Grants and Contracts Details
Description
The prevalence of obesity is rising in Kentucky and the nation. Prior to the obesity epidemic, hypertension
prevalence was lower in females than males until menopause, when both obesity and hypertension increase.
The most recent NHANES data demonstrate the surprising finding that the prevalence of hypertension is rising
at a faster rate in females than males. This competing renewal focuses on mechanisms contributing to
obesity-induced hypertension in males versus females, a highly significant topic since obesity is a primary
cause of hypertension in both genders. We have examined whether an activated adipocyte renin-angiotensin
system (RAS) is a link between obesity and hypertension. During the current period, we demonstrated that
deficiency of adipocyte-derived angiotensinogen (AGT) prevented elevations in adipose and systemic
angiotensin II (AngII) concentrations and abolished the development of hypertension in obese male mice. We
also demonstrated that adipocytes express angiotensin converting enzyme 2 (ACE2), which cleaves AngII to
form the vasodilator peptide, angiotensin-(1-7) (Ang-(1-7)). In male obese hypertensive mice exhibiting
increased adipose-derived systemic AngII, adipose ACE2 expression was reduced and systemic Ang-(1-7)
concentrations plummeted. These results suggest that reductions in ACE2 in an expanded adipose mass
make AngII the predominant adipose-derived RAS peptide, contributing to hypertension in obese male mice.
In contrast to males, obese female mice were totally resistant to the development of hypertension despite
greater adiposity. Remarkably, female normotensive obese mice exhibited increased adipose ACE2 activity
associated with elevated plasma Ang-(1-7) concentrations. Deficiency of ACE2 converted obese females to a
hypertensive phenotype. Removal of ovarian sex hormones reduced adipose ACE2 activity and plasma Ang-
(1-7) concentrations and resulted in robust obesity-induced hypertension. Moreover, estrogen markedly
stimulated ACE2 mRNA abundance in 3T3-L1 adipocytes. We hypothesize that differential regulation of
adipocyte ACE2 in obese males versus females determines whether adipose tissue produces AngII or Ang-(1-
7) in the development of hypertension. Aim 1 tests the hypothesis that adipocyte ACE2 deficiency promotes
hypertension in obese female mice, while ACE2 activation prevents hypertension in obese males through an
adipocyte ACE2-dependent mechanism. Aim 2 tests the hypothesis that estrogen promotes adipocyte ACE2
expression and protects male and ovariectomized female obese mice from hypertension. Aim 3 tests the
hypothesis that DIZE-induced ACE2 activation reduces blood pressure in male and ovariectomized female
obese hypertensive mice through an Ang-(1-7)/MasR-dependent mechanism. The impact of these studies is
definition of mechanisms for the development of hypertension in obese males versus females. We will also
develop ACE2 activation as a novel therapy to treat hypertension in obese males and/or menopausal females.
Status | Finished |
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Effective start/end date | 6/3/03 → 4/30/20 |
Funding
- National Heart Lung and Blood Institute: $1,595,862.00
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