Your search keyword '"Gattineni, Jyothsna"' showing total 7 results

1. Effect of Postnatal Maternal Protein Intake on Prenatal Programming of Hypertension

Author

Siddique, Khurrum, Guzman, German Lozano, Gattineni, Jyothsna, and Baum, Michel

Published

2014

2. Effect of renal denervation on urine angiotensinogen excretion in prenatally programmed rats.

Author

Mansuri, Asifhusen, Legan, Susan K., Jain, Jyoti, Alhamoud, Issa, Gattineni, Jyothsna, and Baum, Michel

Subjects

DENERVATION, BLOOD pressure, ANGIOTENSINOGEN, CREATININE, FETAL monitoring

Abstract

Prenatal programming results in an increase in blood pressure in adult offspring. We have shown that compared to control adult offspring whose mothers were fed a 20% protein diet, programmed adults whose mothers were fed a 6% protein diet during the last half of pregnancy have an increase in renal sympathetic nerve activity and urinary angiotensinogen/creatinine levels. We hypothesized that the increase in urinary angiotensinogen was mediated by renal sympathetic nerve activity in programmed rats. In this study performed in 3 month old rats, renal denervation resulted in normalization of blood pressure in the 6% programmed group (150 ± 3 Hg in 6% sham vs. 121 ± 4 Hg in 6% denervated, P < 0.001), and a reduction in blood pressure in the 20% group (126 ± 2 Hg 20% sham vs. 113 ± 4 Hg 20% denervated ( P < 0.05). We confirm that the intrarenal renin-angiotensin system assessed by urinary angiotensinogen/creatinine is upregulated in offspring of rats fed a 6% protein diet rats compared to 20% controls. To determine if sympathetic nerve activity was mediating the increase in urinary angiotensinogen in programmed rats, we compared denervated to sham-operated control and programmed rats. Renal denervation had no effect on urinary angiotensinogen/creatinine ratio in the 20% group and no effect on the increased urinary angiotensinogen/creatinine ratio found in programmed rats. This study demonstrates that the increase in urinary angiotensinogen in programmed rats is not mediated by renal sympathetic nerve activity. [ABSTRACT FROM AUTHOR]

Published

2017

3. Effect of prenatal programming and postnatal rearing on glomerular filtration rate in adult rats.

Author

Lozano, German, Elmaghrabi, Ayah, Salley, Jordan, Siddique, Khurrum, Gattineni, Jyothsna, and Baum, Michel

Subjects

GLOMERULAR filtration rate, KIDNEY glomerulus, BLOOD pressure, LABORATORY rats, HYPERTENSION, PREGNANCY

Abstract

The present study examined whether a prenatal low-protein diet programs a decrease in glomerular filtration rate (GFR) and an increase in systolic blood pressure (BP). In addition, we examined whether altering the postnatal nutritional environment of nursing neonatal rats affected GFR and BP when rats were studied as adults. Pregnant rats were fed a normal (20%) protein diet or a low-protein diet (6%) during the last half of pregnancy until birth, when rats were fed a 20% protein diet. Mature adult rats from the prenatal low-protein group had systolic hypertension and a GFR of 0.38 ± 0.03 versus 0.57 ± 0.05 ml·min-1·100 g body wt-1 in the 20% group (P < 0.01). In cross-fostering experiments, mothers continued on the same prenatal diet until weaning. Prenatal 6% protein rats cross-fostered to a 20% mother on day 1 of life had a GFR of 0.53 ± 0.05 ml·min-1·100 g body wt-1, which was not different than the 20% group cross-fostered to a different 20% mother (0.45 ± 0.04 ml·min-1·100 g body wt-1). BP in the 6% to 20% group was comparable with the 20% to 20% group. Offspring of rats fed either 20% or 6% protein diets during pregnancy and cross-fostered to a 6% mother had elevated BP but a comparable GFR normalized to body weight as the 20% to 20% control group. Thus, a prenatal low-protein diet causes hypertension and a reduction in GFR in mature adult offspring, which can be modified by postnatal rearing. [ABSTRACT FROM AUTHOR]

Published

2015

4. Evidence That Prenatal Programming of Hypertension by Dietary Protein Deprivation Is Mediated by Fetal Glucocorticoid Exposure.

