C. Warren Masterson scite author profile

Several lines of evidence suggest that essential hypertension originates from an autoimmune-mediated mechanism. One consequence of chronic immune activation is the generation of oxygen-derived free radicals, resulting in oxidative stress. Renal oxidative stress has direct pro-hypertensive actions on renal microvascular and tubular function. Whether oxidative stress contributes to the prevalent hypertension associated with autoimmune disease is not clear. We previously showed that female NZBWF1 mice, an established model of the autoimmune disease systemic lupus erythematosus (SLE), develop hypertension associated with renal oxidative stress. In the present study we tested the hypothesis that oxidative stress contributes to autoimmune-mediated hypertension by treating SLE and control (NZW/LacJ) mice with tempol (2 mM) and apocynin (1.5 mM) in the drinking water for 4 weeks (T+A). Although the treatment did not alter SLE disease activity (assessed by plasma double-stranded DNA autoantibodies), blood pressure and renal injury (urinary albumin) were reduced in the treated SLE mice. T+A-treated SLE mice had reduced expression of nitrosylated proteins in the renal cortex, as well as reduced urinary and renal cortical hydrogen peroxide, suggesting that treatment reduced renal markers of oxidative stress. These data suggest that renal oxidative stress plays an important mechanistic role in the development of autoimmune-mediated hypertension.

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Blood pressure in a hypertensive mouse model of SLE is not salt-sensitive

Mathis

Venegas-Pont

Masterson

et al. 2011

American Journal of Physiology-Regulatory, Integrative and Comp

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Systemic lupus erythematosus (SLE) is a risk factor for hypertension. Previously, we demonstrated that an established mouse model of SLE (female NZBWF1 mice) develops hypertension with renal inflammation and oxidative stress, both characteristics known as contributing mechanisms to the development of salt-sensitive hypertension. On the basis of this model, we hypothesized that blood pressure in SLE mice would be salt-sensitive. Thirty-week-old female SLE and control mice (NZW/LacJ) were fed 8% high-salt (HS) diet or normal diet (0.4% salt) for 4 wk. Plasma levels of double-stranded DNA (dsDNA) autoantibodies, a marker of SLE disease activity, were increased in SLE mice compared with controls (472 ± 148 vs. 57 ± 17 U/ml × 1,000, P < 0.001). HS did not alter dsDNA autoantibody levels in SLE or control mice. Mean arterial pressure was increased in SLE mice compared with controls (132 ± 3 vs. 118 ± 2 mmHg, P < 0.001) and was not significantly altered by the HS diet in either group. Similarly, albuminuria was higher in SLE mice compared with controls (10.7 ± 9.0 vs. 0.3 ± 0.1 mg/day) but was not significantly increased in SLE or control mice fed a HS diet. In summary, blood pressure during SLE is not salt-sensitive, and the HS diet did not adversely affect SLE disease activity or significantly augment albuminuria. These data suggest that renal inflammation and oxidative stress, characteristics common to both SLE and models of salt-sensitive hypertension, may have diverging mechanistic roles in the development of hypertension.

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Placental Ischemia Impairs Middle Cerebral Artery Myogenic Responses in the Pregnant Rat

et al. 2011

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One potential mechanism contributing to the increased risk for encephalopathies in women with preeclampsia is altered cerebral vascular autoregulation resulting from impaired myogenic tone. Whether placental ischemia, a commonly proposed initiator of preeclampsia, alters cerebral vascular function is unknown. This study tested the hypothesis that placental ischemia in pregnant rats (induced by reducing uterine perfusion pressure, RUPP) leads to impaired myogenic responses in middle cerebral arteries (MCA). Mean arterial pressure (in mmHg) was increased by RUPP (135±3) compared with normal pregnant rats (NP, 103±2) and non-pregnant controls (Ctrl, 116±1). MCA from rats sacrificed on gestation day 19 were assessed in a pressure ateriograph under active (+ Ca2+) and passive (0 Ca2+) conditions while luminal pressure was varied between 25 and 150 mmHg. The slope of the relationship between tone and pressure in the MCA was 0.08±0.01 in CTRL rats and was similar in NP rats (0.05±0.01). In the RUPP model of placental ischemia, this relationship was markedly reduced (slope = 0.01±0.00, p<0.05). Endothelial dependent and independent dilation was not different between groups nor was there evidence of vascular remodeling assessed by the wall:lumen ratio and calculated wall stress. The impaired myogenic response associated with brain edema measured by % water content (RUPP p<0.05 vs. CTRL and NP). This study demonstrates that placental ischemia in pregnant rats leads to impaired myogenic tone in the MCA and that the RUPP model is a potentially important tool to examine mechanisms leading to encephalopathy during preeclamptic pregnancies.

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