Protocolos de indução hormonal com extrato bruto de hipófises de carpa e o perfil da prostaglandina F2α durante a maturação final e ovulação em Astyanax altiparanae /

Figueiredo-Ariki, Daniel Guimarães

January 2019

Orientador: Sérgio Ricardo Batlouni / Resumo: Considerando as inconsistentes informações acerca dos protocolos de indução hormonal do Astyanax altiparanae em cativeiro, o principal objetivo deste estudo foi comparar o desempenho reprodutivo utilizando ou não extrato bruto de hipófise de carpa (EBHC). Avaliamos também o efeito de diferentes doses de EBHC sobre o desempenho reprodutivo em dois distintos lotes de peixes. Em todos os experimentos, avaliamos se um eventual ganho no desempenho reprodutivo estaria associado com alterações na morfologia dos ovários e/ou com concentrações séricas de prostaglandina F2α (PGF2α). Nos experimentos 1 (lote capturado na natureza) e 2 (lote nascido em cativeiro), aplicamos 3, 6 e 9 mg.kg-1 de EBHC (T1, T2 e T3 respectivamente), e um grupo controle (C). No experimento 3 (mesmo lote do experimento 2), comparamos o desempenho reprodutivo com dose única e fracionada (10% e 90% da dose total, com intervalo de 12 horas entre as doses) de EBHC, sendo 6 mg.kg-1 em dose única (H1) ou fracionada (H2) e seus respectivos controles (C1 e C2). Nos experimentos 1 e 2 o desempenho reprodutivo foi similar entre os grupos, porém os grupos T2 e T3 apresentaram elevações de PGF2α no momento da ovulação, além de variações significativas nas frequências de estruturas ovarianas, que indicam aumento da ovulação e /ou a maturação final. No experimento 3, a dose fracionada de 6 mg.kg-1 de EBHC causou um aumento na proporção de réplicas com desova e consequentemente, no volume total de desova e no número total de... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Considering the inconsistent information about the hormonal induction protocols of Astyanax altiparanae in captivity, the main objective of this study was to compare the reproductive performance with or without crude carp pituitary extract (EBHC). We also evaluated the effect of different doses of EBHC on the reproductive performance of two distinct broodstocks. In all experiments, we evaluated whether a possible gain in reproductive performance would be associated with changes in ovarian morphology and / or with serum prostaglandin F2α (PGF2α) concentrations. In the experiments 1 (wild caught) and 2 (born in captivity), we applied 3, 6 and 9 mg.kg-1 EBHC (T1, T2 and T3 respectively), and one control group (C). In the experiment 3 (same broodstock as in experiment 2), we compared reproductive performance with single and fractional doses (10% e 90% of the total, with 12 hours of interval between doses) of EBHC, being: 6 mg.kg-1 in single dose (H1) or fractional (H2) and their respective controls (C1 and C2). In the experiments 1 and 2 the reproductive performance was similar between groups, but groups T2 and T3 presented elevations of PGF2α at the time of ovulation, besides significant variations in the frequencies of ovarian structures, which indicates increase in ovulation and / or final maturation. In the experiment 3, the fractional dose of 6 mg.kg-1 EBHC caused an increase in the proportion of replicates with spawn events and consequently, in the total volume of eggs and ... (Complete abstract click electronic access below) / Doutor

PGF2α

Lambari

Hipofisação

Indução hormonal

Prostaglandina

Rôles des aldose réductases dans l'homéostasie des tissus adipeux blancs humains et murins / Roles of aldose reductases in homeostasis of human and murine white adipose tissues