Author

Habib, Sabeen, Gattineni, Jyothsna, Twombley, Katherine, and Baum, Michel

Subjects

DEXAMETHASONE, HYPERTENSION, PRENATAL care, KIDNEY tubules, GLUCOCORTICOIDS

Abstract

BackgroundPrenatal programming by maternal dietary protein deprivation and prenatal dexamethasone result in a reduction in nephron number and hypertension when the offspring are studied as adults.MethodsTo determine whether prenatal dietary protein deprivation results in a reduction in nephron number and hypertension in offspring by exposure to maternal glucocorticoids, we administered metyrapone to rats fed either a 6% or 20% protein diet to inhibit glucocorticoid production and compared the offspring to rats that were the product of mothers fed either a 6% or 20% protein diet during the last half of pregnancy.ResultsMale offspring from the 6% group had elevated systolic blood pressure (149 ± 2 vs. 130 ± 5 mm Hg, P < 0.05) and a reduction in glomeruli compared to the 20% group (22,111 ± 627 vs. 29,666 ± 654 glomeruli/kidney, P < 0.001). Maternal metyrapone administration did not affect the blood pressure in the 20% group but ameliorated the increase in blood pressure in the 6% male group to values comparable to the 20% control group (138 ± 6 vs. 130 ± 5 mm Hg). Male offspring of the 6% group that received metyrapone had an increase in the number of glomeruli compared to the vehicle-treated 6% group (26,780 ± 377 vs. 22,111 ± 627 glomeruli/kidney, P < 0.001), but less glomeruli compared to the 20% protein control group (26,780 ± 377 vs. 29,666 ± 654 glomeruli/kidney, P = 0.01).ConclusionsThe reduction in nephron number and hypertension induced by maternal protein deprivation in male offspring is ameliorated by inhibition of glucocorticoid production.American Journal of Hypertension (2011). doi:10.1038/ajh.2010.177 [ABSTRACT FROM AUTHOR]

Published

2011

5. Effect of Prenatal Dexamethasone on Postnatal Serum and Urinary Angiotensin II Levels.

Author

Dagan, Amit, Gattineni, Jyothsna, Habib, Sabeen, and Baum, Michel

Subjects

DEXAMETHASONE, SERUM, ANGIOTENSIN II, HYPERTENSION, LABORATORY rats

Abstract

BackgroundPrenatal programming of hypertension has been described in humans and in animal models that receive a prenatal insult, but the mechanism for the increase in blood pressure remains elusive.MethodsIn male rats whose mothers received dexamethasone between days 15 and 18 of gestation systemic and urinary levels of angiotensin II were measured to determine whether angiotensin II was a potential factor for the generation (4 weeks of age) or maintenance (8 weeks of age) of hypertension.ResultsA group 4- and 8-week-old male rats that were the product of a pregnancy where the mother received prenatal dexamethasone between days 15 and 18 of gestation had comparable plasma renin and angiotensin II levels to the offspring of vehicle-treated controls. Renal angiotensin II levels were not different at 4 and 8 weeks of age between the controls and the prenatal dexamethasone group. Urine angiotensin II/Creatinine levels, a reflection of filtered and renally generated and secreted angiotensin II, were higher at both 4 and 8 weeks of age in male rats that received prenatal dexamethasone compared to controls.ConclusionsThe high-urine angiotensin II levels in prehypertensive and hypertensive rats that were the product of mothers that received dexamethasone compared to vehicle suggest that luminal angiotensin II may play a role in the generation and maintenance of hypertension in this model of prenatal programming.American Journal of Hypertension 2010; doi:10.1038/ajh.2009.274 [ABSTRACT FROM AUTHOR]

Published

2010

6. Prenatal programming of rat thick ascending limb chloride transport by low-protein diet and dexamethasone.

Author

Dagan, Amit, Habib, Sabeen, Gattineni, Jyothsna, Dwarakanath, Vangipuram, and Baum, Michel

Subjects

EXTREMITIES (Anatomy), DEXAMETHASONE, LOW-protein diet, LABORATORY rats, ANIMAL models in research, HYPERTENSION, PRENATAL diagnosis, BLOOD pressure, FUROSEMIDE

