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dc.contributor.authorBringer, Jfr_FR
dc.contributor.authorLefebvre, Pfr_FR
dc.contributor.authorRenard, Éfr_FR
dc.date.accessioned2012-08-23T13:56:07Z
dc.date.available2012-08-23T13:56:07Z
dc.date.issued1999fr_FR
dc.identifier.citationBringer, J - Lefebvre, P - Renard, É, Nutrition et physiologie ovarienne., Med Sci (Paris), 1999, Vol. 15, N° 2; p.197-203fr_FR
dc.identifier.issn1958-5381fr_FR
dc.identifier.urihttp://hdl.handle.net/10608/1311
dc.description.abstractLa puberte, les processus de maturation folliculaire et d' ovulation, la phase luteale et l' ensemble des fonctions de reproduction dependent des ressources energetiques de l' organisme. Le poids, la composition corporelle, la distribution du tissu adipeux et le comportement alimentaire ont une influence importante sur la maturation sexuelle, le cycle menstruel et la fertilite. Dans la plupart des especes etudiees, et en particulier chez l' homme, les modifications quantitatives ou qualitatives de l' apport alimentaire modulent l' activite de l' axe hypothalamo-hypophyso-ovarien. Elles sont relayees par les variations des flux metaboliques (acides gras ou glucose) au niveau central, et par les changements de signaux hormonaux (leptine, insuline, IGF1, IGF2 et de leurs proteines de liaison IGFBP) au niveau central et ovarien. Enfin, la transmission de l' information metabolique aux neurones GnRH passe par les neurohormones (cortico-releasing hormone, neuropeptide Y, opiaces, noradrenaline, serotonine).fr
dc.description.abstractPuberty, ovulatory process and reproductive functions are dependent of energy resources. The role of weight, body composition, fat distribution and the effect of diet and exercice have largely been investigated in women where their alterations may induce overt abnormalities in timing of sexual maturation, menstrual cycle and fertility. In comparison with the extreme forms of nutritional disorders - i.e anorexia or bulimia nervosa and obesity - more frequent and subtle pathologic eating behavior associated or not with weight changes have been recognized as associated factors possibly involved in numerous ovulatory disorders. Independently of the weight, the abdominal distribution of fat seems to have a deleterious effect on female fecondity. The waist-to-hip ratio is positively correlated to the prevalence of oligomenorrhea. WHR is negatively correlated to the conception rate of women. There is evidence that weight, body composition, fat distribution and eating habits may modulate the clinical expression as well the biological intensity of androgen excess. While it is acknowledged that the appearance and the maintainance of reproductive function is highly dependent on nutrition and energetic balance, we don't know how the communication occurs at the cellular and molecular level. It is clear that the brain and hypothalamic structures receive an endocrine and/or metabolic signal providing information on the nutritional status and the degree of fat stores. Several candidates have been implicated as possible link between nutritional state and the function of the hypothalamic-pituitary-ovarian axis: (1) alterations in general energy availability testified by low T3 and changes in basal energy expenditure, (2) variations in more specific metabolic fuels as free fatty acids or glucose, (3) changes in peripheral hormonal signals as insuline, growth factors (IGFI, IGFII) and related binding proteins and, interestingly, in leptin. Among the humoral signals informing the reproductive axis about nutritional status, leptin is growingly emerging as a convincing hypothesis. Plasma levels of leptin are correlated with the degree of obesity and are regulated by feeding and fasting. In the leptin deficient female ob/ob mice, treatment with leptin, increases serum levels of LH and ovarian and uterine weight compared to pair-fed controls, and restores fertility. Since rodents hypothalamus express the leptin receptor gene, the leptin-induced rise in gonadotropins probably proceeds from an effect on the reproductive neuroendocrine system. A direct ovarian action of leptin has also been demonstrated in rat ovarian granulosa cells, where leptin counteracts the synergistic effect of IGF-I on FSH-stimulated estradiol production. In human, the leptin receptor gene is expressed in hypothalamus and ovary, and leptin reduce the production of estradiol by granulosa cultured cells. Finally, the recent development concerning the effect of leptin on reproductive function offers a new lighting on tigh interrelationships between nutrition and reproductive function and reinforces the importance to consider the nutritional mechanisms in numerous ovulatory disorders. [References: 30]en
dc.language.isofrfr_FR
dc.publisherMasson, Parisfr_FR
dc.rightsArticle en libre accèsfr
dc.rightsMédecine/Sciences - Inserm - SRMSfr
dc.sourceM/S. Médecine sciences [revue papier, ISSN : 0767-0974], 1999, Vol. 15, N° 2; p.197-203fr_FR
dc.titleNutrition et physiologie ovarienne.fr
dc.title.alternativeNutrition and ovarian physiology : The future of reproductive medicinefr_FR
dc.typeArticlefr_FR
dc.contributor.affiliationService des maladies endocriniennes, Hopital Lapeyronie; 371, avenue du Doyen-Gaston-Giraud, 34295 Montpellier, France-
dc.identifier.doi10.4267/10608/1311


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