Pastel, Emilie

03 October 2014

Les aldose réductases (AKR1B) sont des oxydoréductases dépendantes du NADPH initialement décrites pour leurs fonctions de détoxication cellulaire et de réduction du glucose. La découverte de l’expression d’Akr1b7 dans le tissu adipeux murin ainsi que l’activité prostaglandine F2α synthase (PGFS) spécifique de certaines isoformes suggèrent des rôles biologiques inédits pour ces enzymes. La prostaglandine F2α (PGF2α) inhibant l’adipogenèse, cette fonction PGFS met en avant l’implication des AKR1B dans la physiologie du tissu adipeux blanc (TAB). L’objectif de ces travaux était de caractériser l’expression de l’ensemble des AKR1B au sein des TAB murins et humains et de comprendre leur impact sur l’homéostasie du tissu adipeux et en particulier sur l’adipogenèse et la lipolyse. Nous avons montré que l’ensemble des AKR1B était exprimé dans le TAB murin. Akr1b3, Akr1b8 et Akr1b16 sont exprimées à la fois dans les fractions stroma‑vasculaires (contenant des cellules immunitaires, vasculaires, progénitrices…) et adipocytaires. A l’inverse, Akr1b7 n’est pas exprimé par les adipocytes. Les analyses réalisées in vitro indiquent qu’à l’exception d’Akr1b16, les isoformes murines des AKR1B voient leur expression augmenter précocement et transitoirement au cours de l’adipogenèse. Chez l’homme, l’isoforme AKR1B1 est exprimée dans le TAB sous‑cutané de patients obèses alors qu’AKR1B10 est difficilement détectable (western blot, RT‑qPCR). In vitro, l’expression d’AKR1B1 augmente tout au long de la différenciation adipocytaire contrairement à AKR1B10 qui est préférentiellement exprimé dans les cellules indifférenciées. L’utilisation d’un inhibiteur spécifique des AKR1B montre que l’activité PGFS d’AKR1B1 constitue un frein à l’adipogenèse. Nous montrons aussi que les mécanismes régulant l’action de la PGF2α diffèrent en fonction des espèces. Chez l’homme, l’expression du récepteur FP est régulée dans le temps alors que dans les cellules murines, c’est l’expression des PGFS et donc la synthèse de PGF2α qui définit, au cours de l’adipogenèse, la fenêtre d’action de cette prostaglandine. Les souris invalidées pour la PGFS Akr1b7 présentent une diminution des quantités intra‑tissulaires en PGF2α associée à une expansion accrue de leurs tissus adipeux due à une augmentation de l’adipogenèse et à une hypertrophie adipocytaire sans modification de l’expression des enzymes impliquées dans la lipogenèse (Volat et al., 2012). Ces données en accord avec le rôle anti‑adipogénique de la PGF2α suggèrent aussi une action sur la lipolyse. Nous démontrons ici que la perte d’Akr1b7 entraîne une diminution de l’activité lipolytique du TAB. L’utilisation de cellules murines (3T3‑L1) et humaines (hMADS) différenciées en adipocytes, nous a permis de montrer que la stimulation de l’activité lipolytique suite à l’activation du récepteur FP résultait en partie d’une augmentation de la phosphorylation de HSL (forme active) et de l’accumulation de la lipase ATGL. Le troisième volet de ce travail de thèse a consisté à caractériser un modèle de souris transgénique surexprimant AKR1B1 dans le TAB (souris aP2‑AKR1B1) afin d’étudier le rôle biologique de cette isoforme humaine. / Aldose reductases are NADPH-dependent oxydoreductases described for their involvement in cellular detoxification and glucose reduction. The discovery of Akr1b7 expression in murine adipose tissue together with the prostaglandin F2α Synthase (PGFS) activity of some isoforms suggest unreleased biological roles for these enzymes. Prostaglandin F2α (PGF2α) inhibiting adipogenesis, this PGFS function highlights AKR1B potential involvement in white adipose tissue (WAT) physiology. This work aimed at characterising the expression of all AKR1B in both murine and human WAT and understanding their impact on adipose tissue homeostasis and especially on adipogenesis and lipolysis. We showed that all AKR1B were expressed in murine WAT. Akr1b3, Akr1b8 and Akr1b16 were both expressed in the stromal vascular fraction (containing immune cells, vascular cells, progenitors…) and in the adipose fraction. In contrast, Akr1b7 was not expressed in adipocytes. In vitro analyses indicated that, except for Akr1b16, murine AKR1B isoform expression increased early and transiently during adipogenesis. In human, AKR1B1 was expressed in human subcutaneous WAT from obese patients whereas AKR1B10 was hardly detectable (western blot, RT‑qPCR). In vitro, AKR1B1 expression increased throughout adipocyte differentiation unlike AKR1B10, which was preferentially expressed in undifferentiated cells. Using an AKR1B specific inhibitor, we demonstrated that AKR1B1 PGFS activity was a dampen to adipogenesis. We also showed that mechanisms regulating PGF2α action differed according to the species. In human cells, the expression of FP receptor was time-regulated whereas, in murine cells, PGFS expression and thus, PGF2α synthesis, limited PGF2α activity during adipogenesis. Akr1b7 knockout mice have decreased PGF2α intratissular levels associated with an expansion of adipose tissue resulting from an increase of adipogenesis and an adipocyte hypertrophia without any modification of lipogenic enzymes expression (Volat et al., 2012). These data, in agreement with PGF2α anti-adipogenic action, suggest an impact on lipolysis. We demonstrated that loss of Akr1b7 led to a decrease of WAT lipolytic activity. The use of murine (3T3‑L1) and human (hMADS) differentiated cells allowed us to show that the stimulation of lipolysis in response to FP activation was, in part, due to an increase of HSL phosphorylation (active form) and an increase of ATGL accumulation. The third part of this work consisted in characterizing the phenotype of transgenic mice overexpressing AKR1B1 in WAT (aP2‑AKR1B1 mice) in order to study the biological role of this human isoform.

Aldose réductases

Tissu adipeux

PGF2α

Adipogenèse

Lipolyse

Aldose reductases

Adipose tissue

PGF2α

Adipogenesis

Lipolysis

Rôle des aldose réductases dans la physiologie du tissu adipeux blanc : modèles génétiques murins perte et gain de fonction / Role of aldose reductases in the physiology of white adipose tissue : murine genetic models of loss and gain of function

Volat, Fanny

18 November 2011

Le développement du tissu adipeux blanc est finement régulé par des facteurs pro- et anti- adipogéniques. Au cours de l’obésité, son expansion conduit à de nombreuses complications métaboliques. A ce jour, peu de données sont disponibles sur les facteurs qui contrôlent négativement son développement. Dans ce contexte, le laboratoire a dirigé ses recherches sur le rôle de l’aldose réductase murine Akr1b7 dans ce tissu. Akr1b7 est exprimée dans la fraction stromale vasculaire du tissu adipeux blanc et possède un effet anti-adipogénique sur les préadipocytes en culture. La réalisation et l’analyse de souris invalidées pour le gène Akr1b7 nous a permis de démontrer que la perte de Akr1b7 entraîne une expansion de la masse adipeuse par une hypertrophie et une hyperplasie des adipocytes associées à une insulino-résistance. Les souris Akr1b7-/- ne sont pas hyperphagiques mais présentent un métabolisme basal réduit. Akr1b7 qui possède une activité prostaglandine synthase, régule le développement excessif du tissu adipeux par deux mécanismes dépendant de la PGF2α à savoir, l’inhibition de l’adipogenèse et de la lipogenèse. D’autre part, nous avons développé un modèle de souris transgéniques sur-exprimant l’aldose réductase humaine AKR1B1 dans le tissu adipeux. Contre toute attente et à l’inverse de Akr1b7, ce modèle montre un effet pro-adipogénique deAKR1B1. Ces données in vivo révèlent des activités inédites et opposées entre différentes isoformes d’aldose réductase et ouvrent de nouvelles pistes pour appréhender les mécanismes contrôlant l’homéostasie adipeuse et ses dérèglements. / White adipose tissue development is tightly regulated by pro-and anti-adipogenic factors. In obesity, its increased development leads to many metabolic complications. To date, little is known about the factors that control negatively its growth. In this context, the laboratory has focused researches on the murine aldose reductase Akr1b7 role in white adipose tissue. Akr1b7 is expressed in stromal vascular fraction of white adipose tissue and exhibits an anti-adipogenic action on a preadipocyte cell line. Generation and study of Akr1b7-/- knockout mice allows us to demonstrate that lack of Akr1b7 leads to adipose tissue expansion due to hypertrophy and hyperplasia of adipose cells associated to insulin resistance. Akr1b7-/- mice are not hyperphagic but show reduced basal metabolic rate. This phenotype confirms Akr1b7 involvement in adipose tissue physiology. Akr1b7 regulates development of adipose tissue by a PGF2α-dependent inhibition of both adipogenesis and lipogenesis. On the other hand, we have developed a transgenic murine model over-expressing the human aldose reductase AKR1B1 in adipose tissue. Against all odds and contrary to Akr1b7, this model shows a pro-adipogenic effect of AKR1B1. These in vivo data reveal new and opposed activities of different aldose reductase isoforms and open new avenues to understand the mecanisms regulating fat homeostasis and its disturbances.

