Kirsten Robertson scite author profile

The aromatase-knockout (ArKO) mouse provides a useful model to examine the role that estrogens play in development and homeostasis in mammals. Lacking a functional Cyp19 gene, which encodes aromatase, the ArKO mouse cannot synthesize endogenous estrogens. We examined the adipose depots of male and female ArKO mice, observing that these animals progressively accumulate significantly more intraabdominal adipose tissue than their wild-type (WT) littermates, reflected in increased adipocyte volume at gonadal and infrarenal sites. This increased adiposity was not due to hyperphagia or reduced resting energy expenditure, but was associated with reduced spontaneous physical activity levels, reduced glucose oxidation, and a decrease in lean body mass. Elevated circulating levels of leptin and cholesterol were present in 1-year-old ArKO mice compared with WT controls, as were elevated insulin levels, although blood glucose levels were unchanged. Associated with these changes, a striking accumulation of lipid droplets was observed in the livers of ArKO animals. Our findings demonstrate an important role for estrogen in the maintenance of lipid homeostasis in both males and females.estrogen deficiency ͉ obesity ͉ insulin ͉ cholesterol ͉ leptin A romatase is encoded by the Cyp19 gene and catalyzes the final step in the biosynthesis of C 18 estrogens from C 19 steroids. The sexually dimorphic distribution of adipose tissue in humans has implicated sex steroids in the regulation of adiposity and distribution of fat depots. Thus, whereas premenopausal women tend to have a lower body or gynoid distribution of fat, men and postmenopausal women tend to have an upper body or android distribution of fat. This phenotype is associated with a greater risk of insulinresistant diabetes, cardiovascular disease, and breast cancer (1). Estrogen insufficiency is thought to be largely responsible for the increase in adiposity during menopause because postmenopausal women who receive estrogen replacement therapy do not display the characteristic abdominal weight gain pattern usually associated with menopause (2). The role that estrogens play in lipid metabolism in the body is also highlighted by the fact that individuals of both sexes with natural mutations of the gene encoding aromatase, the enzyme responsible for estrogen biosynthesis, develop truncal obesity, insulin resistance, hypercholesterolemia, and hypertriglyceridemia (3-6).We have recently developed a mouse model of estrogen insufficiency by targeted disruption of the aromatase gene: the aromatase-knockout (ArKO) mouse (7). In the course of these studies, we observed that the animals displayed a progressive increase in adiposity as compared with wild-type (WT) littermates. The aim of the present investigation was to characterize the obese phenotype of these animals in the expectation that this would throw light on the role of estrogens in lipid homeostasis. Materials and MethodsMice. ArKO mice were generated by disrupting the Cyp19 gene as described (7). Heterozygous males and fema...

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Aromatase—A Brief Overview

Simpson

Clyne

Rubin

et al. 2002

Annu. Rev. Physiol.

649

496

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There is growing awareness that androgens and estrogens have general metabolic roles that are not directly involved in reproductive processes. These include actions on vascular function, lipid and carbohydrate metabolism, as well as bone mineralization and epiphyseal closure in both sexes. In postmenopausal women, as in men, estrogen is no longer solely an endocrine factor but instead is produced in a number of extragonadal sites and acts locally at these sites in a paracrine and intracrine fashion. These sites include breast, bone, vasculature, and brain. Within these sites, aromatase action can generate high levels of estradiol locally without significantly affecting circulating levels. Circulating C19 steroid precursors are essential substrates for extragonadal estrogen synthesis. The levels of these androgenic precursors decline markedly with advancing age in women, possible from the mid-to-late reproductive years. This may be a fundamental reason why women are at increased risk for bone mineral loss and fracture, and possibly decline of cognitive function, compared with men. Aromatase expression in these various sites is under the control of tissue-specific promotors regulated by different cohorts of transcription factors. Thus in principle, it should be possible to develop selective aromatase modulators (SAMs) that block aromatase expression, for example, in breast, but allow unimpaired estrogen synthesis in other tissues such as bone.

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Kirsten Robertson

Aromatase-deficient (ArKO) mice have a phenotype of increased adiposity

Aromatase—A Brief Overview

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