Dorothy Nigro

Intrauterine undernutrition: expression and activity of the endothelial nitric oxide synthase in male and female adult offspring

OBJECTIVE Epidemiological studies suggest that intrauterine undernutrition plays an important role in the development of arterial hypertension in adulthood. In an attempt to define the mechanisms whereby blood pressure may be raised, we have hypothesized that arteries from offspring of nutritionally restricted dams exhibit abnormalities in the endothelial function and in nitric oxide synthesis. In order to investigate the existence of potential gender differences on the effects of intrauterine undernutrition, both male and female offspring of pregnant Wistar rats on normal and restricted diets were studied in adulthood. METHODS Female pregnant Wistar rats were fed either normal or 50% of the normal intake diets, during the whole gestational period. At 14 weeks of age, the rats were used for the study of vascular reactivity, eNOS and iNOS gene expression, eNOS activity and, in the case of females, estrogen levels. RESULTS Intrauterine undernutrition induced hypertension in both male and female offspring, but hypertension was more severe in male rats. Endothelium-intact aortic rings from male and female rats in the restricted diet group exhibited increased responses to norepinephrine, decreased vasodilation to acetylcholine and unaltered responses to sodium nitroprusside in comparison to aortic rings from control rats. No gender-related differences were observed in the vascular reactivity studies. Intrauterine undernutrition promoted decreased gene expression for eNOS in aorta isolated from male, but not female, offspring, reduction in eNOS activity in both male and female offspring and impairment in synthesis of estrogen in female offspring. CONCLUSION Our data show that intrauterine undernutrition: (1) induces hypertension both in the male and female offspring, hypertension being more severe in male than in female rats; (2) alters endothelium-dependent responses in aortas from the resulting offspring. The endothelial dysfunction is associated with a decrease in activity/expression of eNOS in aortas from male offspring. The mechanism involved in altered response to ACh in female offspring might be a consequence of reduction in estrogen levels leading to reduced eNOS activity.

ETA Receptor Blockade Decreases Vascular Superoxide Generation in DOCA-Salt Hypertension

Abstract—Development and progression of end-organ damage in hypertension have been associated with increased oxidative stress. Superoxide anion accumulation has been reported in deoxycorticosterone acetate (DOCA)-salt hypertension, in which endothelin-1 plays an important role in cardiovascular damage. We hypothesized that blockade of ETA receptors in DOCA-salt rats would decrease oxidative stress. Both systolic blood pressure (SBP, 210±9 mm Hg; P <0.05) and vascular superoxide generation in vivo were increased in DOCA-salt (44.9±10.3% of ethidium bromide–positive nuclei; P <0.05) versus control uninephrectomized (UniNx) rats (118±3 mm Hg; 18.5±3%, respectively). In DOCA-salt rats, the ETA antagonist BMS 182874 (40 mg/kg per day PO) lowered SBP (170±4 versus UniNx, 120±3 mm Hg) and normalized superoxide production (21.7±6 versus UniNx, 11.9±7%). Vitamin E (200 mg/kg per day PO) decreased superoxide formation in DOCA-salt rats (18.8±7%) but did not alter SBP. Oxidative stress in nonstimulated circulating polymorphonuclear cells (PMNs) or in PMNs treated with zymosan, an inducer of superoxide release, was similar in DOCA-salt and UniNx groups. Superoxide formation by PMNs was unaffected by treatment with BMS 182874. Western blot analysis showed increased nitrotyrosine-containing proteins in mesenteric vessels from DOCA-salt compared with UniNX. Treatment with either BMS 182874 or vitamin E abolished the differences in vascular nitrotyrosine-containing proteins between DOCA-salt and UniNX. Maximal relaxation to acetylcholine was decreased in DOCA-salt aortas (75.8±4.2% versus UniNx, 95.4±1.9%, P <0.05). BMS 182874 treatment increased acetylcholine-induced relaxation in DOCA-salt aortas to 93.5±4.5%. These in vivo findings indicate that increased vascular superoxide production is associated with activation of the endothelin system through ETA receptors in DOCA-salt hypertension, in apparently blood pressure–independent fashion.