Tissu adipeux

PGF2α

Aldose réductases

Adipogenèse

Lipogenèse

Adipose tissue

PGF2α

Aldose reductase

Adipogenesis

Lipogenesis

Ações do estradiol na síntese de prostaglandina f2α em células endometriais bovinas

Ferreira, Teissiane Fernanda de Vasconcelos

January 2018

Orientador: Ricardo da Fonseca / Resumo: Em fêmeas bovinas a liberação de prostaglandina F2α (PGF2α) endometrial pode ser induzida in vivo pelo estradiol (E2), entretanto, seu papel ainda não foi esclarecido. Em estudos prévios realizados pelo grupo, o tratamento com E2 in vivo duas horas antes das vacas serem abatidas no 17º dia do ciclo estral, associado à adição de cálcio ionóforo (CI) in vitro em explantes endometriais, exacerbou a síntese de PGF2α quando comparado ao grupo de vacas não tratadas com E2 e CI. O mesmo foi observado em células endometriais bovinas (BEND) expostas ao E2 e CI simultaneamente. Considerando que as concentrações plasmáticas de PGF2α aumentam a partir de 3,5 horas após da aplicação do E2 in vivo, possivelmente tais ações envolvam a síntese de proteínas. Hipotetizou-se que o E2 estimule a expressão e/ou a atividade das enzimas dependentes de cálcio, especificamente a proteína quinase C (PKC) e fosfolipase A2 citosólica (cPLA2). Assim, objetivou-se analisar o efeito dos inibidores de Proteína G, PKC e PLA2 na síntese de PGF2α induzida pelo 17β-estradiol e CI em células endometriais bovinas BEND (Experimento 1), e avaliar as proteínas PKC e PLA2 e ERK 1/2, pela técnica de Western Blotting, em explantes endometriais obtidos de fêmeas bovinas abatidas 2 horas após a administração de 17β-estradiol no 17o dia do ciclo estral (Experimento 2). No Experimento 1, células endometriais bovinas (BEND) foram submetidas a ausência ou presença de um inibidor de proteína G - 10µM de Guanosine 5’- {B-thio}... (Resumo completo, clicar acesso eletrônico abaixo) / Mestre

Células endometriais

Estradiol.

PGF2α

PKC

PLA2

Endometrial cells

O efeito da angiotensina ii na maturação nuclear de oócitos bovinos é mediado pelas prostaglandinas E2 E F2α / Effect of angiotensin ii on bovine oocyte nuclear maturation mediated by PGE2 and PGF2α

