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      Adrenal Enucleation in MSG-Damaged Hyperleptinemic Male Rats Transiently Restores Adrenal Sensitivity to Leptin

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          Abstract

          It is known that the neonatal treatment of rats with monosodium L-glutamate (MSG) induces several metabolic abnormalities, resulting in enhanced adiposity and hyperleptinemia. Our study was designed to explore the consequences of MSG-induced chronic hyperleptinemia on adrenal sensitivity to the inhibitory effect of exogenous leptin. Neonatal male rats treated with MSG or vehicle (controls, CTR) were followed during 150 days in order to study changes observed over development in body weight, food consumption as well as in vivo hypothalamo-pituitary-adrenal (HPA) axis and adipocyte functions. During adulthood, adrenal response to adrenocorticotropin (ACTH) was evaluated both in vitro and in vivo in order to determine the adrenal sensitivity to the inhibitory effect of leptin. For this purpose, sham-operated as well as CTR and MSG rats with bilateral adrenal enucleation (AE) were used. Our results indicate that: (1) between 30 and 150 days of age, MSG animals developed hypophagia, accompanied by arrest in body weight gain, and concomitant enhanced basal levels of all HPA axis components and of leptin; (2) adrenals from of 150-day- old MSG rats displayed an in vitro adrenocortical hyperresponse to ACTH stimulation as well as an adrenal refractoriness to the physiological inhibitory effect of leptin on ACTH-stimulated glucocorticoid output, and (3) bilateral AE in adult MSG-treated rats transiently reversed the MSG-induced hyperleptinemia, restoring normal leptin levels as well as a normal adrenal sensitivity to the inhibitory effect of leptin. Our data indicate that adrenal exposure to the chronically high plasma leptin levels observed in MSG rats is involved in the loss of the inhibitory regulatory effect of leptin at the adrenal level, being therefore, at least in part, responsible for the increased total and free glucocorticoid production measured in MSG adult rats. Furthermore, this study strongly suggests that the adrenal overfunction, frequently associated with different phenotypes of obesity, could be due to an adrenal resistance to the leptin-negative regulation.

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          Adult neurogenesis is regulated by adrenal steroids in the dentate gyrus.

          H.A. Cameron, E. Gould (1994)
          The dentate gyrus of the rat produces new granule neurons well into adulthood. In the adult, newly born granule neurons migrate from the hilus to the granule cell layer, receive synaptic input, extend axons into the mossy fiber pathway, and express a neuronal marker. No previous studies have identified factors that regulate neuronal birth in the adult dentate gyrus. In order to determine whether glucocorticoids control neurogenesis in the adult dentate gyrus, the effects of adrenal steroid manipulations on neuronal birth were assessed using [3H]thymidine autoradiography and immunohistochemistry for the neuronal marker neuron specific enolase. Acute treatment with corticosterone produced a significant decrease in the density of [3H]thymidine-labeled cells in the hilus of the dentate gyrus. In contrast, removal of endogenous adrenal steroids stimulated increased neuronal birth; adrenalectomy resulted in a significant increase in the number of neuron specific enolase-immunoreactive [3H]thymidine labeled cells in the granule cell layer compared to sham operation. Replacement of corticosterone to adrenalectomized rats after [3H]thymidine injection did not substantially alter the increase in neurogenesis observed following adrenalectomy, even though this replacement protects cells from adrenalectomy-induced cell death. These results indicate that the rate of neurogenesis in the dentate gyrus of the adult rat is dependent upon the levels of circulating adrenal steroids.
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            Interacting Appetite-Regulating Pathways in the Hypothalamic Regulation of Body Weight

            S P Kalra (1999)
            Article 0 comments Cited 95 times – based on 0 reviews     Review now
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              Social stress exacerbates stroke outcome by suppressing Bcl-2 expression.