Abstract

Dagan A, Habib S, Gattineni J, Dwarakanath V, Baum M. Prenatal programming of rat thick ascending limb chloride transport by low-protein diet and dexamethasone. Am J Physiol Re gut Integr Comp Physiol 297: R93-R99, 2009. First published April 29, 2009; doi: 10.1152/ajpregu.9 1006.2008.-Prenatal administration of dexamethasone and a low-protein diet has been shown to result in hypertension in the offspring when they are adults. The cause for the hypertension is unknown. The purpose of this study was to examine whether there was prenatal programming of thick ascending limb transport. Rats were administered either dexamethasone for 4 days (0.2 mg/kg body wt) by intraperitoneal injection daily between the 15th and 18th day of gestation, or they were fed a low-protein diet (6% protein) or an isocaloric normal protein diet (20% protein) from day 12 gestation until birth. The offspring were studied as adults. Prenatal dexamethasone and dietary protein deprivation resulted in an increase in blood pressure. Offspring of mothers fed a low-protein diet had an increase in medullaiy but not cortical bumetanide-sensitive Na-K-2C1 cotransporter (NKCC2) protein abundance (P < 0.01). There was not a statistically significant increase in medullary NKCC2 by prenatal dexamethasone (P = 0.07). Both prenatal administration of dexamethasone and a low-protein diet resulted in an increase in medullary thick ascending limb chloride transport compared with control (298 ± 33 pmoles∙mm[sup-1]∙min[sup-1], 280 ± 26 pmoles∙mm[sup-1]∙min[sup-1], and 191 ± 21 pmoles∙mm[sup-1]∙min[sup-1], respectively P < 0.05). There was a higher lumen-positive transepithelial potential difference in the prenatal dexamethasone and low-protein group compared with control as well. Administration of furosemide for 24 h resulted in a decrease in blood pressure in the low-protein group but not the control group. This study demonstrates that insults administered to the fetus can program altered sodium transport. Increased tubular sodium transport is a likely cause for the hypertension by prenatal programming. [ABSTRACT FROM AUTHOR]

Published

2009

7. Prenatal programming of rat proximal tubule Na+/H+ exchanger by dexamethasone.

Author

Dagan, Amit, Gattineni, Jyothsna, Cook, Vodi, and Baum, Michel

Subjects

*KIDNEY tubules, *HYPERTENSION, *MESSENGER RNA, *RAT physiology, *BLOOD pressure

Abstract

Prenatal administration of dexamethasone causes hypertension in rats when they are studied as adults. Although an increase in tubular sodium reabsorption has been postulated to be a factor programming hypertension, this has never been directly demonstrated. The purpose of this study was to examine whether prenatal programming by dexamethasone affected postnatal proximal tubular transport. Pregnant Sprague-Dawley rats were injected with intraperitoneal dexamethasone (0.2 mg/kg) daily for 4 days between the 15th and 18th days of gestation. Prenatal dexamethasone resulted in an elevation in systolic blood pressure when the rats were studied at 7-8 wk of age compared with vehicle-treated controls: 131 ± 3 vs. 115 ± 3 mmHg (P < 0.001). The rate of proximal convoluted tubule volume absorption, measured using in vitro microperfusion, was 0.61 + 0.07 nl·mm-1·min-1 in control rats and 0.93+ 0.07 nl·mm-1·min-1 in rats that received prenatal dexamethasone (P < 0.05). Na+/H+ exchanger activity measured in perfused tubules in vitro using the pH-sensitive dye BCECF showed a similar 50% increase in activity in proximal convoluted tubules from rats treated with prenatal dexamethasone. Although there was no change in abundance of NHE3 mRNA, the predominant luminal proximal tubule Na+/H+ exchanger, there was an increase in NHE3 protein abundance on brush-border membrane vesicles in 7- to 8-wk-old rats receiving prenatal dexamethasone. In conclusion, prenatal administration of dexamethasone in rats increases proximal tubule transport when rats are studied at 7-8 wk old, in part by stimulating Na+/H+ exchanger activity. The increase in proximal tubule transport may be a factor mediating the hypertension by prenatal programming with dexamethasone. [ABSTRACT FROM AUTHOR]

Published

2007