Barreta, Marcos Henrique

27 February 2008

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / In mammals, it is well know that resumption of meiosis occurs after the preovulatory LH surge and results in germinal vesicle breakdown (GVBD), initiating the so-called oocyte maturation. However, the pathway by which this gonadotrophin acts is not completely clear. We have recently demonstrated that AngII plays an important role on the onset of ovulation in cattle, potentially acting as an intrafollicular LH mediator. We also observed that AngII prevents the inhibitory effect of follicular cells during bovine oocyte nuclear maturation in vitro. These results suggest that AngII plays a role in LH-induced resumption of meiosis in the bovine oocyte. The aim of this study was to verify the involvement of AngII in LH-induced meiosis resumption and test the hypothesis that prostaglandins E2 and F2α participates of AngII-induced meiosis resumption in bovine oocytes. In the first experiment, seven cows were superovulated with FSH and follicles larger than 12 mm in diameter were subjected to an intrafollicular injection of saralasin or saline. Follicles from the right ovary (n=17) where intrafollicular injected with saralasin (10μM) and follicles from the left ovary (n=17) were treated with saline (control group). A preovulatory LH surge was induced by im injection of a GnRH agonist (gonadorelin 100μg im) following the intrafollicular injections. Fifteen hours later, the animals were ovariectomized and the oocytes were recovered to evaluate the stage of meiotic maturation. All oocytes (n=12) were at germinal vesicle stage (GV) 15 hours after GnRH agonist injection in the saralasin group while in the control group (n=13) the oocytes were at the GVBD (30.8%) or Metaphase I (MI; 69.2%; P<0.001) stage. In other experiment, oocytes were co-cultured with follicular hemisections during 15 hours, to evaluate the role of prostaglandins mediating the effect of AngII on meiotic resumption. The inhibitory effects caused by follicular cells on oocyte nuclear maturation was prevented by adding 100pM of AngII to the culture medium (26.6% MI without AngII vs. 77.5% MI with AngII; P<0.001). However, when a nonselective ciclooxigenase (COX) inhibitor (10μM of indometacin) was present in the culture system with AngII and follicular hemisections, oocytes reached MI in a percentage (13.4%) significantly lower than without indometacin (P<0.001). Furthermore, when 1μM of PGE2 or PGF2α was added to the co-culture system with follicular cells, oocyte nuclear maturation rate followed the same pattern as the high maturation rate observed in the presence of AngII (PGE2 77.4%, PGF2α 70.0% and AngII 75.0% of MI). In conclusion, these results suggest that AngII mediates meiosis resumption induced by LH surge in bovine oocytes, which is dependent of PGE2 and PGF2α production by follicular cells. / Em mamíferos, é bem estabelecido que o reinício da meiose ocorre após o pico préovulatório de LH e resulta no rompimento da vesícula germinativa (RVG), iniciando a maturação do oócito. Entretanto, a via pela qual essa gonadotrofina atua não está completamente elucidada. Nosso grupo demonstrou que a angiotensina II (AngII) apresenta uma importante função no início da ovulação em bovinos, potencialmente atuando como um mediador intrafolicular do LH. Nós também observamos que a AngII previne o efeito inibitório das células foliculares durante a maturação nuclear in vitro de oócitos bovinos. Estes resultados sugerem que a AngII apresenta uma função importante durante o reinício da meiose induzido pelo LH em oócitos bovinos. Portanto, os objetivos deste estudo foram verificar a participação da AngII no reinício da meiose induzido pelo pico ovulatório de LH, e investigar o envolvimento das prostaglandinas E2 e F2α como mediadores da AngII para desencadear o reinício da meiose em oócitos bovinos. No primeiro experimento, sete vacas foram superovuladas com FSH e os folículos maiores que 12mm de diâmetro foram submetidos a uma injeção intrafolicular de saralasina ou NaCl 0,9%. Os folículos do ovário direito (n=17) receberam uma injeção intrafolicular de saralasina (10μM) e os do ovário esquerdo (n=17) foram injetados com NaCl 0,9% (grupo controle). Um pico de LH foi induzido pela administração IM de um agonista do GnRH (gonadorelina 100μg) imediatamente após as injeções intrafoliculares. Quinze horas após, os animais foram ovariectomizados e os oócitos foram recuperados para avaliar o estádio da maturação nuclear. Todos os oócitos do grupo saralasina (n=12) estavam no estádio de vesícula germinativa (VG) 15 horas após a administração IM de um agonista do GnRH enquanto que no grupo controle (n=13) os oócitos estavam no estádio de RVG (30,8%) ou Metáfase I (MI; 69,2%; P<0,001). Em outro experimento, oócitos foram co-cultivados com metades foliculares durante 15 horas para avaliar a participação das prostaglandinas como mediadores do efeito da AngII sobre o reinício da meiose. O efeito inibitório causado pelas células foliculares sobre a maturação nuclear do oócito foi prevenido pela adição de 100pM de AngII ao meio de cultivo (26,6% de MI sem AngII vs. 77,5% de MI com AngII; P<0,001). Entretanto, quando um inibidor não seletivo da COX (10μM de indometacina) foi adicionado ao sistema de cultivo contendo AngII e metades foliculares, os oócitos atingiram MI em uma percentagem (13,4%) significativamente mais baixa que sem indometacina (P<0,001). Além disso, quando 1μM de PGE2 ou PGF2α foram adicionados ao sistema de co-cultivo in vitro com metades foliculares, a taxa de maturação nuclear dos oócitos seguiu o mesmo padrão observado na presença de AngII (PGE2 77,4%, PGF2α 70,0% e AngII 75,0% de MI). Portanto, este estudo demonstra que o reinício da meiose em oócitos bovinos, induzido pelo pico ovulatório de LH, requer AngII, e que as prostaglandinas E2 e F2α participam dessa ação.

Angiotensina II

Saralasina

Maturação nuclear

Injeção intrafolicular

PGE2

PGF2α

Angiotensin II

Saralasin

Nuclear maturation

Intrafollicular injection

PGE2

PGF2α

Efeito da utilização de uma dose adicional de dinoprost trometamina em protocolos de IATF em vacas Nelore

