The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation

Li, Yunqing

14 December 2011

We investigated the gestational expression of androgen receptor (AR) and defined its regulation and that of its co-repressors, PSF and p54nrb, by steroid hormones and myometrial stretch in vivo in pregnant and non-pregnant rats. Our data demonstrate that, 1) myometrial AR expression decreases prior to term; 2) AR expression is up-regulated by MPA treatment and down-regulated by mechanical stretch; (3) myometrial PSF protein expression is down-regulated by estrogen signaling and by mechanical stretch, and up-regulated by androgen signaling; (4) while myometrial PSF mRNA expression is also down-regulated by stretch, the regulation by estrogen and P4 on PSF mRNA appear to be opposite to the effects on PSF protein. We conclude that the decreased androgen signaling in late pregnancy (as a result of decreased AR and PSF expression mediated by hormonal and mechanical signals) may contribute to the mechanisms leading to labor initiation.

Androgen Receptor

Myometrium

PSF

p54nrb

Nuclear Co-repressor

Steroid Hormone Signaling

Mechanical Stretch

Contraction-associated Proteins

0719

The Modulation of Androgen Signaling by Steroid Hormones and Mechanical Tension: A Novel Pathway of Labor Initiation

Li, Yunqing

14 December 2011

We investigated the gestational expression of androgen receptor (AR) and defined its regulation and that of its co-repressors, PSF and p54nrb, by steroid hormones and myometrial stretch in vivo in pregnant and non-pregnant rats. Our data demonstrate that, 1) myometrial AR expression decreases prior to term; 2) AR expression is up-regulated by MPA treatment and down-regulated by mechanical stretch; (3) myometrial PSF protein expression is down-regulated by estrogen signaling and by mechanical stretch, and up-regulated by androgen signaling; (4) while myometrial PSF mRNA expression is also down-regulated by stretch, the regulation by estrogen and P4 on PSF mRNA appear to be opposite to the effects on PSF protein. We conclude that the decreased androgen signaling in late pregnancy (as a result of decreased AR and PSF expression mediated by hormonal and mechanical signals) may contribute to the mechanisms leading to labor initiation.

Androgen Receptor

Myometrium

PSF

p54nrb

Nuclear Co-repressor

Steroid Hormone Signaling

Mechanical Stretch

Contraction-associated Proteins

0719

Obésité et grossesse : étude de l'influence d'un marqueur de l'obésité sur les mécanismes cellulaires et tissulaires de l'accouchement dans un modèle d'explants myométriaux humains / Obesity and pregnancy : study of the influence of a marker of obesity on the cellular and tissular mechanisms of delivery in an in vitro human myometrial model

Wendremaire, Maeva

07 May 2012

L’obésité maternelle, dont la prévalence ne cesse d’augmenter, est associée à de nombreux troubles de l’accouchement, tels que des dépassements de terme à l’origine d’une augmentation du taux de césariennes. Ces troubles pourraient, en partie, s’expliquer par une concentration plasmatique de leptine plus élevée chez les femmes enceintes obèses ainsi que par les effets inhibiteurs, démontrés in vitro, de cette adipokine sur la contractilité myométriale. Au moment de l’accouchement, la transition phénotypique du myomètre d’un état de quiescence utérine à un état contractile est une étape clé indispensable à la mise en route du travail. Elle est associée à une activation de l’apoptose des cellules myométriales ainsi qu’à un remodelage de la matrice extracellulaire utérine. Le but de notre travail était d’étudier la capacité de la leptine à moduler l’apoptose et le remodelage myométriaux induits par le lipopolysaccharide (LPS).Les échantillons de myomètre ont été prélevés lors de césariennes réalisées avant la mise en route du travail, à la maternité du CHU de Dijon. Les effets de la leptine ont été évalués après incubation des explants myométriaux pendant 48 heures avec du LPS (10 µg/ml) avec ou sans leptine (de 10-10 à 10-8 M).Nos résultats ont démontré la capacité de la leptine à inhiber, de façon concentration-dépendante, l’apoptose induite par le LPS en diminuant l’expression des protéines pro-apoptotiques (caspase-3 clivée, BAX) et en augmentant celle du médiateur anti-apoptotique BCL2. Cet effet anti-apoptotique de la leptine dans le myomètre gestant était associé à l’activation de la voie de signalisation ERK1/2. De plus, nos résultats ont montré que la leptine était également capable de s’opposer, de façon concentration-dépendante, à la dégradation du collagène de la matrice extracellulaire myométriale induite par le LPS. Cet effet était associé à l’inhibition de l’activation et de la surexpression des métalloprotéinases MMP2 et MMP9 induites par le LPS.Ce travail a permis d’approfondir les connaissances sur le rôle de la leptine dans la régulation de l'activité du myomètre. Nos résultats suggèrent que les troubles de l’accouchement observés chez les femmes obèses résulteraient de l’inhibition de l’apoptose et du remodelage myométriaux par la leptine, en plus de l’inhibition de la contractilité utérine déjà décrite. / Maternal obesity is associated with a wide spectrum of delivery disorders, such as delayed or post-term delivery, that might be explained partly by the increase in plasma leptin levels in obese women, as leptin inhibits in vitro myometrial contractility. Delivery involves uterine apoptosis and remodelling of the extracellular matrix, via the activation of matrix metalloproteinases (MMP). This study was aimed to assess the role of leptin on human myometrium, by studying the interaction of leptin with lipopolysaccharide (LPS)-induced apoptosis and degradation of myometrial collagen.Myometrial biopsies were obtained from women undergoing caesarean delivery before labour onset. The effects of leptin on myometrial apoptosis and remodelling were assessed by incubating the strips for 48h with LPS (10 µg/ml) alone or with leptin (from 10-10 to 10-8 M).Leptin prevented LPS-induced apoptosis, in a concentration-dependent manner, by down-regulating cleaved caspase-3, BAX and up-regulating BCL2 expression. This effect was specifically mediated through leptin receptors stimulation followed by ERK1/2 signalling pathway activation. Leptin prevented, in a concentration-dependent manner, an LPS-induced decrease in myometrial collagen content, and this effect was associated with a decrease in MMP2 and MMP9 activity and overexpression. These effects of leptin were abolished by pre-treatment with a selective leptin receptor antagonist. These results suggest new potential pathways involved in delivery disorders of obese women and propose a role for leptin-induced inhibition of myometrial apoptosis and extracellular matrix remodelling in the development of such disorders.

