Your search keyword '"D'Eon, Tara M."' showing total 2 results

1. Regulation of exercise carbohydrate metabolism by estrogen and progesterone in women

Author

D'Eon, Tara M., Sharoff, Carrie, Chipkin, Stuart R., Grow, Dan, Ruby, Brent C., and Braun, Barry

Subjects

Carbohydrate metabolism -- Physiological aspects, Estrogen -- Physiological aspects, Exercise -- Physiological aspects, Progesterone -- Physiological aspects, Women -- Health aspects, Biological sciences

Abstract

To assess the roles of endogenous estrogen ([E.sub.2]) and progesterone ([P.sub.4]) in regulating exercise carbohydrate use, we used pharmacological suppression and replacement to create three distinct hormonal environments: baseline (B), with [E.sub.2] and [P.sub.4] low; estrogen only (E), with [E.sub.2] high and [P.sub.4] low; and estrogen/progesterone (E + P), with [E.sub.2] and [P.sub.4] high. Blood glucose uptake ([R.sub.d]), total carbohydrate oxidation (CH[O.sub.ox]), and estimated muscle glycogen utilization (EMGU) were assessed during 60 min of submaximal exercise by use of stable isotope dilution and indirect calorimetry in eight eumenorrheic women. Compared with B (1.26 [+ or -] 0.04 g/min) and E + P (1.27 [+ or -] 0.04 g/min), CH[O.sub.ox] was lower with E (1.05 [+ or -] 0.02 g/min). Glucose [R.sub.d] tended to be lower with E and E + P relative to B. EMGU was 25% lower with E than with B or E + P. Plasma free fatty acids (FFA) were inversely related to EMGU ([r.sup.2] = 0.49). The data suggest that estrogen lowers CH[O.sub.ox] by reducing EMGU and glucose [R.sub.d]. Progesterone increases EMGU but not glucose [R.sub.d]. The opposing actions of [E.sub.2] and [P.sub.4] on EMGU may be mediated by their impact on FFA availability or vice versa. ovarian hormones; menstrual cycle; fat oxidation; stable isotope; glycogen

Published

2002

2. The role of adipocyte insulin resistance in the pathogenesis of obesity-related elevations in endocannabinoids

Author

D'Eon, Tara M., Pierce, Kerry A., Roix, Jeffery J., Tyler, Andrew, Chen, Hong, and Teixeira, Sandra R.

Subjects

Metabolism -- Research, Obesity -- Research, Insulin resistance -- Research, Cannabinoids -- Properties -- Research, Fat cells -- Properties -- Research, Health, Research, Properties

Abstract

OBJECTIVE--Obesity is associated with an overactive endocannabinoid (EC) system. The mechanisms responsible for increased ECs in obese individuals are poorly understood. Therefore, we examined the role of adipocyte insulin resistance in intracellular EC metabolism. METHODS--We used 3T3-L1 adipocytes and diet-induced obese (DIO) mice to examine the role of obesity and insulin resistance in the regulation and/or dysregulation of intracellular ECs. RESULTS--For the first time, we provide evidence that insulin is a major regulator of EC metabolism. Insulin treatment reduced intracellular ECs (2-arachidonylglycerol [2-AG] and anandamide [AEA]) in 3T3-L1 adipocytes. This corresponded with insulin-sensitive expression changes in enzymes of EC metabolism. In insulin-resistant adipocytes, patterns of insulin-induced enzyme expression were disturbed in a manner consistent with elevated EC synthesis and reduced EC degradation. Expression profiling of adipocytes from DIO mice largely recapitulated in vitro changes, suggesting that insulin resistance affects the EC system in vivo. In mice, expression changes of EC synthesis and degradation enzymes were accompanied by increased plasma EC concentrations (2-AG and AEA) and elevated adipose tissue 2-AG. CONCLUSIONS--Our findings suggest that insulin-resistant adipocytes fail to regulate EC metabolism and decrease intracellular EC levels in response to insulin stimulation. These novel observations offer a mechanism whereby obese insulin-resistant individuals exhibit increased concentrations of ECs. Diabetes 57:1262-1268, 2008, Growing evidence suggests that the endocannabinoid (EC) system plays an important role in obesity and metabolic disease. ECs are endogenous lipid-derived molecules that act similarly to the active ingredient in [...]

Published

2008