Noronha, Isabella Marconato

January 2020

Orientador: José Luiz Moraes Vasconcelos / Resumo: O objetivo deste estudo foi avaliar se vacas Nelore, que receberam duas doses de PGF2α em protocolos de IATF a base de progesterona e estradiol, teriam melhor fertilidade em comparação a uma dose de PGF2α. Foram realizados 2 experimentos em que os animais receberam o protocolo de IATF: dispositivo intravaginal de P4 (CIDR) e 2,0 mg benzoato de estradiol (i.m., 2 ml Gonadiol®, Zoetis), no d-11, dinoprost trometamina (PGF2α; i.m., 2,5 ml Lutalyse®, Zoetis) no d-4, retirada do dispositivo de P4, 0,6 mg de cipionato de estradiol (i.m., 0,3 ml ECP®, Zoetis) e 300 UI de eCG (i.m., 1,5 ml Novormon®, Zoetis) no d-2, e IATF no d0. No experimento 1, as vacas (n=1.039) foram divididas aleatoriamente para receber uma ou duas doses de PGF2α, sendo a primeira no d-4 e a segunda no d-2. No experimento 2, foram avaliadas 1.051 fêmeas Nelore, permanecendo para as análises deste estudo apenas fêmeas que não apresentaram um CL no d-4 (momento da primeira PGF2α; n=934), os tratamentos foram os mesmos descritos no experimento 1. Foi fixado um dispositivo para avaliar a expressão do cio (Estrotect®) no d-2, avaliado o diâmetro folicular no d0, as colheitas de sangue foram realizadas no d0 e d7, para dosagem de P4. O diagnóstico de gestação (DG) foi realizado 30 dias após IA. No experimento 1, a taxa de prenhez foi maior para os animais do grupo 2PG (54,5% vs. 46,6%; P = 0,01) em relação a 1PG. No experimento 2, a taxa de sincronização e a taxa de prenhez foram maiores no grupo 2PG, (81,4% vs. 72,1... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The aim of this study was to evaluate whether Nelore cows that received two doses of PGF2α in progesterone and estradiol-based TAI protocols would have better fertility compared to one dose of PGF2α. Two experiments were performed in which the animals received an TAI protocol: intravaginal P4 device (CIDR) and 2.0 mg estradiol benzoate (i.m., 2 ml Gonadiol®, Zoetis) at d-11, dinoprost tromethamine (PGF2α; i.m., 2 , 5 ml Lutalyse®, Zoetis) at d-4, P4 device withdrawal, 0.6 mg estradiol cypionate (i.m., 0.3 ml ECP®, Zoetis) and 300 IU eCG (i.m., 1.5 ml Novormon®, Zoetis) at d-2, and AI at d0. In experiment 1 the animals (n = 1,039) were randomly assigned to receive one or two doses of PGF2α, the first on d-4 and the second on d-2. In experiment 2, 1,051 Nelore cows were used, and remaining for the analysis of this study only females without CL on d-4 (moment of first PGF2α; n=934), the treatments were the same as described in experiment 1. A device was fixed to evaluate estrus expression (Estrotect®) at d-2, measured follicular diameter at d0, blood samples were collected at d0 and d7 for P4 dosage. The pregnancy diagnosis was made 30 days after AI. In experiment 1, the pregnancy rate was higher for animals in group 2PG (54.5% vs. 46.6%; P = 0.01) compared to 1PG. In experiment 2, synchronization rate and pregnancy rate were higher in group 2PG (81.4% vs. 72.1%; [P = 0.01] and 55.5% vs. 45.6%; [P = 0.04], respectively) only in animals with BCS < 5.0 (scale from 1 to 9). In anim... (Complete abstract click electronic access below) / Mestre

Protocolos de IATF

Vacas Nelore

Dinoprost trometamina

PGF2

TAI protocol

Nelore cows

Dinoprost tromethamine

PGF2α

Oxidative Stress, Angiogenesis and Inflammation in Normal Pregnancy and Postpartum

Palm, Maria

January 2012

The aims were to investigate oxidative stress (I), angiogenesis (II) and inflammation (III-IV) in healthy women during pregnancy and postpartum. Oxidative stress was estimated by measurement of 8-iso-PGF2α and the antioxidants α- and γ-tocopherol. The angiogenic factors PlGF, VEGF-A and the antiangiogenic factor sFlt1 were measured to estimate angiogenesis. PTX3, IL-6, TNF-α and a PGF2α metabolite were measured to estimate inflammation. Out of 52 included women, 15 had minor pregnancy complications and 37 were classified as normal. In study III data from all 52 women were used. For the other studies (I, II and IV) only data from the 37 women with normal pregnancy were used. Pregnancy was associated with increased levels of 8-iso-PGF2α with advancing gestational age. The median postpartum value corresponded to values observed in early gestation and a significant decrease was observed from late pregnancy to postpartum. Lipid-adjusted α- and γ-tocopherol levels decreased with advancing gestational age (I). PlGF increased from early pregnancy until weeks 29–30 and thereafter decreased until week 40. sFlt1 levels were relatively constant until weeks 29–30, when they increased, reaching a peak at weeks 39–40. Postpartum levels were low. The sFlt1:PlGF ratio decreased from weeks 9–12, was constantly low from weeks 19–20 to 37–38 and then increased to weeks 39–40. VEGF-A was detectable in only 8 % of the samples during pregnancy and in 64 % postpartum (II). There was a continuous increase of PTX3 as pregnancy progressed. The increase was most evident after week 31 with the highest levels just before delivery (III). IL-6 increased throughout pregnancy and remained high postpartum. No change in TNF-α could be seen with advancing gestational age or postpartum. The PGF2α metabolite levels increased throughout pregnancy and decreased postpartum (IV). In conclusion, normal pregnancy is associated with mild oxidative stress and inflammation. This might have physiological effects for normal pregnancy development. By delineating how these mediators of oxidative stress, angiogenesis and inflammation fluctuate throughout normal pregnancy and postpartum, we have established a reference for studies of these factors in pregnancy complications.

Angiogenesis

inflammation

IL-6

F2-isoprostanes

oxidative stress

Pentraxin 3

PGF2α

PlGF

pregnancy

sFlt1

TNF-α

VEGF-A

Rôle des aldose réductases dans la physiologie du tissu adipeux blanc : modèles génétiques murins perte et gain de fonction

Volat, Fanny

18 November 2011

Le développement du tissu adipeux blanc est finement régulé par des facteurs pro- et anti- adipogéniques. Au cours de l'obésité, son expansion conduit à de nombreuses complications métaboliques. A ce jour, peu de données sont disponibles sur les facteurs qui contrôlent négativement son développement. Dans ce contexte, le laboratoire a dirigé ses recherches sur le rôle de l'aldose réductase murine Akr1b7 dans ce tissu. Akr1b7 est exprimée dans la fraction stromale vasculaire du tissu adipeux blanc et possède un effet anti-adipogénique sur les préadipocytes en culture. La réalisation et l'analyse de souris invalidées pour le gène Akr1b7 nous a permis de démontrer que la perte de Akr1b7 entraîne une expansion de la masse adipeuse par une hypertrophie et une hyperplasie des adipocytes associées à une insulino-résistance. Les souris Akr1b7-/- ne sont pas hyperphagiques mais présentent un métabolisme basal réduit. Akr1b7 qui possède une activité prostaglandine synthase, régule le développement excessif du tissu adipeux par deux mécanismes dépendant de la PGF2α à savoir, l'inhibition de l'adipogenèse et de la lipogenèse. D'autre part, nous avons développé un modèle de souris transgéniques sur-exprimant l'aldose réductase humaine AKR1B1 dans le tissu adipeux. Contre toute attente et à l'inverse de Akr1b7, ce modèle montre un effet pro-adipogénique deAKR1B1. Ces données in vivo révèlent des activités inédites et opposées entre différentes isoformes d'aldose réductase et ouvrent de nouvelles pistes pour appréhender les mécanismes contrôlant l'homéostasie adipeuse et ses dérèglements.