Myomètre

Leptine

Grossesse

Apoptose

Remodelage de la matrice extracellulaire

Human myometrium

Leptin

Pregnancy

Apoptosis

Extracellular matrix remodelling

615.3

618.2

612.16

The Effects of Total Body Proton Irradiation on Mouse Myometrium

Bulawa, Lillith

01 May 2020

The boundaries of human space exploration continue to expand with new technology and discoveries making it even more important to investigate the effects of space on biological systems. Although humans have explored space in small increments, reproductive studies must be conducted to determine if stable short- or long-term residences for humans can exist in space. This study explored the effects of whole-body proton radiation on uterine smooth muscle known as the myometrium. Two types of mice utilized in this study were C57BL/6 and B6.129S6Cybbtm1Din/J NOX2 knockout mice. C57BL/6 mice are standard laboratory mice that were used to represent the wildtype treatment group (N=18). The B6.129S6Cybbtm1Din/J NOX2 knockout mice have the NADPH Oxidase 2 gene shut off and represented the NOX2 Knockout treatment group (N=18). A third treatment group was made up of half of the C57BL/6 mice and were fed apocynin (N=18). Apocynin has been shown to inhibit NAPDH oxidase production in mice. NADPH Oxidase 2 is involved in the production of deleterious Reactive Oxygen Species (ROS); thus, apocynin should reduce the production of ROS in mice exposed to radiation. Different doses of radiation (0Gy, 0.5Gy, and 2.0Gy) were applied to the myometrium creating three different treatment subgroups within each mouse strain. The mice received 250 MeV protons at an approximate dose rate of 70cGy/ minute. Myometrium tissue was obtained one week following the radiation treatment. The uteri were removed, embedded, sectioned, and stained in hematoxylin and eosin solution. Thickness was determined by taking five measurements each of the outer longitudinal layer length, the inner circular layer length and the total length of both layers of the myometrium for three individual pieces of tissue for each animal. A one-way analysis of variance (ANOVA) was used to determine statistical differences between the groups and subgroups. Wildtype control mice exposed to 2.0Gy (N=5) of radiation had the thickest outer longitudinal layers compared to wildtype mice exposed to 0Gy (N=5) and 0.5Gy (N=6) (p=0.005, p=0). In the apocynin fed and Knockout treatment groups, the subgroups exposed to 0Gy had the thickest layers compared to their respective subgroups exposed to 0.5Gy and 2.0Gy. The apocynin fed mice exposed to 0Gy (N=6) outer longitudinal layer was statistically significantly thicker than the apocynin-fed mice exposed to 0.5Gy (p=0.004; N=6). The inner circular layer of the apocynin-fed mice exposed to 0.5Gy was statistically significantly thicker than the apocynin-fed mice exposed to 2.0Gy (p=0.001; N=6). Amongst the treatment groups, the wildtype control versus the apocynin fed mice exposed to 0Gy showed the apocynin-fed group to have the thicker outer longitudinal layer (p=0.003) and combined layers (p=0.001). Overall, the knockout group showed no statistical difference when compared to the wildtype control group. Further studies are necessary to reduce the possible confounding effect of the estrous cycle in the mice. The different phases of the mice estrus cycle may inadvertently affect the mouse uterine thickness due to the fluctuations in hormones. This study will add to the limited research regarding the female reproductive system in hopes of expanding the knowledge needed to actualize space colonization.

