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- Author: E M Repetto x
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IBYME–CONICET Buenos Aires, C1428ADN, Argentina. Departamento de Química Biológica, Facultad de Ciencas Exactas y Naturales, Buenos Aires C1428EGA, Argentina
Departmento de Fistologia, Facultad de Medicina, Universidad de Buenos Aires, Paraguay 2155 5°, Buenos Aires C1121ABG, Argentina
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IBYME–CONICET Buenos Aires, C1428ADN, Argentina. Departamento de Química Biológica, Facultad de Ciencas Exactas y Naturales, Buenos Aires C1428EGA, Argentina
Departmento de Fistologia, Facultad de Medicina, Universidad de Buenos Aires, Paraguay 2155 5°, Buenos Aires C1121ABG, Argentina
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IBYME–CONICET Buenos Aires, C1428ADN, Argentina. Departamento de Química Biológica, Facultad de Ciencas Exactas y Naturales, Buenos Aires C1428EGA, Argentina
Departmento de Fistologia, Facultad de Medicina, Universidad de Buenos Aires, Paraguay 2155 5°, Buenos Aires C1121ABG, Argentina
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IBYME–CONICET Buenos Aires, C1428ADN, Argentina. Departamento de Química Biológica, Facultad de Ciencas Exactas y Naturales, Buenos Aires C1428EGA, Argentina
Departmento de Fistologia, Facultad de Medicina, Universidad de Buenos Aires, Paraguay 2155 5°, Buenos Aires C1121ABG, Argentina
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IBYME–CONICET Buenos Aires, C1428ADN, Argentina. Departamento de Química Biológica, Facultad de Ciencas Exactas y Naturales, Buenos Aires C1428EGA, Argentina
Departmento de Fistologia, Facultad de Medicina, Universidad de Buenos Aires, Paraguay 2155 5°, Buenos Aires C1121ABG, Argentina
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IBYME–CONICET Buenos Aires, C1428ADN, Argentina. Departamento de Química Biológica, Facultad de Ciencas Exactas y Naturales, Buenos Aires C1428EGA, Argentina
Departmento de Fistologia, Facultad de Medicina, Universidad de Buenos Aires, Paraguay 2155 5°, Buenos Aires C1121ABG, Argentina
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IBYME–CONICET Buenos Aires, C1428ADN, Argentina. Departamento de Química Biológica, Facultad de Ciencas Exactas y Naturales, Buenos Aires C1428EGA, Argentina
Departmento de Fistologia, Facultad de Medicina, Universidad de Buenos Aires, Paraguay 2155 5°, Buenos Aires C1121ABG, Argentina
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IBYME–CONICET Buenos Aires, C1428ADN, Argentina. Departamento de Química Biológica, Facultad de Ciencas Exactas y Naturales, Buenos Aires C1428EGA, Argentina
Departmento de Fistologia, Facultad de Medicina, Universidad de Buenos Aires, Paraguay 2155 5°, Buenos Aires C1121ABG, Argentina
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IBYME–CONICET Buenos Aires, C1428ADN, Argentina. Departamento de Química Biológica, Facultad de Ciencas Exactas y Naturales, Buenos Aires C1428EGA, Argentina
Departmento de Fistologia, Facultad de Medicina, Universidad de Buenos Aires, Paraguay 2155 5°, Buenos Aires C1121ABG, Argentina
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The present study was designed to investigate the effect of lipopolysaccharide (LPS) on the expression levels and activities of the nitric oxide synthase (NOS) and heme oxygenase (HO) systems in the rat adrenal gland. Both enzymatic activities were significantly increased in this tissue after in vivo treatment with LPS. The concurrent induction of the HO-1, NOS-1, and NOS-2 gene products was also detected as both mRNAs and protein levels were augmented by this treatment in a time-dependent way. A significant interaction between both signaling systems was also demonstrated as in vivo blockage of NOS activity with N(G)-nitro-L-arginine methyl ester (L-NAME) resulted in a significant reduction in HO expression and activity levels, while an increase in NOS activity was observed when HO was inhibited by Sn-protoporphyrin IX (Sn-PPIX). As both NOS and HO activities have been previously involved in the modulation of adrenal steroidogenesis, we investigated the participation of these signaling systems in the adrenal response to LPS. Our results showed that acute stimulation of steroid production by ACTH was significantly increased when either NOS or HO activities were inhibited. We conclude that adrenal NOS and HO can be induced by a non-lethal dose of endotoxin supporting a modulatory role for these activities in the adrenal response to immune challenges.
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It has been hypothesized that deviations in glucocorticoid secretion and/or action may contribute to somatic and biochemical changes observed in patients with and animal models of insulin resistance (IR). In this study, we analyzed changes in rat adrenocortical function and morphology associated with the development of IR, generated in male adult rats by the addition of 30% sucrose to the drinking water. Caloric intake, body and adipose tissue weights, and biochemical parameters associated with IR were determined. Expression levels of Star, Cyp11A1, Mc2r, Ppar γ (Pparg), and Cd36 were evaluated by real-time PCR, histochemical analysis of the adrenal cortex was performed using Masson's trichrome and Sudan III staining, and corticosterone levels were measured by RIA. After 7 weeks of sucrose administration, higher serum glucose, insulin, and triglyceride levels and an altered glycemic response to an i.p. insulin test were detected. Adrenal glands showed a neutral lipid infiltration. An increase in Star, Cyp11A1, Mc2r, Pparg and Cd36 and a decrease in Mc2r levels were also found. Furthermore, sucrose-treated animals exhibited higher basal corticosterone levels and a blunted response to ACTH injection. Noteworthy, the adrenocortical (functional and histological) abnormalities were prevented in sucrose-treated rats by the simultaneous administration of an insulin-sensitizing PPARγ agonist. In conclusion, sucrose-induced IR affects adrenocortical morphology and function possibly via the generation of adipokines or lipid metabolites within the adrenal gland. These abnormalities are prevented by the administration of a PPARγ agonist by mechanisms involving both extra- and intra-adrenal effects.