              R J Traystman, Patricia D. Hurn, Nathan Joh (2001)
              The relationship between stressful life events and the onset of disease is well documented. However, the role of psychological stress as a risk factor for life-threatening cerebrovascular insults such as stroke remains unspecified, but could explain individual variation in stroke outcome. To discover the mechanisms through which psychological stress may alter stroke outcome, we modeled the effects of chronic social intimidation and stress on ischemia-induced bcl-2 expression and early neuronal cell loss resulting from cerebral artery occlusion in mice (C57BL/6). The bcl-2 protooncogene promotes cell survival and protects against apoptosis and cellular necrosis in numerous neurodegenerative disorders, including stroke. In our study, male mice were chronically exposed to aggressive social stimuli before induction of a controlled, mild ischemic insult. Stressed mice expressed approximately 70% less bcl-2 mRNA than unstressed mice after ischemia. In addition, social stress greatly exacerbated infarct in wild-type mice but not in transgenic mice that constitutively express increased neuronal bcl-2. Despite similar postischemic concentrations of corticosterone, the major stress hormone in mice, high corticosterone concentrations were significantly correlated with larger infarcts in wild-type mice but not bcl-2 transgenic mice. Thus, enhanced bcl-2 expression offsets the potentially deleterious consequences of high postischemic plasma corticosterone concentrations. Taken together, these data demonstrate that stressful prestroke social milieu strongly compromises an endogenous molecular mechanism of neuroprotection in injured brain and offer a new behavioral target for stroke therapy.
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                Author and article information

                Journal
                Journal ID (publisher-id): NEN
                Journal ID (nlm-ta): Neuroendocrinology
                Journal ID (doi): 10.1159/issn.0028-3835
                Title: Neuroendocrinology
                Publisher: S. Karger AG
                ISSN (Print): 0028-3835
                ISSN (Electronic): 1423-0194
                Publication date Subscription-year: 2003
                Publication date (Print): September 2003
                Publication date (Electronic): 02 October 2003
                Volume: 78
                Issue: 3
                Pages: 176-184
                Affiliations
                aNeuroendocrine Unit, Multidisciplinary Institute on Cell Biology (CONICET-CICPBA), La Plata, Argentina, and bDivision of Endocrinology, Diabetology and Metabolism, University Hospital (CHUV), Lausanne, Switzerland
                Article
                Publisher ID: 72799 Other ID: Neuroendocrinology 2003;78:176–184
                DOI: 10.1159/000072799
                PubMed ID: 14512710
                SO-VID: 5183af68-b9ba-4ddf-9f79-797345c8abb8
                Copyright © © 2003 S. Karger AG, Basel
                License:

                Copyright: All rights reserved. No part of this publication may be translated into other languages, reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, microcopying, or by any information storage and retrieval system, without permission in writing from the publisher. Drug Dosage: The authors and the publisher have exerted every effort to ensure that drug selection and dosage set forth in this text are in accord with current recommendations and practice at the time of publication. However, in view of ongoing research, changes in government regulations, and the constant flow of information relating to drug therapy and drug reactions, the reader is urged to check the package insert for each drug for any changes in indications and dosage and for added warnings and precautions. This is particularly important when the recommended agent is a new and/or infrequently employed drug. Disclaimer: The statements, opinions and data contained in this publication are solely those of the individual authors and contributors and not of the publishers and the editor(s). The appearance of advertisements or/and product references in the publication is not a warranty, endorsement, or approval of the products or services advertised or of their effectiveness, quality or safety. The publisher and the editor(s) disclaim responsibility for any injury to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements.

                History
                Date received : 14 January 2003
                Date accepted : 18 July 2003
                Page count
                Figures: 4, Tables: 2, References: 53, Pages: 9
                Categories
                Subject: Growth Hormone and Leptin

                ScienceOpen disciplines: Endocrinology & Diabetes,Neurology,Nutrition & Dietetics,Sexual medicine,Internal medicine,Pharmacology & Pharmaceutical medicine
                Keywords: Glucocorticoid,Monosodium <italic>L</italic>-glutamate,Adrenocorticotropin,Leptin,Adrenal enucleation,Obesity,Adipocytes,Adrenal steroids
                Data availability:
                ScienceOpen disciplines: Endocrinology & Diabetes, Neurology, Nutrition & Dietetics, Sexual medicine, Internal medicine, Pharmacology & Pharmaceutical medicine
                Keywords: Glucocorticoid, Monosodium <italic>L</italic>-glutamate, Adrenocorticotropin, Leptin, Adrenal enucleation, Obesity, Adipocytes, Adrenal steroids

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