proton radiation

uterus

fertility

mice

space

myometrium

Obstetrics and Gynecology

Other Animal Sciences

Radiation Medicine

Reproductive and Urinary Physiology

Lipidomic analysis reveals prostanoid profiles in human term pregnant myometrium.

Durn, Joanne H., Marshall, Kay M., Farrar, D., O'Donovan, Peter J., Scally, Andy J., Woodward, D.F., Nicolaou, Anna

January 2010

No / Prostanoids modulate the activity of human pregnant myometrium and their functional role can be appreciated through characterisation of prostanoid receptors and tissue concentration of prostanoids. We have applied a lipidomic approach to elucidate the profile of prostanoids in human non-labouring and labouring myometrium. We have identified a total of nineteen prostanoids including prostacyclin, thromboxanes, prostaglandins and dihydro-prostaglandins. Prostacyclin was the predominant prostanoid in both non-labouring and labouring myometria, with PGD2 and PGF2¿ being the second most abundant. Although the total amount of prostanoids was increased in the labouring tissue, PGE2 and 13,14-dihydro-15-keto-PGE2 were the only prostanoids to increase significantly at early and late labour (p¿0.001). Our data suggest that PGF2¿ plays an important role in parturition, whilst the increase in PGE2 could occur to facilitate cervical dilation and relaxation of the lower myometrium during labour. Although the elevation in TXA2 was less marked than expected, in terms of translation to function even a relatively small increase in the level of this potent spasmogen may have significant effects.

Human pregnancy

Term gestation

Myometrium

Labour

Prostaglandins

Prostacyclin

Caracterização de proteoglicanos do útero de camundongos durante o ciclo estral e em animais ovarectomizados: análise dos efeitos da castração e da reposição hormonal. / Characterization of proteoglycans in the mouse uterus during the estrous cycle and in ovariectomized animals: analysis of the effects of castration and hormone replacement.

Salgado, Renato de Mayrinck

14 August 2009

A matriz extracelular (MEC) dos tecidos uterinos é altamente remodelada na gestação de camundongos. Os objetivos deste estudo foram avaliar a influência dos hormônios ovarianos estrógeno (E2) e progesterona (P4) sobre a estrutura dos tecidos uterinos de camundongo e a deposição dos proteoglicanos decorim, biglicam, fibromodulim, lumicam, perlecam e versicam nestes tecidos. Para isto, utilizamos um modelo de castração e reposição hormonal, e o ciclo estral como parâmetro fisiológico. Verificamos que, como na gestação, durante o ciclo estral ocorre intensa remodelação na estrutura e na MEC dos tecidos uterinos. Verificamos ainda que a resposta aos hormônios ovarianos é: compartimento-específica; hormônio-específica e molécula-específica. Notável foi a modulação do versicam pelos hormônios ovarianos. P4 induz a deposição de versicam no estroma, enquanto o miométrio responde apenas a E2. A modulação dos proteoglicanos pelos hormônios ovarianos mostra a relevância destas moléculas para a composição de um ambiente uterino propício para o desenvolvimento do embrião. / The extracellular matrix (ECM) of the mouse uterine tissues is highly remodeled during pregnancy. The aim of this study was to demonstrate the influence of estrogen (E2) and progesterone (P4) on the uterine structure and on the deposition of the proteoglycans decorin, biglycan, fibromodulin, lumican, perlecan and versican in these tissues. For that purpose, we used a model of castration e hormone replacement as main strategy, and the estrous cycle as physiological parameter. We verified that, as in pregnancy, during the estrous cycle an intense remodeling occurs on the structure and the ECM of the uterine tissues. We also showed that the response to the ovarian hormones is: compartment-; hormone- and molecule- specific. Noteworthy was the modulation of versican by the hormones: P4 induces the deposition of versican in the stroma, whereas the myometrium responds only to E2. The modulation of proteoglycans by the ovarian hormones indicates the relevance of these molecules for the composition of a proper microenvironment for embryo development.

