Sex Differences in Oxytocin and Vasopressin V1a Receptor Binding Densities in the Mouse Brain: Focus on the Social Behavior Neural Network

Yuan, Jing Ting (Christine)

January 2017

Thesis advisor: Alexa Veenema / Thesis advisor: Nicholas Worley / Oxytocin (OT) and vasopressin (AVP) often regulate social behaviors in sex-specific ways. We hypothesized that this could be mediated by sex differences in the OT receptor (OTR) and AVP V1a receptor (V1aR) in the brain. Here, we determined whether there are sex differences in OTR and V1aR binding densities in nodes of the social behavior neural network in the mouse brain. We also compared sex differences int he OTR and V1aR in the mouse brain with those found previously in the rat brain. Although mice and rats are closely related species, they also display differences in social behavior. Therefore, we predicted to find similar as well as unique sex differences in OTR and V1aR in mice compared to rats. Generally, we found that sex differences in OTR and V1aR binding densities are region-specific and species-specific. In detail, male mice showed higher OTR binding density than female mice in the medial amygdala, anterior lateral septum, and posterior bed nucleus of the stria terminalis. This is consistent with findings in rats. Furthermore, female mice displayed higher OTR binding density in the anteroventral periventricular nucleus and ventromedial hypothalamus. This is in contrast to rats, where males showed higher OTR binding densities in these regions. Lastly, females showed higher V1aR binding density in the anterior bed nucleus of the stria terminalis. However, this sex difference was not measured in rats due to low receptor expression in this region. Overall, these findings demonstrate the importance to determine sex differences in OTR and V1aR across species to gain a better understanding of the sex-specific behavioral functions of the OT and AVP systems. / Thesis (BS) — Boston College, 2017. / Submitted to: Boston College. College of Arts and Sciences. / Discipline: Departmental Honors. / Discipline: Biology.

oxytocin receptor

vasopressin V1a receptor

sex differences

mice

rats

Hormonal correlates of coloration and sexual change in the hermaphroditic grouper, Epinephelus adscensionis

Kline, Richard Joseph, 1970-

11 February 2011

Hermaphroditism, associated with territoriality and dominance behavior, is common in the marine environment. Male sex-specific coloration patterns and behavior are particularly evident in species where males are territorial and guard harems of females such as wrasses and groupers. Protogynous hermaphrodites that change sex from female to male are good models to study sexual behavior and related changes in the brain due to their abilities to reorganize their sexual phenotype as adults. Two hormones produced in the brain and implicated in the process of sex-specific behavior and reproductive development are arginine vasotocin (AVT) and gonadotropin releasing hormone (GnRH). While a wealth of data exists regarding these hormone systems separately, little is known about linkage between these two systems. Especially there is no data tracking these two systems together in any protogynous fish. This study was conducted to test the hypothesis that coordinated interactions between AVT and GnRH facilitate the process of behavioral and gonadal sex change in the rock hind Epinephelus adscensionis. Four topics were addressed to investigate the relationship between behavior and reproduction: i) rock hind sex change, sexual characteristics and conditions causing sex change to occur in captivity were detailed as a basis for examining the AVT system and GnRH during this process, ii) the distribution of a vasotocin V1a type receptor identified in rock hind brain was examined for the first time in a fish species using a custom designed antibody then the receptor protein was co-localized with GnRH producing cells within the brain to confirm that a pathway exists for AVT action on GnRH, iii) levels of AVT, AVT receptors, and GnRH messenger RNA (mRNA) were compared between male and female rock hind phenotypes, and iv) female rock hind at early stages of sex change were compared for brain mRNA expression of AVT, AVT receptors, and GnRH to determine the order of hormonal change during the process of sexual inversion in this species. This study provides a better understanding of the relationship between sex-specific behavior and reproductive development via AVT and GnRH systems that are conserved in all vertebrates. / text

Grouper

Hermaphroditism

AVT

V1a receptor

GnRH

Sexual behavior

Rock hind

Epinephelus adscensionis

Sex-specific coloration

Arginine vasotocin

Gonadotropin releasing hormone

Rôle de la vasopressine dans les troubles du métabolisme glucidique : possible impact dans le développement du diabète / Role of vasopressin in glucose metabolic disorders : possible impact about diabetes development

Taveau, Christopher

26 September 2014

Il est bien établi que la vasopressine (AVP) est élevée dans le diabète tant humain qu'expérimental. Chez l'homme, plusieurs études récentes ont montré une association entre la copeptine (biomarqueur de la sécrétion d'AVP), et la survenue d'un diabète ou d'une hyperglycémie, le syndrome métabolique et l'obésité. Dans l'équipe, nous avons montré une association inverse entre la consommation d'eau (diminue la sécrétion AVP) et le risque de survenue d'hyperglycémie dans la cohorte D.E.S.I.R. Le but de mon projet de thèse a été de déterminer le rôle de l'AVP et de la prise hydrique dans l'homéostasie glucidique chez le rat sain et dans un modèle de rat présentant un syndrome métabolique. L'administration aigüe ou chronique d'AVP augmente la glycémie et cet effet est réversé par un antagoniste des récepteurs V1a. L'activation des récepteurs V1b ne modifie pas l'insulino-sécrétion mais stimule en permanence et de façon modérée la glucagonémie. Ces effets ont été observés sur deux souches différentes de rats sains. Chez le rat Zucker obèse, l'AVP aggrave l'hyperinsulinémie à jeun et l'intolérance au glucose alors que le régime hydraté ne modifie pas la tolérance au glucose mais réduit très fortement la stéatose hépatique ainsi que le contenu hépatique en cholestérol et triglycérides et l'expression des gènes impliqués dans la lipogenèse. En conclusion, ces travaux montrent pour la première fois, que l'AVP dégrade à long terme la tolérance au glucose ; a contrario, un régime fortement hydraté est protecteur. Ces résultats, en accord avec nos données épidémiologiques, démontrent un lien de causalité entre vasopressine/hydratation et désordre du métabolisme glucidique. / It is well established that vasopressin (AVP) level is high in both human and experimental diabetes. In humans, several recent studies have shown an association between copeptin (biomarker of AVP secretion) and the occurrence of diabetes mellitus or hyperglycemia, metabolic syndrome and obesity. Our team has shown a reverse association between water consumption (decrease AVP secretion) and the risk of hyperglycemia in the general population (D.E.S.I.R cohort). The aim of my thesis was to determine the role of AVP and fluid intake in glucose homeostasis in healthy rats and in a rat model of metabolic syndrome. AVP, administered acutely or chronically in healthy rats, increases glycaemia and this effect is reversed by a V1a receptor antagonist. V1b receptor activation does not influence insulin secretion but stimulates moderately basal glucagon production by the pancreas. These effects were observed in two different healthy strains of rats. In obese Zucker rats, a high AVP level worsens fasting hyperinsulinaemia and glucose intolerance whereas hydration does not affect glucose tolerance but drastically reduces hepatic steatosis, the content of cholesterol and triglycerides in liver and expression of genes involved in hepatic lipogenesis. In conclusion, these studies show for the first time, that AVP aggravates glucose tolerance whereas a highly hydrated diet is protective. These results, in agreement with our epidemiological data, demonstrate a causal link between vasopressin and/or hydration and glucose metabolism disorders.

Vasopressine

Antagoniste des récepteurs V1a

Antagoniste des récepteurs V1b

Métabolisme glucidique

Insulino-résistance

Stéatose hépatique

Vasopressin

V1a receptor antagonist

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