Effects of estrogen on the vascular system

The cardiovascular protective actions of estrogen are partially mediated by a direct effect on the vessel wall. Estrogen is active both on vascular smooth muscle and endothelial cells where functionally competent estrogen receptors have been identified. Estrogen administration promotes vasodilation in humans and in experimental animals, in part by stimulating prostacyclin and nitric oxide synthesis, as well as by decreasing the production of vasoconstrictor agents such as cyclooxygenase-derived products, reactive oxygen species, angiotensin II, and endothelin-1. In vitro, estrogen exerts a direct inhibitory effect on smooth muscle by activating potassium efflux and by inhibiting calcium influx. In addition, estrogen inhibits vascular smooth muscle cell proliferation. In vivo, 17beta-estradiol prevents neointimal thickening after balloon injury and also ameliorates the lesions occurring in atherosclerotic conditions. As is the case for other steroids, the effect of estrogen on the vessel wall has a rapid non-genomic component involving membrane phenomena, such as alteration of membrane ionic permeability and activation of membrane-bound enzymes, as well as the classical genomic effect involving estrogen receptor activation and gene expression.

Enhanced oxidative stress as a potential mechanism underlying the programming of hypertension in utero.

Maternal undernutrition during critical periods of organ development is known to impair fetal growth and predispose to the development of adulthood diseases, such as hypertension, coronary heart disease and type II diabetes that are linked to low birth weight and are characterized by endothelial dysfunction. Increased oxidative stress, in rats submitted to intrauterine undernutrition, provides a potential explanation for the endothelial dysfunction development. The aim of this study was to determine the oxidative stress and its consequence on mesenteric arteriolar responses to vasoactive agents in offspring from diet-restricted dams. For this, female pregnant Wistar rats were fed either normal or 50% of normal intake diets, during the whole gestational period. In male offspring, arterial blood pressure was determined by the tail cuff method in anesthetized rats, mesenteric arteriolar reactivity and superoxide anion generation were studied using intravital microscopy and superoxide dismutase activity was determined in mesentery by spectrophotometric assay. Intrauterine undernutrition induced hypertension, decreased vasodilation to acetylcholine and bradykinin but did not alter the responses to sodium nitroprusside. Topical application of superoxide dismutase and superoxide dismutase mimetic manganese (III) tetrakis (1-methyl-4-pyridyl) porphyrin significantly improved the altered arteriolar responses to acetylcholine and bradykinin. A decreased superoxide dismutase activity and an increased superoxide anion concentration were observed in the offspring of diet-restricted dams. This study shows for the first time that intrauterine undernutrition enhances oxidative stress in vivo and relates this to the impaired endothelium-dependent vasodilation.

NADPH oxidase and enhanced superoxide generation in intrauterine undernourished rats: involvement of the renin–angiotensin system

OBJECTIVE We previously reported that intrauterine undernutrition increased the oxidative stress by decreasing superoxide dismutase activity. In the present study, we tested whether NADPH oxidase, xanthine oxidase, cyclooxygenase or nitric oxide synthase are responsible for the increased O(2)(-) generation observed in rats submitted to intrauterine undernutrition. In addition, we investigated the effect of angiotensin II (ANG II) on O(2)(-) production via activation of NADPH oxidase. METHODS Female pregnant Wistar rats were fed either normal or 50% of the normal intake diets, during the whole gestational period. At 16 weeks of age, the rats were used for the study of intravital fluorescence microscopy; microvascular reactivity, local ANG II concentration and AT(1), p22(phox) and gp91(phox) gene expression. In this study only the male offspring was used. RESULTS Treatment of mesenteric arterioles with the xanthine oxidase inhibitor oxypurinol, the nitric oxide synthase inhibitor L-NAME or the cyclooxygenase inhibitor diclofenac did not significantly change superoxide production. Thus, these vascular sources of superoxide were not responsible for the increased superoxide concentration. In contrast, treatment with the NADPH oxidase inhibitor apocynin significantly decreased superoxide generation and improved vascular function. On the other hand, intrauterine undernutrition did not alter the gene expression for p22(phox) and gp91(phox). The fact that the local ANG II concentration was increased and the attenuation of oxidative stress by blocking AT(1) receptor with losartan, led us to suggest that ANG II induces O(2)(-) generation in intrauterine undernourished rats. CONCLUSION Our study shows that NADPH oxidase inhibition attenuated superoxide anion generation and ameliorated vascular function in rats submitted to intrauterine undernutrition. Although it is not clear which mechanisms are responsible for the increase in NADPH oxidase activity, a role for ANG II-mediated superoxide production via activation of NADPH oxidase is suggested.