Animal estrous cycle

Camundongos

Ciclo estral animal

Endométrio

Endometrium

Histologia

Histology

Hormônios esteróides ovarianos

Mice

Miométrio

Myometrium

Ovarian steroid hormones

Proteoglicanos

Proteoglycans

Útero

Uterus

MODULAÇÃO GÊNICA DOS RECEPTORES DE PROSTAGLANDINA E2 EM CÉLULAS MIOMETRIAIS E CERVICAIS EM PARTOS INDUZIDOS COM PROSTAGLANDINAS: ESTUDO IN VIVO E IN VITRO / PROSTAGLANDIN E2 RECEPTORS GENE MODULATION IN MYOMETRIAL AND CERVICAL CELLS OF PROSTAGLANDIN INDUCED LABOR: AN IN VIVO AND IN VITRO STUDY

Konopka, Cristine Kolling

18 September 2015

The mechanisms involved in human parturition, and the molecular changes that occur during the transition from pregnancy and birth are not completely elucidated. Endogenous or administered prostaglandins, including the PGE1 and PGE2, are related to contractile activity and cervical ripening, playing an important role on labor. Due to maternal or fetal causes, some pregnancies require labor induction. In many cases, prostaglandins, including Dinoprostone (PGE2) and Misoprostol (PGE1 analog), are used for labor induction. However, the response to labor induction is variable, and the reasons why this occurs are unknown. Once delivery also involves modulation of oxidative metabolism, that can be potentially affected by administered drugs, in the present study, we analyzed prostaglandin E2 receptor (EP1, EP2, EP3 and EP4) gene expression of myometrial and cervical cells, in vivo and in vitro, as well as oxidative markers in myometrial cells exposed in vitro to different concentrations of Misoprostol. In both studies, tissue biopsies were obtained from pregnant women at term. In the in vivo study, from women with spontaneous deliveries or Dinoprostone induced labors, responsive or non-responsive to labor induction, and in the in vitro study, from women with spontaneous and non-spontaneous labors, these induced with misoprostol. Gene expression was analyzed by qtRT-PCR and oxidative biomarkers by spectrophotometric and fluorimetric analysis. The results obtained from the in vivo study showed a concurrent and antagonic regulation of EP1 and EP3 mRNA expression in cervical and myometrial tissues in pregnant women at term in Dinoprostone induced labors. EP1 mRNA was upregulated in the cervical tissue of women who did not respond to Dinoprostone induction. In addition, in the myometrium, significantly higher levels of EP3 mRNA were observed in women treated with Dinoprostone, independent of their responsiveness, indicating a possible regulation of the EP3 gene at a transcriptional level. In vitro analysis revealed that myometrial cells derived from women with spontaneous labors showed greater capacity for misoprostol genomic response, since an overexpression of genes associated with muscle contraction (EP1 and EP3) was observed. In addition, Misoprostol was able to differentially modulate two important oxidative metabolism markers (protein carbonylation and lipid peroxidation). However, this effect was dependent on cells source (whether obtained from spontaneous or non-spontaneous labors) and drug concentration. The results suggest that, in term pregnant women, there is modulation of the PGE2 receptors genes in myometrial and cervical tissues in Dinoprostone or Misoprostol-induced labors, and that the EPs have an important role in the success of spontaneous delivery and in the pharmacological response to PGE1 analog administration. Addicionally, oxidative metabolism also seems to play an important role in the parturition process, requiring further studies to define its real function in this process. / Os mecanismos pelo qual a parturição humana é iniciada espontaneamente e as mudanças moleculares que ocorrem durante a transição entre a gestação e o parto não são completamente elucidados. Um dos principais fatores envolvidos são as prostaglandinas, endógenas ou administradas, entre elas a PGE1 e PGE2, que estão relacionadas à atividade contrátil e ao amadurecimento cervical. Em casos de necessidade de antecipação do nascimento, as prostaglandinas, entre elas a Dinoprostona (PGE2) e o Misoprostol (análogo da PGE1), são utilizadas para indução do parto. Entretanto, a resposta à indução do parto é variável e os motivos pelos quais isto ocorre é desconhecido. Uma vez que o parto também envolve modulação do metabolismo oxidativo, que pode ser potencialmente afetado por ação de fármacos, no presente estudo analisamos a expressão dos genes dos receptores de prostaglandina E2 (EP1, EP2, EP3 e EP4) em células miometriais e cervicais, in vivo e in vitro, bem como marcadores oxidativos em células miometriais expostas in vitro a diferentes concentrações de Misoprostol. Para a realização dos dois estudos, foram obtidas biópsias teciduais em parturientes a termo; no estudo in vivo, em mulheres com parto espontâneo, responsivas e não responsivas à indução do parto com Dinoprostona e no estudo in vitro, em mulheres com partos espontâneos e não espontâneos, estes induzidos com Misoprostol. A expressão gênica foi analisada através de qtRT-PCR e no estudo in vitro, além das análises da modulação gênica, foram conduzidas análises complementares de biomarcadores oxidativos, através de ensaios espectrofotométricos e fluorimétricos. Nos resultados obtidos a partir do estudo in vivo, observou-se regulação concomitante e antagônica da expressão do mRNA de EP1 e EP3 nos tecidos cervical e miometrial em gestantes a termo com partos induzidos com Dinoprostona. O mRNA do EP1 foi superexpresso no tecido cervical de mulheres que não responderam à indução com Dinoprostona. Além disso, no miométrio, níveis significativamente mais elevados de mRNA do EP3 foram observados em mulheres tratadas com Dinoprostona, independente da sua capacidade de resposta, indicando uma possível regulação da expressão do gene EP3 a nível transcricional. A análise in vitro evidenciou que as células miometriais oriundas de mulheres com parto espontâneo apresentaram maior capacidade de resposta genômica ao Misoprostol, uma vez que uma superexpressão dos genes relacionados com a contração muscular (EP1 e EP3) foi observada. Adicionalmente, o Misoprostol foi capaz de modular diferencialmente dois importantes marcadores do metabolismo oxidativo (lipoperoxidação e carbonilação de proteínas). Porém, este efeito foi dependente da origem das células (se obtida de partos espontâneos ou não espontâneos) e da concentração do fármaco. Os resultados obtidos sugerem que, em gestantes a termo, existe modulação dos genes dos receptores de PGE2 no miométrio e colo em partos induzidos com Dinopostona ou Misoprostrol, e que os EPs possuem um papel relevante no sucesso do parto espontâneo e na resposta farmacológica aos análogos a prostaglandina E1. Adicionalmente, o metabolismo oxidativo também parece desempenhar um papel importante no processo da parturição, necessitando de estudos complementares para esclarecimento da sua real função neste processo.

