Increased levels of oxidative stress, subclinical inflammation, and myocardial fibrosis markers in primary aldosteronism patients.

BACKGROUND: Patients with primary aldosteronism experience greater left ventricular hypertrophy and a higher frequency of cardiovascular events than do essential hypertensive patients with comparable blood pressure levels. Aldosterone has been correlated with increased oxidative stress, endothelial inflammation, and fibrosis, particularly in patients with heart disease. AIM: To evaluate oxidative stress, subclinical endothelial inflammation, and myocardial fibrosis markers in patients with primary aldosteronism and essential hypertension. DESIGN AND INDIVIDUALS: We studied 30 primary aldosteronism patients and 70 control essential hypertensive patients, matched by age, sex and median blood pressure. For all patients, we measured the serum levels of aldosterone, plasma renin activity, malondialdehyde (MDA), xanthine oxidase, metalloproteinase-9, ultrasensitive C-reactive protein and amino terminal propeptides of type I (PINP), and type III procollagen. We also evaluated the effect of PA treatment in 19 PA individuals. RESULTS: PA patients showed elevated levels of MDA (1.70 ± 0.53 versus 0.94 ± 0.65 µmol/l, P <0.001) and PINP (81.7 ± 50.6 versus 49.7 ± 27 mg/l, P = 0.002) compared with essential hypertensive controls. We found a positive correlation between MDA, PINP, and the serum aldosterone/plasma renin activity ratio in primary aldosteronism patients. Clinically, treating primary aldosteronism patients decreased MDA and PINP levels. CONCLUSION: We detected higher levels of MDA and PINP in primary aldosteronism patients, suggesting increased oxidative stress and myocardial fibrosis in these individuals. Treating primary aldosteronism patients reduced MDA and PINP levels, which may reflect the direct effect of aldosterone greater than endothelial oxidative stress and myocardial fibrosis, possibly mediated by a mineralocorticoid receptor.

[Subclinical endothelial inflammation markers in a family with type I familial hyperaldosteronism caused by a de novo mutation]. / Marcadores de inflamación endotelial subclínica en una familia con hiperaldosteronismo familiar tipo I por mutación de novo.

BACKGROUND: Type I familial hyperaldosteronism is caused by the presence of a chimaeric gene CYPl 1B1/CYP11BZ which encodes an enzyme with aldosterone synthetase activity regulated by adrenocorticotrophic hormone (ACTH). Therefore, in patients with FH I is possible to normalize the aldosterone levels with glucocorticoid treatment. Recently it has been shown that aldosterone plays a role in the production of endothelial oxidative stress and subclinical inflammation. AIM: To evaluate subclinical endothelial inflammation markers, like Metalloproteinase 9 (MMP-9) and ultrasensitive C reactive protein (usPCR), before and after glucocorticoid treatment in family members with FH-I caused by a de novo mutation. PATIENTS AND METHODS: We report three subjects with FH-I in a single family (proband, father and sister). We confirmed the presence of a chimaeric CYPl 1B1/CYP11B2 gene by long-PCR in all of them. Paternal grandparents were unaffected by the mutation. The proband was a 13-year-old boy with hypertension stage 2 (in agree to The Joint National Committee VII, JNC-VII), with an aldosterone/plasma rennin activity ratio equal to 161. A DNA paternity test confirmed the parental relationship between the grandparents and father with the index case. MMP-9 and usPCR levels were determined by gelatin zymography and nephelometry, respectively. RESULTS: All affected subjects had approximately a 50% increase in MMP-9 levels. Only the father had an elevated usPCR. The endothelial inflammation markers returned to normal range after glucocorticoid treatment. CONCLUSIONS: We report a family carrying a FH-I caused by a de novo mutation. The elevation of endothelial inflammation markers in these patients and its normalization after glucocorticoid treatment provides new insight about the possible deleterious effect of aldosterone on the endothelium.

Marcadores de inflamación endotelial subclínica en una familia con hiperaldosteronismo familiar tipo I por mutación de novo / Subclinical endothelial inflammation markers in a family with type I familial hyperaldosteronism caused by a de novo mutation

Background: Type I familial hyperaldosteronism is caused by the presence of a chimaetic gene CYPl 1B1/CYP11BZ which encodes an enzyme with aldosterone synthetase activityregulated by adrenocorticotrophic hormone (ACTH). Therefore, in patients with FH I is possible to normalize the aldosterone levels with glucocorticoid treatment. Recently it has been shown that aldosterone plays a role in the production of endothelial oxidative stress and subclinical inflammation. Aim: To evaluate subclinical endothelial inflammation markers, Me Metalloproteinase 9 (MMP-9) and ultrasensitive C reactive protein (usPCR), before and after glucocorticoid treatment in family members with FH-I caused by a de novo mutation. Patients and methods: We report three subjects with FH-I in a single family (proband, father and sister). We confirmed the presence of a chimaeric CYPl 1B1/CYP11B2 gene by ¡ong-PCR in all of them. Paternal grandparents were unaffected by the mutation. The proband was a 13year-old boy with hypertension stage 2 (in agree to The JointNational Committee VII, JNC-vIl), with an aldosterone/plasma rennin activity ratio equal to 161. A DNA paternity test confirmed the parental relationship between the grandparents and father with the index case. MMP-9 and usPCR levels were determined by gelatin zymography and nephelometry, respectively. Results: All affected subjects had approximately a 50 percent increase in MMP-9 levels. Only the father had an elevated usPCR. The endothelial inflammation markers returned to normal range after glucocorticoid treatment. Conclusions: We report a family canying a FH-I caused by a de novo mutation. The elevation of endothelial inflammation markers in these patients and its normalization after glucocorticoid treatment provides new insight about the possible deleterious effect of aldosterone on the endothelium.

Variabilidad fenotípica y estrés oxidativo endotelial en una familia con hiperaldosteronismo familiar tipo I / Phenotypical variability and endothelial oxidative stress in a family with type I familial hyperaldosteronism

Type I familial hyperaldosteronism (HAF-I) is caused by the presence of a chimeric gene CYP11B1/CYP11B2 which encodes an enzyme with aldosterone synthetase activity regulated by ACTH. HAF-I patients present with severe hypertension at young ages and a greater risk of stroke. AIM: To characterize clinical and biochemical presentation of family members with HAF-I. To evaluate endothelial oxidative stress markers before and after glucocorticoid treatment. PATIENTS AND METHODS: We evaluated three family members with HAF-I confirmed with a genetic test (XL-PCR) for chimeric gene CYP11B1/CYP11B2. The index case was a 13 years old boy with stage 2 hypertension (Joint National Committee VIIth report), plasma aldosterone/ plasma renin activity (AP/ARP) ratio of161 and normal plasma potassium. His father had primary hyperaldosteronism diagnosed at 25 years of age with hypertension and hypokalemia. His sister was 15 years old, with a normal blood pressure and an AP/ARP ratio of 37.6. RESULTS: All subjects had plasma xanthine-oxidase levels in the upperlimit of normal. Malondialdehyde was above normal in the index case and his father. These markers returned to normal with glucocorticoid treatment. CONCLUSIONS: We report a HAF-I carrying family with a wide phenotypical variability between affected members. Elevation of endothelial oxidativestress markers and its normalization after glucocorticoid treatment, may indicate that aldosterone produces endothelial damage and increases cardiovascular risk.