Tissu adipeux

PGF2α

Aldose réductases

Adipogenèse

Lipogenèse

Cellular Transport of Prostaglandins in the Ovine Uterus

Lee, Je Hoon

03 October 2013

In ruminants, prostaglandin F2 alpha (PGF2α) is released from the endometrium in a pulsatile pattern at the time of luteolysis. The luteolytic PGF2α pulses are transported from the uterus to the corpus luteum (CL) through the utero-ovarian plexus (UOP) to cause luteolysis. At the time of establishment of pregnancy, interferon tau (IFNT) secreted by the conceptus suppresses the pulsatile release of PGF2α and thereby rescues the CL and maintains its secretion of progesterone. However, basal concentrations of PGF2α are higher in pregnant ewes than in cyclic ewes. The pulsatile release of PGF2α likely requires selective carrier-mediated transport and cannot be supported by a simple diffusion mechanism. The molecular and functional aspects of carrier mediated transport of PGF2α from the uterus to the ovary through the utero- ovarian plexus (UOP) at the time of luteolysis and recognition/establishment of pregnancy are largely unknown ruminants. Results indicate that intrauterine inhibition of (PGT) prevents the pulsatile release of PGF2α independently of spatial expressions of estrogen receptor (ESR-1) and oxytocin receptor (OXTR) proteins by the endometrium at the time of luteolysis in sheep. PGT protein is expressed in the UOP during the estrous cycle and pharmacological inhibition of PGT prevents transport of luteolytic PGF2α pulse through the UOP in sheep. IFNT activates novel JAK-SRC-EGFR-RAS-RAF-ERK1/2-EGR-1 signaling modules in endometrial luminal epithelial (LE) cells and regulates PGT- mediated release of PGF2α through these novel cell-signaling pathways. IFNT stimulates ERK1/2 pathways in endometrial LE cells and inhibition of ERK1/2 inhibits IFNT action and restores spatial expression of OXTR and ESR-1 proteins in endometrial LE cells and restores endometrial luteolytic pulses of PGF2α in sheep. Collectively, the results of the present study provide the first evidence to indicate that transport of endometrial luteolytic PGF2α pulses from the uterus to the ovary through the UOP is controlled by a PGT-mediated mechanism in sheep, new mechanistic insight into molecular mechanisms regulating cellular and compartmental transport of PGF2α at the time of luteolysis, and new mechanistic understanding of IFNT action and release of PGF2α from the endometrial LE cells and thus opens a new arena of research in IFNT signaling and PGT function.

prostaglandin F2 alpha (PGF2α)

prostaglandin transporter (PGT)

utero-ovarian plexus (UOP)

corpus luteum (CL)

luteolysis

interferon tau (IFNT)

PGT-mediated mechanism

endometrium

ruminants

Insights Into The Mechanism Of Actions Of Luteinizing Hormone And Prostaglandin F2α In The Regulation Of Corpus Luteum Function Of Monoovulatory Species