Prostaglandina

Dinoprostona

Misoprostol

Receptor de PGE2

Útero

Gestação

Parto

Miométrio

Cérvice

Prostaglandin

Dinoprostone

Misoprostol

PGE2 receptor

Uterus

Pregnancy

Labor

Myometrium

Cervix

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Caracterização de proteoglicanos do útero de camundongos durante o ciclo estral e em animais ovarectomizados: análise dos efeitos da castração e da reposição hormonal. / Characterization of proteoglycans in the mouse uterus during the estrous cycle and in ovariectomized animals: analysis of the effects of castration and hormone replacement.

Renato de Mayrinck Salgado

14 August 2009

A matriz extracelular (MEC) dos tecidos uterinos é altamente remodelada na gestação de camundongos. Os objetivos deste estudo foram avaliar a influência dos hormônios ovarianos estrógeno (E2) e progesterona (P4) sobre a estrutura dos tecidos uterinos de camundongo e a deposição dos proteoglicanos decorim, biglicam, fibromodulim, lumicam, perlecam e versicam nestes tecidos. Para isto, utilizamos um modelo de castração e reposição hormonal, e o ciclo estral como parâmetro fisiológico. Verificamos que, como na gestação, durante o ciclo estral ocorre intensa remodelação na estrutura e na MEC dos tecidos uterinos. Verificamos ainda que a resposta aos hormônios ovarianos é: compartimento-específica; hormônio-específica e molécula-específica. Notável foi a modulação do versicam pelos hormônios ovarianos. P4 induz a deposição de versicam no estroma, enquanto o miométrio responde apenas a E2. A modulação dos proteoglicanos pelos hormônios ovarianos mostra a relevância destas moléculas para a composição de um ambiente uterino propício para o desenvolvimento do embrião. / The extracellular matrix (ECM) of the mouse uterine tissues is highly remodeled during pregnancy. The aim of this study was to demonstrate the influence of estrogen (E2) and progesterone (P4) on the uterine structure and on the deposition of the proteoglycans decorin, biglycan, fibromodulin, lumican, perlecan and versican in these tissues. For that purpose, we used a model of castration e hormone replacement as main strategy, and the estrous cycle as physiological parameter. We verified that, as in pregnancy, during the estrous cycle an intense remodeling occurs on the structure and the ECM of the uterine tissues. We also showed that the response to the ovarian hormones is: compartment-; hormone- and molecule- specific. Noteworthy was the modulation of versican by the hormones: P4 induces the deposition of versican in the stroma, whereas the myometrium responds only to E2. The modulation of proteoglycans by the ovarian hormones indicates the relevance of these molecules for the composition of a proper microenvironment for embryo development.