Influence of Female Sex Hormones on Endothelium-Derived Vasoconstrictor Prostanoid Generation in Microvessels of Spontaneously Hypertensive Rats

Although female sex hormones may attenuate endothelial dysfunction in spontaneously hypertensive rats (SHR) by increasing endothelium-derived relaxing factors (EDRFs), the influence of ovarian hormones on the generation of endothelium-derived contracting factors (EDCFs) remains unknown. The aim of this study was to evaluate the effect of estrogen and progesterone on the generation of vasoconstrictor prostanoids and superoxide anion (O2(-)) by microvessels from SHR. Vascular reactivity to norepinephrine (NE), acetylcholine (ACh), and sodium nitroprusside (SNP) were evaluated in the mesenteric arteriolar bed from estrous (OE) and ovariectomized (OVX) SHR. OVX-SHR were treated for 24 hours or 15 days with estradiol and for 15 days with estradiol+progesterone. The vascular reactivity was evaluated in the absence or presence of indomethacin (INDO, 10 micromol/L) and sodium diclofenac (DIC, 10 micromol/L), ridogrel (RID, 50 micromol/L), dazoxiben (DAZ, 10 micromol/L), or superoxide dismutase (SOD, 100 U/mL). Prostanoid levels in the arteriolar perfusate of mesenteries with or without endothelium were measured by enzyme immunoassay. An increased reactivity to NE and reduced sensitivity to ACh were observed in microvessels from OVX-SHR compared with OE-SHR. There were no differences in the responses to SNP. Treatments with estradiol and estradiol+progesterone similarly restored these altered responses. INDO, DIC, RID, and SOD also restored the NE and ACh responses in OVX-SHR. DAZ had no effect on the vascular reactivities. The release of PGF(2alpha), but not of TXB(2) and 6-keto-PGF(1alpha), was greater in OVX-SHR than in OE-SHR microvessels with endothelium when stimulated by NE. This response was normalized by hormonal treatments. Neither NE nor ACh stimulated prostanoid production by microvessels without endothelium. These results suggest that estrogen may protect female SHR against severe hypertension partly by decreasing the synthesis of EDCFs such as PGH(2)/PGF(2alpha) and O2(-).

Reactivity of aorta and mesenteric microvessels to drugs in spontaneously hypertensive rats: role of the endothelium.

The response to vasoactive agents of microvessels in situ and aortae in vitro was studied in normal and spontaneously hypertensive rats (SHR). Noradrenaline (NA) was equally effective in evoking a constrictor response of mesenteric microvessels in normal rats and SHR. The vasodilator response to acetylcholine (ACH), as endothelium-dependent relaxing agent, was lower in SHR microvessels whereas isoproterenol, papaverine, agents which are partially dependent on endothelium, and sodium nitroprusside, an endothelium-independent vasodilator, induced similar responses in control rats and SHR. Median effective concentrations and maximal responses to NA obtained in isolated SHR aortae, with or without endothelium, were similar to those obtained in their respective controls. NA-precontracted aortae with intact endothelium were less responsive to ACH in SHR than in controls. The relaxant response of the preparations was lost after endothelial cell removal in both groups. Sodium nitroprusside evoked similar relaxing effect in SHR and control NA-precontracted aortae. Isoproterenol-induced responses were potentiated in SHR-precontracted aortae, with or without endothelium. Removal of the endothelium diminished isoproterenol-induced relaxation, both in controls and SHR. With submaximal concentration of papaverine there was no difference between SHR aortae with or without endothelium and control aortae with endothelium. Control aortae without endothelium relaxed less than control aortae with endothelium and SHR aortae with or without endothelium. The rate of relaxation after papaverine was altered in aortae without endothelium isolated from SHR or control rats. These results indicate that the endothelium of SHR is altered. This could explain its decreased response to ACH. It is suggested that smooth muscle cells develop a compensatory mechanism that increases the response of agents that mobilize cAMP, such as papaverine and isoproterenol.