Shah, Kunal B

07 1900

Corpus luteum (CL), a transient endocrine structure formed from the ruptured ovarian follicle after ovulation, secretes progesterone (P4) that is essential for establishment and maintenance of pregnancy in mammals. The biosynthesis and secretion of P4 from CL depends, in general, on trophic hormones of the anterior pituitary gland and on hormones or factors originating from ovary, uterus, embryo and placenta. The structure and function of CL tissue is regulated by intricate interplay between two types of factors, namely, the luteotrophic factors, which stimulate CL growth and function, i.e., P4 secretion, and the luteolytic factors, which inhibit CL function and lead to luteal regression. In monoovulatory species such as higher primates and bovines, a striking diversity in the regulation of CL function exists not only between species, but also within the species during different stages of the luteal phase. In higher primates, unlike other species, one of the important characteristics of CL regulation is that, during non-fertile cycle, circulating LH appears to be the sole trophic factor responsible for maintenance of its function, and during fertile cycle, chorionic gonadotropin (CG), an LH analogue, originating from placenta maintains CL function. In higher primates, the role/involvement of luteolytic factors during luteolysis remains elusive. On the other hand, in the bovine species, the role/involvement of luteolytic factor, prostaglandin (PG) F2α during luteolysis is well established. It should be pointed out that in both the species, the mechanism of luteolysis is still poorly understood and the work presented in this thesis attempts to address these lacunae. Further, in bovines, studies have been carried out to examine potential trophic factor(s) responsible for the maintenance of CL function. Chapter I provides an extensive review of literature on CL structure and function with emphasis on factors that influence its growth, development, function and demise in primates and bovines. In Chapter II, employing bonnet monkey (Macaca radiata) as the representative animal model for higher primates, various studies have been conducted to examine the role of molecular modulators involved in regulation of CL function, particularly during spontaneous luteolysis. Although, it is well established that LH is essential for the maintenance of CL function in higher primates, the mechanism(s) responsible for the decline in serum P4 levels at the end of non-fertile cycles, without a concomitant change in circulating LH milieu, remains to be addressed. Several experiments have been conducted to examine the component(s) of luteotrophic (LH/CG) signaling that is/are modulated during luteolysis in the bonnet monkey CL. To understand the relative lack of responsiveness of CL to the circulating LH during the late luteal phase, LH/CG receptor (R) dynamics (expression of LH/CGR and its various transcript variants) was examined throughout the luteal phase and during different functional states of the monkey CL. The results indicated presence of LH/CGR mRNA, its transcript variants and functional LH/CGR protein in the monkey CL on day 1 of menses. Moreover, the functionality of receptors was tested by confirming the biological response of the CL to bolus administration of exogenous LH preparations, which eventually suggested factor(s) downstream of LH/CGR activation to account for the decline in CL function observed during non-fertile cycle. Studies have been conducted to identify molecular modulators that would selectively exploit intraluteal processes to regulate trophic signaling pathways that are critical to the control of luteal function. Immunoblot and qPCR analyses were carried out to examine presence and activation of Src family of kinases (SFKs) and cAMP-phosphodiesterases (PDEs) during various functional states of CL. The results revealed an increased activation of Src (phosphorylated at Tyr 416) during spontaneous and PGF2α/CET-induced luteolysis that may participate in the regulation of cAMP levels in part by increasing the cAMP-PDE activity observed during spontaneous luteolysis. This observation raised the question on the possible mechanism by which CG, an analog of pituitary LH, rescues CL function during early pregnancy. Thus, subsequent experiments involving LH/hCG administration in CET-treated animals as well as simulated early pregnancy animal model were conducted and the results revealed that, a bolus of LH/hCG decreased Src activation and cAMP-PDE activity accompanying a momentous increase in cAMP levels in both these models that further led to a concomitant increase in P4 secretion. Although the mechanisms of action of LH/CG involve modulation of a number of signaling pathways in the CL, by far, the results from various experiments suggested that it leads to activation of Src kinase and cAMP-PDE, thus causing inhibition of various elements of the primary signaling cascade- AC/cAMP/PKA/CREB during spontaneous luteolysis. One of the consequences of activation of Src kinase and cAMP-PDE was the regulation of expression of genes associated with steroidogenesis and it was observed that expression of SR-B1, a membrane receptor associated with trafficking of HDL-CE into the luteal cells, was lower in the regressed CL. The results taken together suggest that the decrease in responsiveness of CL to LH milieu during non-fertile cycles is not associated with changes in LH/CGR dynamics, but, is instead coupled to the activation of Src kinase and cAMP-PDE, inhibition of molecules downstream of LH signaling, and a decrease in the SR-B1 expression that regulates cholesterol economy of the luteal cell, and in turn, P4 secretion. The control of primate CL function appears to be dominated by the luteotrophic factors (LH/CG) over the luteolytic factors, since the process of luteal regression was overcome by administration of LH/CG. Further, in the primate CL, the molecular modulators of LH/CG signaling (Src kinase and PDE) are maintained in the repressed state by the luteotrophic factor LH/CG for maximum steroidogenic function. In contrast, in non-primate species, without invoking a role for the luteotrophic factor, essentially the synthesis and secretion of luteolytic factor, PGF2α, from the uterus is kept in check during pregnancy by the trophoblast derived IFN- and thus allowing CL to continue to function that is essential for maintenance of pregnancy. In the bovine species, the mechanism of PGF2α-induced luteolysis that involves a change in expression of genes associated with various processes of cellular function is poorly understood. Experiments were conducted utilizing buffalo cows (Bubalus bubalis) as a model system, to determine temporal changes in the global gene expression profile of the CL in response to PGF2α treatment. For this purpose, CL tissues were collected on day 11 of estrous cycle without treatment (designated as 0 h) and at 3, 6 and 18 h post PGF2α treatment for various analyses. Global changes in gene expression pattern in the CL were investigated employing Affymetrix GeneChip bovine genome array and the results are presented in Chapter III. The hybridization intensity values obtained by microarray analysis were subjected to R/Bioconductor tool. Following the application of highly stringent statistical filters to eliminate false positives, a set of differentially expressed genes were identified. The differentially expressed genes were further classified based on a fold change cut-off filter of ≥2, and the analysis revealed 127 genes to be differentially expressed within 3 h of PGF2α administration, of these 64 and 63 genes were up-regulated and down-regulated, respectively. Analysis of microarray data at 6 h post PGF2α administration revealed 774 genes to be differentially expressed, of which 544 genes were up-regulated, while 230 genes were down-regulated. The microarray analysis performed on CL tissues collected at 18 h post PGF2α