Camundongos

Ciclo estral animal

Endométrio

Histologia

Hormônios esteróides ovarianos

Miométrio

Proteoglicanos

Útero

Animal estrous cycle

Endometrium

Histology

Mice

Myometrium

Ovarian steroid hormones

Proteoglycans

Uterus

Études des rôles physiopathologiques de PTEN dans le tractus reproducteur femelle

Laguë, Marie-Noëlle

05 1900

La tumeur des cellules de la granulosa (GCT) représente 5% des cas de cancers ovariens chez la femme. Bien que considérées comme peu malignes, la mort survient dans 80% des cas suite à une recrudescence de la maladie. En dépit de ces statistiques sinistres, peu d’études ont été portées sur ce type de cancer. Le premier objectif de cette étude consistait à élucider les mécanismes moléculaires causant les GCT en démontrant l’implication de la voie de signalisation PI3K/AKT dans leur étiologie. Pour ce faire, nous avons employé la technologie Cre-Lox afin de cibler le gène Pten (antagoniste de cette voie) spécifiquement dans les cellules de la granulosa chez la souris. Ces souris (Ptenflox/flox;Amhr2cre/+) ont occasionnellement développé des GCT, soutenant notre hypothèse de l’importance de la voie PI3K/AKT dans leur étiologie. La voie WNT/CTNNB1 est une autre voie de signalisation qui a récemment été impliquée dans le développement des GCT. Dans le cadre de ce projet, nous avons également testé l’existence possible d’une synergie fonctionnelle entre les voies WNT/CTNNB1 et PI3K/AKT dans le développement de la maladie. Pour ce faire, nous avons créé le modèle transgénique Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+, chez lequel les cellules de la granulosa présentant non seulement une désinhibition de la voie PI3K/AKT, mais aussi une suractivation de la voie WNT/CTNNB1. Tel que prédit, les souris Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+ ont développé une forme de GCT beaucoup plus agressive que celle observée chez les femelles Ptenflox/flox;Amhr2cre/+. Spécifiquement, le développement des tumeurs se déclenchait plus tôt, leur croissance était beaucoup plus rapide, nous avons pu observer des métastases pulmonaires et la dissémination des cellules tumorales dans la cavité péritonéale, et la maladie était invariablement fatale avant l’âge de 8 semaines. Le modèle Ptenflox/flox;Ctnnb1flox (ex3)/+;Amhr2cre/+ a donc servi à démontrer l'existence d'une synergie entre les voies WNT/CTNNB1 et PI3K/AKT dans le développement de la GCT. De façon inattendue, les souris Ptenflox/flox;Amhr2cre/+ ont aussi présenté un phénotype de sous-fertilité qui n’était pas d’origine ovarienne. Il a récemment été démontré que la souche Amhr2cre dirige l’expression de Cre non seulement aux cellules de la granulosa, mais aussi au stroma utérin et au myomètre. Le second objectif de ce travail était donc de démontrer si et comment le phénotype d’infertilité chez les souris Ptenflox/flox;Amhr2cre/+ pouvait découler d’un défaut utérin. Lors de l'implantation, les cellules du stroma utérin se différencient en cellules déciduelles pour former la décidua maternelle (DM), qui se régresse ensuite par apoptose afin de faciliter l’invasion des cellules trophoblastiques. De plus, la DM, en collaboration avec le tissu foetal, recrute des uNKs dont le rôle est de remodeler les artères spiralées pour augmenter l’apport sanguin maternel vers le foetus en développement. Nous avons pu démontrer que l'utérus des femelles gestantes Ptenflox/flox;Amhr2cre/+ présentait une DM anormalement résistante à l'apoptose, moins de uNKs et des artères spiralées non-remodelées. Par conséquent, l’invasion des cellules du trophoblaste était restreinte, compromettant le développement et la survie de l'embryon. Nous avons donc établi pour la première fois l’importance de Pten lors de la décidualisation et de l’invasion du trophoblaste. / The granulosa cell tumor (GCT) represents up to 5% of all ovarian cancer cases in women. Although GCT is characterized as a low-grade malignancy, death occurs in approximately 80% of cases following to the disease’s recurrence. Despite these statistics, very few studies have been dedicated to increasing our understanding of the molecular mechanisms responsible for the development of GCT. The first objective of this work was to elucidate some of these molecular mechanisms by proving the involvement of the PI3K/AKT signaling pathway in the etiology of GCT. To this end, we used Cre-LoxP technology to conditionally target Pten (a PI3K/AKT signaling antagonist) in granulosa cells. These transgenic mice (Ptenflox/flox;Amhr2cre/+) occasionally developed GCT, supporting our hypothesis on the importance of the PI3K/AKT pathway in the etiology of this disease. The WNT/CTNNB1 signaling pathway has also recently been implicated in GCT development. We therefore postulated that a functional synergy may exist between the WNT/CTNNB1 and PI3K/AKT pathways in development of GCT. To test this, we created a second transgenic model (Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+), in which the granulosa cells featured not only a disinhibition of the PI3K/AKT pathway but also a constitutive activation of the WNT/CTNNB1 pathway. As predicted, the Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+ mice developed a form of GCT that was much more aggressive than the one observed in the Ptenflox/flox;Amhr2cre/+ model. Specifically, the tumors developed sooner, their growth was faster, pulmonary metastases and the seeding of tumor cells in the abdominal cavity were observed, and the disease was invariably fatal by 8 weeks of age. The Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+ model therefore served to demonstrate a synergy between the WNT/CTNNB1 and PI3K/AKT pathways in GCT development. Unexpectedly, the majority of the Ptenflox/flox;Amhr2cre/+ females presented an infertility phenotype that was not caused by an ovarian defect. Recently, it has been shown that the Amhr2cre strain can direct the Cre activity not only to the granulosa cells but also to the uterine stroma and myometrium. The second objective of this work was therefore to determine if and how the infertility observed in Ptenflox/flox;Amhr2cre/+ mice could be caused by a uterine defect. During implantation, uterine stromal cells differentiate into decidual cells and form the maternal decidua (MD), which subsequently regresses by apoptosis to facilitate trophoblast invasion. In collaboration with the fetal tissue, the MD also recruits uNKs, which are responsible for spiral artery remodeling that increases maternal blood flow to the developing fetus. We were able to demonstrate that the uteri of pregnant Ptenflox/flox;Amhr2cre/+ females had a MD that was resistant to apoptosis, less uNKs, and spiral arteries that were not properly remodeled. Consequently, the trophoblast cell invasion was restricted, thereby compromising the development and survival of the embryo. We have therefore established for the first time the importance of Pten during the decidualization of the uterine stroma and trophoblast invasion.