Ovarian Hormones Modulate Endothelin-1 Vascular Reactivity and mRNA Expression in DOCA-Salt Hypertensive Rats

We previously demonstrated a differential activation of the endothelin-1 (ET-1) pathway in male and female deoxycorticosterone (DOCA)-salt hypertensive rats, with the male rats exhibiting marked alterations in vascular and pressor responses to ET-1 and Suc-[Glu,9Ala11,15]-ET-1(8-21) (IRL-1620), an ETB agonist. Mechanisms underlying these gender differences are unclear, and we hypothesized that the ovarian hormones attenuate vascular ETB responses in female DOCA-salt rats. Female Wistar rats were randomized in 3 groups: sham-operated, ovariectomized (OVX), and OVX plus hormone replacement with estradiol (E) or estradiol/progesterone (EP). Two weeks later, rats were uninephrectomized and further randomized in DOCA-salt (subcutaneous injections of desoxycorticosterone and drinking water containing NaCl/KCl) and control normotensive (subcutaneous injections of vehicle and tap water). Blood pressure was evaluated both by direct and standard tail-cuff methods. Responses to IRL-1620 were evaluated in vivo/in situ in the mesenteric microcirculation. mRNA expression of ET-1 and ETA/B receptors was evaluated in mesenteric arteries by reverse transcription–polymerase chain reaction and expressed relative to GAPDH. OVX-DOCA rats developed a more severe form of hypertension than did DOCA rats. Treatment with E or EP restored blood pressure to levels observed in DOCA rats. In the mesentery, IRL-1620 induced vasodilatation in control rats, a mild vasoconstriction in DOCA rats, and marked vasoconstriction in OVX-DOCA rats. Both E and EP decreased IRL-1620–induced vasoconstriction in the DOCA group. In the normotensive group, OVX did not change blood pressure or IRL-1620–induced vasodilation. Removal of the ovaries increased ET-1 mRNA in arteries from DOCA and control rats, although treatment with E or EP reversed these changes. Vascular ETB receptor mRNA levels were greatly enhanced in OVX-DOCA but not OVX-control rats. Hormone replacement with E or EP restored ETB receptor expression in the DOCA group. A greater blood pressure–lowering effect of bosentan (ETA/ETB blocker) was observed in OVX-DOCA rats. The observation that OVX worsens hypertension as well as the altered ETB receptor–mediated responses and the effects of bosentan in female DOCA rats supports our suggestion that the ovarian hormones modulate ET-1/ETB receptor vascular responses/expression in DOCA-salt hypertension.

Intrauterine undernutrition—renal and vascular origin of hypertension

OBJECTIVE A large number of clinical and experimental studies supports the hypothesis that intrauterine undernutrition is an important determinant of hypertension, coronary heart disease and non-insulin-dependent diabetes in the adult offspring. In this review, the renal and vascular repercussions of maternal undernutrition are emphasized, and the physiopatologic mechanisms discussed. The origin of hypertension is detailed based upon the findings of kidney functional parameters and endothelium function studies. A working model linking hypertension to intrauterine undernutrition is proposed.

Indirect evidence for an endothelium-derived contracting factor released in arterioles of deoxycorticosterone acetate salt hypertensive rats

In order to investigate if endothelium-derived contracting factor (EDCF) is involved in the altered reactivity of microvessels of deoxycorticosterone acetate (DOCA)-salt hypertensive rats, mesenteric arterioles, either perfused in vitro or studied in vivo in situ, were used. The responses to norepinephrine, acetylcholine, sodium nitroprusside and papaverine were studied in animals treated with indomethacin. Norepinephrine was equally effective in evoking a constrictor response in the in vitro perfused arteriolar bed of DOCA-salt hypertensive and control rats. A potentiation to this agent was, however, observed in preparations tested in vivo in situ. A decreased response to acetylcholine, an endothelium-dependent vasodilator, was observed in perfused in vitro and in vivo in situ preparations. The responses to sodium nitroprusside, an endothelium-independent agent, in microvessel preparations of hypertensive rats, and the response to papaverine, an agent partially dependent on endothelium, were unaltered. Indomethacin treatment did not correct the altered response to norepinephrine in mesenteric preparations studied in vivo in situ. Thus, the involvement of an EDCF which is sensitive to indomethacin blockade could be discarded. Since indomethacin treatment corrected the decreased response to acetylcholine observed in both mesenteric arterioles perfused in vitro or tested in vivo in situ, it is suggested that in arterioles of DOCA-salt hypertensive rats, an EDCF is involved in the decreased response to acetylcholine. Smooth muscle vasodilating capability appears to be unaltered.