NE-mediated hypertension. Beta-receptor antagonism combined with NE infusion completely eliminated the hypertensive influence of NE and downregulated the expression of NCC proteins, SPAK, and OxSR1. However, NCC activity still remained at a level comparable with that observed in the NE-infused rats, demonstrating dissociation between protein expression and function. These data, the first report in a rat model of an interaction of NE and a high salt intake that impairs NCC function, demonstrate that increased levels of NE in combination with a high dietary salt intake result in NCC dysregulation and the development of NE-mediated salt-sensitive hypertension. To an extent the data also support the proposition that NE activates the beta-adrenergic receptors to influence the activity of NCC and the expression of NCC proteins, SPAK, and OxSR1. Beta-antagonism combined with NE infusion attenuated the effects of NE on blood pressure and the expression of NCC proteins, SPAK, and OxSR1. However, the NE-mediated elevation of NCC activity still remained high. We propose that the beta-receptors are not the only adrenergic receptors that can influence NCC activity. The presence of alpha-adrenergic receptors in the distal tubules suggests that they may be able to keep NCC activity elevated through a pathway independent of the beta-receptors, SPAK, and OxSR1.

Published

2015

57. Development of salt-sensitive hypertension in a sensory denervated model: the underlying mechanisms.

Author

Wang, Donna H and Yan Huang

Abstract

We use a novel salt-sensitive hypertensive model recently developed in our laboratory. This model shows that neonatal degeneration of capsaicin-sensitive sensory nerves renders a rat responsive to a salt load with a significant rise in blood pressure (BP). To test the hypothesis that development of salt-sensitive hypertension in sensory denervated rats is mediated by abnormal regulation of both circulating and tissue renin-angiotensin systems (RAS), neonatal Wistar rats were given capsaicin, 50 mg/kg s.c., on the first and second days of life. Control rats were treated with vehicle solution. After the weaning period, male rats were divided into four groups and subjected to the following treatments for three weeks: control + high sodium diet (4%, CON-HS), capsaicin pretreatment + normal sodium diet (0.5%, CAP-NS), capsaicin pretreatment + high sodium diet (CAP-HS), and capsaicin pretreatment + high sodium diet + candesartan cilexetil (10 mg/kg/per day, CAP-HS-CAN). Radioimmunoassay shows that plasma renin activity (ng/ml/hr, PRA) was higher in CAP-NS (2.58±0.17) than in CON-HS (0.14±0.03) and CAP-HS (0.74±0.15), and it was higher in CAP-HS than in CON-HS (p<0.05). Western blot analysis shows that expression of the angiotensin II (Ang II) type 1 (AT1) receptor in both the renal cortex and outer medulla was higher in CAP-HS than in CON-HS and CAP-NS rats (p<0.05). Expression of the Ang II type 2 (AT2) receptor in the renal cortex was higher in both CAP-HS and CAP-NS than in CON-HS rats (p<0.05), but there was no difference in AT2-receptor expression in the renal medulla between CAP-HS, CAP-NS, and CON-HS rats. Likewise, there was no difference in AT1-receptor expression in mesenteric resistance arteries between CAP-HS, CAP-NS, and CON-HS rats. In contrast, mesenteric AT2-receptor expression was lower in CAP-HS than in CAP-NS and CON-HS rats (p<0.05). Tail-cuff systolic BP (mmHg) shows that blockade of the AT1-receptor with candesartan prevents the development of hypertension in CAP-HS rats (by the end of the experiment, CON-HS, 122±3; CAP-NS, 118±10; CAP-HS, 169±9; CAP-HS-CAN, 129±2, p<0.05). Thus, both circulating and tissue RAS in sensory-denervated rats are abnormally regulated in response to a high-salt intake, which may contribute to increased salt sensitivity and account for the effectiveness of candesartan in lowering BP in this model. [ABSTRACT FROM PUBLISHER]

Published

2001

58. Effect of soil salinity level and zinc application on growth, yield, and nutrient composition of rice

Author

Verma, T. S. and Neue, H. U.

Published

1984

59. Potassium Supplementation May Reduce Blood Pressure in Normotensive, Salt-Sensitive Subjects.

Abstract

The article discusses research being done on the role of potassium supplementation in reducing blood pressure in normotensive, salt-sensitive subjects, with reference to a study by Y. Fang, J. J. Mu, et al in the September 2006 issue of "Hypertension."

Published

2006

60. Involvement of the lymphatic system in salt-sensitive hypertension in humans

Author

Liu, F., Mu, J., Zuyi Yuan, Lian, Q., Zheng, S., Wu, G., and Liu, E.

Subjects

Adult, diet intervention, Analysis of Variance, China, Vascular Endothelial Growth Factor C, lymphatic system, Blood Pressure, Enzyme-Linked Immunosorbent Assay, Diet, Sodium-Restricted, Middle Aged, Sodium Chloride, Clinical Research, Hypertension, Homeostasis, Humans, salt-sensitive, Biomarkers

Abstract

Summary Background The mechanisms of salt sensitivity as an important intermediate phenotype of essential hypertension remain elusive. A novel theory proposes that lymphatic vessels regulate sodium and fluid homeostasis. Since vascular endothelial growth factor C (VEGF-C) plays a vital role in lymphatic capillary hyperplasia, we hypothesized that VEGF-C was involved in salt-sensitive hypertension. We therefore investigated its plasma concentration in salt-sensitive subjects. Material/Methods Twenty-seven subjects (BP ≤160/100 mmHg; age range 25–50 years) from a rural community of northern China were enrolled in this study. The baseline BP of volunteers was monitored for 3 days, followed by a low-salt diet for 7 days (3 g/day, NaCl) and a high-salt diet for 7 days (18 g/day, NaCl). Those who exhibited a BP increase of 10% from low-salt period to high-salt period were diagnosed as salt-sensitive subjects. The concentration of plasma VEGF-C was measured by an immunoenzyme method (ELISA). Result High salt intake significantly increased the plasma VEGF-C level. It was higher in the salt-sensitive subjects (3642.2±406.1 pg/ml) than in the salt-resistant subjects (2249.8±214.6 pg/ml). The comparison of VEGF-C levels between the 2 groups had significant statistical difference (P