Pten

Akt

Souris transgéniques

Tumeur des cellules de la granulosa

Modélisation animale

Trophoblaste

Décidua

Myomètre

Transgenic mice

Animal modeling

Granulosa cell tumor

Trophoblast

Decidua

Myometrium

Études des rôles physiopathologiques de PTEN dans le tractus reproducteur femelle

Laguë, Marie-Noëlle

05 1900

La tumeur des cellules de la granulosa (GCT) représente 5% des cas de cancers ovariens chez la femme. Bien que considérées comme peu malignes, la mort survient dans 80% des cas suite à une recrudescence de la maladie. En dépit de ces statistiques sinistres, peu d’études ont été portées sur ce type de cancer. Le premier objectif de cette étude consistait à élucider les mécanismes moléculaires causant les GCT en démontrant l’implication de la voie de signalisation PI3K/AKT dans leur étiologie. Pour ce faire, nous avons employé la technologie Cre-Lox afin de cibler le gène Pten (antagoniste de cette voie) spécifiquement dans les cellules de la granulosa chez la souris. Ces souris (Ptenflox/flox;Amhr2cre/+) ont occasionnellement développé des GCT, soutenant notre hypothèse de l’importance de la voie PI3K/AKT dans leur étiologie. La voie WNT/CTNNB1 est une autre voie de signalisation qui a récemment été impliquée dans le développement des GCT. Dans le cadre de ce projet, nous avons également testé l’existence possible d’une synergie fonctionnelle entre les voies WNT/CTNNB1 et PI3K/AKT dans le développement de la maladie. Pour ce faire, nous avons créé le modèle transgénique Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+, chez lequel les cellules de la granulosa présentant non seulement une désinhibition de la voie PI3K/AKT, mais aussi une suractivation de la voie WNT/CTNNB1. Tel que prédit, les souris Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+ ont développé une forme de GCT beaucoup plus agressive que celle observée chez les femelles Ptenflox/flox;Amhr2cre/+. Spécifiquement, le développement des tumeurs se déclenchait plus tôt, leur croissance était beaucoup plus rapide, nous avons pu observer des métastases pulmonaires et la dissémination des cellules tumorales dans la cavité péritonéale, et la maladie était invariablement fatale avant l’âge de 8 semaines. Le modèle Ptenflox/flox;Ctnnb1flox (ex3)/+;Amhr2cre/+ a donc servi à démontrer l'existence d'une synergie entre les voies WNT/CTNNB1 et PI3K/AKT dans le développement de la GCT. De façon inattendue, les souris Ptenflox/flox;Amhr2cre/+ ont aussi présenté un phénotype de sous-fertilité qui n’était pas d’origine ovarienne. Il a récemment été démontré que la souche Amhr2cre dirige l’expression de Cre non seulement aux cellules de la granulosa, mais aussi au stroma utérin et au myomètre. Le second objectif de ce travail était donc de démontrer si et comment le phénotype d’infertilité chez les souris Ptenflox/flox;Amhr2cre/+ pouvait découler d’un défaut utérin. Lors de l'implantation, les cellules du stroma utérin se différencient en cellules déciduelles pour former la décidua maternelle (DM), qui se régresse ensuite par apoptose afin de faciliter l’invasion des cellules trophoblastiques. De plus, la DM, en collaboration avec le tissu foetal, recrute des uNKs dont le rôle est de remodeler les artères spiralées pour augmenter l’apport sanguin maternel vers le foetus en développement. Nous avons pu démontrer que l'utérus des femelles gestantes Ptenflox/flox;Amhr2cre/+ présentait une DM anormalement résistante à l'apoptose, moins de uNKs et des artères spiralées non-remodelées. Par conséquent, l’invasion des cellules du trophoblaste était restreinte, compromettant