Norma B. Ojeda scite author profile

Abstract-Placental insufficiency in the rat results in intrauterine growth restriction and development of hypertension in prepubertal male and female growth-restricted offspring. However, after puberty, only male growth-restricted offspring remain hypertensive, whereas female growth-restricted offspring stabilize their blood pressure to levels comparable to adult female controls. Because female rats reach their maximum levels of estrogen at puberty, we hypothesize that estrogen may be a factor involved in the stabilization of blood pressure in adult female growth-restricted offspring. At 10 weeks of age, female control and growth-restricted offspring underwent ovariectomy or sham surgery and insertion of a telemetry probe. Mean arterial pressure was similar at 16 weeks of age between control (123Ϯ4 mm Hg) and growth-restricted offspring (122Ϯ2 mm Hg); however, ovariectomy led to a significant increase in blood pressure in growth-restricted offspring (140Ϯ2 mm Hg; PϽ0.05 versus intact counterpart) with no significant effect in controls (124Ϯ1 mm Hg). Estrogen replacement by subcutaneous minipellet initiated at 14 weeks of age in a subset of ovariectomized control and growth-restricted offspring reversed the effect of ovariectomy on blood pressure in growth-restricted offspring at 16 weeks of age (111Ϯ3 mm Hg; PϽ0.05 versus ovariectomized counterpart); renin angiotensin system blockade also abolished ovariectomy-induced hypertension in female growth-restricted offspring (106Ϯ2 mm Hg; PϽ0.05 versus ovariectomized counterpart). Therefore, sex differences are observed in this model of fetal programmed hypertension, and results from this study suggest that estrogen contributes to normalization of blood pressure in adult female growth-restricted offspring. Key Words: fetal programming Ⅲ intrauterine growth restriction Ⅲ ovariectomy Ⅲ estrogen Ⅲ renin angiotensin system H ypertension shows a clear age-related sex dimorphism. Nearly 1 in 3 adult Americans have hypertension. A higher percentage of men than women have hypertension until age 45 years, the percentage is similar from ages 45 to 54 years, and it becomes higher for women after that. 1 Thus, the risk of hypertension increases in women after the onset of menopause and continues to rise with age. 1-4 As a result, after menopause, a greater percentage of women have hypertension than age-matched men. 1,5,6 Epidemiological evidence suggests a regulatory role for estrogens in maintaining vascular function and structure. 7-9 Loss of ovarian function results in estrogen deficiency and increased risk for development of cardiovascular diseases, such as hypertension in postmenopausal women and women with ovarian surgical ablation. [7][8][9][10] In animal models of hypertension in which female rats are normotensive relative to their hypertensive male counterparts, ovariectomy induces hypertension. 11-14 Therefore, it seems that, while the ovaries are functional, women have a lower risk of cardiovascular disease than men, an observation supported by experimental studies.Alte...

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Testosterone contributes to marked elevations in mean arterial pressure in adult male intrauterine growth restricted offspring

Ojeda¹,

Grigore²,

Yanes³

et al. 2007

American Journal of Physiology-Regulatory, Integrative and Comp

131

178

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Our laboratory uses a model of intrauterine growth restriction (IUGR) induced by placental insufficiency in the rat to examine the developmental origins of adult disease. In this model only male IUGR offspring remain hypertensive in adulthood, revealing sex-specific differences. The purpose of this study was to determine whether testosterone with participation of the renin-angiotensin system (RAS) contributes to hypertension in adult male IUGR offspring. At 16 wk of age a significant increase in testosterone (346 Ϯ 34 vs. 189 Ϯ 12 ng/dl, P Ͻ 0.05) was associated with a significant increase in mean arterial pressure (MAP) measured by telemetry in IUGR offspring (147 Ϯ 1 vs. 125 Ϯ 1 mmHg, P Ͻ 0.05, IUGR vs. control, respectively). Gonadectomy (CTX) at 10 wk of age significantly reduced MAP by 16 wk of age in IUGR offspring (124 Ϯ 2 mmHg, P Ͻ 0.05 vs. intact IUGR) but had no effect in control (125 Ϯ 2 mmHg). A significant decrease in MAP in intact IUGR (111 Ϯ 3 mmHg, P Ͻ 0.05 vs. untreated intact IUGR) and castrated IUGR (110 Ϯ 4 mmHg, P Ͻ 0.05 vs. untreated CTX IUGR) after treatment with enalapril for 2 wk suggests a role for RAS involvement. However, the decrease in blood pressure in response to enalapril was greater in intact IUGR (⌬36 Ϯ 1 mmHg, P Ͻ 0.05) compared with CTX IUGR (⌬15 Ϯ 2 mmHg), indicating an enhanced response to RAS blockade in the presence of testosterone. Thus these results suggest that testosterone plays a role in modulating hypertension in adult male IUGR offspring with participation of the RAS.

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Sex differences in the fetal programming of hypertension

2008

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Placental insufficiency results in temporal alterations in the renin angiotensin system in male hypertensive growth restricted offspring

Grigore

Ojeda²,

Robertson³

et al. 2007

American Journal of Physiology-Regulatory, Integrative and Comp

105

128

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Reduced uterine perfusion initiated in late gestation in the rat results in intrauterine growth restriction (IUGR) and development of hypertension by 4 wk of age. We hypothesize that the renin angiotensin system (RAS), a regulatory system important in the long-term control of blood pressure, may be programmed by placental insufficiency and may contribute to the etiology of IUGR hypertension. We previously reported that RAS blockade abolished hypertension in adult IUGR offspring; however, the mechanisms responsible for the early phase of hypertension are unresolved. Therefore, the purpose of this study was to examine RAS involvement in early programmed hypertension and to determine whether temporal changes in RAS expression are observed in IUGR offspring. Renal renin and angiotensinogen mRNA expression were significantly decreased at birth (80 and 60%, respectively); plasma and renal RAS did not differ in conjunction with hypertension (mean increase of 14 mmHg) in young IUGR offspring; however, hypertension (mean increase of 22 mmHg) in adult IUGR offspring was associated with marked increases in renal angiotensin-converting enzyme (ACE) activity (122%) and renal renin and angiotensinogen mRNA (7-fold and 7.4-fold, respectively), but no change in renal ANG II or angiotensin type 1 receptor. ACE inhibition (enalapril, 10 mg x kg(-1) x day(-1), administered from 2 to 4 wk of age) abolished hypertension in IUGR at 4 wk of age (decrease of 15 mmHg, respectively) with no significant depressor effect in control offspring. Therefore, temporal alterations in renal RAS are observed in IUGR offspring and may play a key role in the etiology of IUGR hypertension.

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Norma B. Ojeda

Estrogen Protects Against Increased Blood Pressure in Postpubertal Female Growth Restricted Offspring

Testosterone contributes to marked elevations in mean arterial pressure in adult male intrauterine growth restricted offspring

Sex differences in the fetal programming of hypertension

Placental insufficiency results in temporal alterations in the renin angiotensin system in male hypertensive growth restricted offspring

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