administration showed that out of the total 939 differentially expressed genes, 571 genes were up-regulated, while 368 genes were down-regulated. Analysis of the ontology report for the biological processes category showed that initially in response to PGF2α administration, genes regulating steroidogenesis, cell survival and transcription were differentially regulated in the CL, but at later time points, differential expression of genes involved in apoptosis, PGF2α metabolism, tissue remodeling and angiogenesis was observed. Further, involvement of molecules downstream of LH/IGF-1 activation was investigated and the results obtained indicated that PGF2α interfered with the LH/IGF-1 signaling since the expression of LH/CGR, GHR and pAkt were down-regulated following PGF2αadministration. Furthermore, the functional luteolysis observed post PGF2αadministration appeared to be due to an interruption in cholesterol trafficking to inner mitochondrial membrane, since StAR expression was inhibited. The results obtained also demonstrated that the expression of AGTR1, VEGFR2 and R3 were down-regulated following PGF 2α administration. Further, the data obtained also suggested modulation of expression of pro- and anti-angiogenic factors upon PGF2α-treatment indicative of an involvement of other autocrine or paracrine factor(s) in the regression of bovine CL. This was an interesting finding as it suggests a novel and potential functional relationship between angiogenesis and the luteolytic response of CL to PGF2α administration. In bovines, despite extensive research being carried out to examine factors involved in the regulation of development and function of the CL, the trophic factor(s) required for maintenance of CL function, especially, P4 biosynthesis and secretion are not well characterized. It was hypothesized that the function of the CL during its finite lifespan must be responsive to LH as well as to various growth factors. Thus, experiments were conducted to examine the effects of increased LH and GH/IGF-I on the maintenance of CL function during mid luteal phase and post PGF2α administration and the results of these studies are presented in Chapter IV. To elucidate the role of LH as a trophic factor in the regulation of CL function, effects of increased endogenous LH through GnRH administration and exogenous hCG injections were examined. The results indicated an absence of noticeable effect of various hCG/GnRH treatments on circulating P4 levels. On the other hand, administration of GH resulted in increased serum IGF-1 and P4 levels. It was further observed that the administration of a combination of hCG and GH increased serum P4 levels better than treatment with GH alone. Further experiments were carried out to examine the complex reciprocal relationship between LH/GH and PGF2α on expression of genes involved in the regulation of luteal structure and function. In buffalo cows, administration of exogenous hCG and/or GH following inhibition of CL function by PGF2α administration did not prevent the PGF2α-induced decline in serum P4 levels, but PGF2-mediated decrease in expression of LH/CGR and GHR genes was prevented upon GH administration. However, the decrease in StAR expression was not restored by hCG and GH treatments, thereby indicating that PGF2 action was not prevented by hCG and/or GH treatments. Taken together, the results of studies carried out in buffalo cows employing various experimental model systems suggest essential role for LH and GH/IGF-1, however, these factors were unable to reverse PGF2α-induced luteolysis. Further, our crucial findings of the effects of increased endogenous LH and IGF-1, in addition to their relationship with luteolytic agents such as PGF2α will open new avenues for studying the mechanisms involved in the regulation of structural and functional properties of the buffalo CL. It is well known that a large number of buffalo cows experience loss of pregnancy and infertility due to inadequate luteal function and/or failure of timely insemination. Results from our studies suggest that the incorporation of PGF2α and hCG or GH/IGF-1 protocols in buffalo cows to be beneficial for improving their breeding efficiency as these protocols are likely to increase luteal function with defined luteolysis. To summarize, the results of studies described in the present thesis provide new insights into the physiological and molecular mechanisms involved in the regulation of CL function during luteolysis in the monoovulatory species. The results suggest that the maintenance of CL function appears to be dependent on both luteotrophic and luteolytic factors, but with a varied degree of dominance between the two species examined. Further, the results indicate that while the luteotrophic factors (LH/CG) dominate the CL regulation in primates, the regulation of CL function in bovines is dominated by the actions of luteolytic factor (PGF2α). In monoovulatory species, the luteotrophic and luteolytic factors following binding to their specific plasma membrane receptors on the luteal cells, would counteract each other and modulate activation of various downstream signaling molecules subsequently leading to regulation of gene expression and P4 secretion (Fig.5.1). LH: luteinizing hormone; CG: chorionic gonadotropin; LH/CGR: LH/CG receptor; Gαs: stimulatory α-subunit of trimeric G-protein; AC: adenylate cyclase; cAMP: cyclic adenosine monophosphate; PKA: protein kinase A; p: phosphorylation: CREB: cAMP response element binding protein; SR-B1: scavenger receptor class B, type I; SF-1: steroidogenic factor 1; LRH-1: liver receptor homologue 1; P4; progesterone; Src; sarcoma; PDE4D: cAMP phosphodiesterase 4D; StAR, steroidogenic acute regulatory protein; PGF2α: prostaglandin F2α; PTGFR: PGF2α receptor; PLC: phospholipase C; CYP19A1: cytochrome P450 aromatase; PTGR1: Prostaglandin reductase 1; AREG: Amphiregulin; RTK: receptor tyrosine kinase; Akt: protein kinase B; FKHR: forkhead transcription factor; DAPL1: death associated protein like 1; ARG2: Arginase, type II Growth factor LH/CGR RR AC Gαs ? Gα TT P? Gα K PKP src cAMP ? P Akt PDE4D P PFKHR FKHR CREB P LRH-1CREB P SF-1 Genes associated with Genes associated with apoptosis ? CYP19A1, apoptosis SR-B1 PTGR1 DAPL1 SF-1, LRH-1 AREG ARG 2 P4 biosynthesis Apoptosis? P4 biosynthesis Apoptosis MONKEY BUFFALO COW Shown here is the diagram depicting intracellular signaling pathways regulated by luteotrophic factor (LH) and luteolytic factor (PGF2α) and their cross talk to counteract changes in the expressions of genes associated with the biosynthesis and secretion of P4 and apoptosis in the CL. In primates, LH/CG activates a multitude of intracellular signaling cascades, primarily Gαs/AC/cAMP/PKA/CREB leading to changes in gene expression. LH during early and mid luteal phase and CG during pregnancy maintain the activation of Src and PDE in an inhibitory state. However, during the late luteal phase of non-fertile cycle, results in present study suggests that activated Src levels and PDE activity increase, with accompanying decrease in cAMP and pCREB levels leading to concomitant decrease in SR-B1 expression, and in turn, P4 secretion. Surprisingly, regulation of apoptotic gene expression and CL regression are still unclear. In bovines, PGF2α of uterine origin mediates changes in luteal gene expression and results in decreased P4 secretion, principally by reduction in StAR level. The present study suggests that during luteolysis PGF2α affects the genes regulated by LH, by interfering with LH (and perhaps IGF-1) signaling leading to alteration in the expression of genes crucial for CL structure and function. (Pl refer the abstract file for figures)

Corpus Luteum (CL)

Luteolysis

Monkey - Luteolysis

Corpus Luteum - Signaling

Buffalo Cows - Luteolysis

Monoovulation

Luteinizing Hormones

Reproductive System - Hormones

Prostaglandins

Gonadotropin Receptor-Mediated Signaling

Chorionic Gonadotropin (CG)

PGF2α

Physiology