le développement et la survie de l'embryon. Nous avons donc établi pour la première fois l’importance de Pten lors de la décidualisation et de l’invasion du trophoblaste. / The granulosa cell tumor (GCT) represents up to 5% of all ovarian cancer cases in women. Although GCT is characterized as a low-grade malignancy, death occurs in approximately 80% of cases following to the disease’s recurrence. Despite these statistics, very few studies have been dedicated to increasing our understanding of the molecular mechanisms responsible for the development of GCT. The first objective of this work was to elucidate some of these molecular mechanisms by proving the involvement of the PI3K/AKT signaling pathway in the etiology of GCT. To this end, we used Cre-LoxP technology to conditionally target Pten (a PI3K/AKT signaling antagonist) in granulosa cells. These transgenic mice (Ptenflox/flox;Amhr2cre/+) occasionally developed GCT, supporting our hypothesis on the importance of the PI3K/AKT pathway in the etiology of this disease. The WNT/CTNNB1 signaling pathway has also recently been implicated in GCT development. We therefore postulated that a functional synergy may exist between the WNT/CTNNB1 and PI3K/AKT pathways in development of GCT. To test this, we created a second transgenic model (Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+), in which the granulosa cells featured not only a disinhibition of the PI3K/AKT pathway but also a constitutive activation of the WNT/CTNNB1 pathway. As predicted, the Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+ mice developed a form of GCT that was much more aggressive than the one observed in the Ptenflox/flox;Amhr2cre/+ model. Specifically, the tumors developed sooner, their growth was faster, pulmonary metastases and the seeding of tumor cells in the abdominal cavity were observed, and the disease was invariably fatal by 8 weeks of age. The Ptenflox/flox;Ctnnb1flox(ex3)/+;Amhr2cre/+ model therefore served to demonstrate a synergy between the WNT/CTNNB1 and PI3K/AKT pathways in GCT development. Unexpectedly, the majority of the Ptenflox/flox;Amhr2cre/+ females presented an infertility phenotype that was not caused by an ovarian defect. Recently, it has been shown that the Amhr2cre strain can direct the Cre activity not only to the granulosa cells but also to the uterine stroma and myometrium. The second objective of this work was therefore to determine if and how the infertility observed in Ptenflox/flox;Amhr2cre/+ mice could be caused by a uterine defect. During implantation, uterine stromal cells differentiate into decidual cells and form the maternal decidua (MD), which subsequently regresses by apoptosis to facilitate trophoblast invasion. In collaboration with the fetal tissue, the MD also recruits uNKs, which are responsible for spiral artery remodeling that increases maternal blood flow to the developing fetus. We were able to demonstrate that the uteri of pregnant Ptenflox/flox;Amhr2cre/+ females had a MD that was resistant to apoptosis, less uNKs, and spiral arteries that were not properly remodeled. Consequently, the trophoblast cell invasion was restricted, thereby compromising the development and survival of the embryo. We have therefore established for the first time the importance of Pten during the decidualization of the uterine stroma and trophoblast invasion.

Pten

Akt

Souris transgéniques

Tumeur des cellules de la granulosa

Modélisation animale

Trophoblaste

Décidua

Myomètre

Transgenic mice

Animal modeling

Granulosa cell tumor

Trophoblast

Decidua

Myometrium