An Exploration of Female Reproductive Plasticity in the Context of Strange Male Exposure and Stress in Mice (Mus musculus)

Thorpe, Joelle B.

10 1900

<p>Females experience reproductive plasticity in several situations. Under stress, females can experience implantation failure. In the presence of unfamiliar males, females can also experience implantation failure (Bruce effect), or hastened sexual maturation (Vandenbergh effect). Sexual maturation and implantation failure are also induced by 17β-estradiol (E₂). Male mice excrete E₂ in their urine; furthermore, stress can increase endogenous E₂ in females. Accordingly, I explored the role of male urinary E₂ in the Bruce and Vandenbergh effects, and examined E₂ and progesterone (P₄) during stress-induced implantation failure in mice. I showed that a male mouse’s ability to induce the Bruce and Vandenbergh effects depends on his urinary E₂, as castration removed this ability,and injections of E₂ restored it and urinary E₂ levels. I also developed urinary measurements of the stress hormone, corticosterone, for use in subsequent stress studies. I showed that serum and urinary corticosterone follow a similar circadian rhythm, and that urinary corticosterone responds appropriately to acute stress in male mice. Also, urinary and serum corticosterone, P₄, and E₂ in female mice show similar responses to stress, with slightly different time courses. Lastly, I showed that rat-exposure is stressful and causes implantation failure in female mice. Furthermore, P₄ suppressed and E₂ is elevated in stressed females losing their pregnancies. Exogenous P₄ did not mitigate stress-induced pregnancy failure, unless it was combined with a low dose of E₂. Taken together, I suggest that exogenous and endogenous E₂ contribute to reproductive plasticity in female mice, particularly their ability to abandon early pregnancy.</p> / Doctor of Philosophy (PhD)

endocrinology

stress

reproduction

implantation

estradiol

progesterone

corticosterone

Biological Psychology

Biology

Endocrinology

Physiology

Biological Psychology

Utilization of early weaning and intrafollicular insemination as methods to improve the reproductive performance of cattle

Zezeski, Abigail Lee

30 January 2015

Optimization of reproductive efficiency of both beef and dairy herds is critical for sustainability and profitability. Two separate experiments were performed to test the reproductive outcomes following early weaning of beef heifers and intrafollicular insemination in dairy cows. Early weaning is a proven way to induce precocious puberty in heifers. Heifers will experience more estrous cycles before breeding, which is associated with increased fertility. In this experiment, heifers were either subjected to early weaning and a high concentrate diet (EW; 106.5±3.4 days of age) or normal weaning (NW; 231.7±3.33 days of age) treatments. Despite no effect (P>0.15) of weaning treatment on age at puberty, EW heifers tended to have higher pregnancy rates than NW heifers. A progesterone clearance analysis revealed that EW heifers also have greater ability to metabolize progesterone. This altered progesterone metabolism could be a direct result of changes in metabolism caused by feeding a high concentrate diet after early weaning. Pregnancy rates in cattle are often lower than desired. New reproductive advances are constantly developed to improve reproductive function. A recently described possible technique is intrafollicular insemination (IFI). The objective of the second experiment was to investigate whether IFI can cause fertilization. Abattoir ovaries with dominant follicles injected with semen and incubated overnight displayed sperm in close association with granulosa cells. When synchronized cows were subjected to IFI, no pregnancies resulted. While other studies have demonstrated success with IFI, it is still unknown if fertilization is possible within the follicle of the ovary. / Master of Science

Early Weaning

Heifers

glucose tolerance test

epinephrine challenge

progesterone clearance test

intrafollicular insemination

Expressão proteíca do gene HOXA10 e dos receptores de estrogênio e progesterona no epitélio, estroma e tecido muscular liso perilesional de endometriose e do reto-sigmoide / HOXA10 as well as estrogen and progesterone receptor protein expression in the epithelium, stroma, and adjacent smooth muscle of rectosigmoid endometriosis.

Zanatta, Alysson

23 July 2013

INTRODUÇÃO: Apesar de a endometriose profunda (EPF) ser a forma da doença de maior repercussão clínica, os estudos sobre a doença costumam ser baseados em lesões de endometriose ovariana (EOV) e peritoneal (EPT). A patogênese da EPF ainda é objeto de amplo debate, pois há poucos estudos feitos exclusivamente com lesões de EPF. O fator de transcrição codificado pelo gene homeobox A10 (HOXA10) regula a conferência de identidade tecidual de útero ao ducto paramesonéfrico indiferenciado durante o período embrionário. O gene mantém um padrão de expressão temporal e espacial bem definido e, durante a fase adulta, continua expresso no miométrio e endométrio. Sugere-se que HOXA10 esteja implicado na patogênese da endometriose, pois é expresso em EOV, EPT, endometriose pulmonar e endometriose retovaginal, um tipo de EPF. Possivelmente, o gene HOXA10 seja necessário para conferir identidade de endometriose a um tecido indiferenciado. O estradiol e a progesterona ativam a transcrição do gene HOXA10 e regulam diretamente sua ação. Esses hormônios estão envolvidos na patogênese da EPF, e suas atividades podem ser inferidas pelo estudo da expressão tecidual de seus receptores. A endometriose de reto-sigmoide (ERS) é um modelo representativo para o estudo da EPF. Neste estudo, avaliamos a expressão proteica do fator de transcrição HOXA10, das isoformas ? (ER-alfa) e beta (ER-beta) dos receptores de estrogênio, e do receptor de progesterona AB (PR-AB) e sua isoforma B (PR-B) na lesão (LES) e no tecido muscular liso perilesional (TMLP) de ERS de pacientes inférteis, durante as fases proliferativa e secretora do ciclo menstrual. MÉTODOS: amostras de LES e TMLP de ERS de 18 pacientes (9 operadas em cada fase do ciclo menstrual) foram agrupadas em blocos de microarranjos de tecidos (tissue microarray). As amostras foram coradas com anticorpos específicos para análise imunoistoquímica de cada uma das proteínas. Foram então avaliadas por microscopia ótica (MO) e pela análise das imagens digitalizadas das lâminas com por um software específico, a análise morfométrica (AM). RESULTADOS: HOXA10 foi expresso no estroma de LES de ERS durante a fase secretora, de acordo com a MO. ER-alfa e ER-betaforam expressos em glândulas e estroma de LES e TMLP de ERS durante ambas as fases do ciclo, de acordo com a MO e a AM. PR-AB e PR-B foram expressos em glândulas e estroma de LES de ERS durante ambas as fases do ciclo, de acordo com a MO. PR-B foi mais expresso durante a fase secretora, independentemente do local de expressão, segundo a AM. A expressão de HOXA10 correlacionou-se diretamente com PR-AB e PR-B na ERS, segundo a AM. Não houve correlação entre ER-alfa e ER-beta com HOXA10, PR-AB ou PR-B em nenhuma fase do ciclo ou local de expressão de ERS. CONCLUSÕES: HOXA10 é expresso em ERS, um local fora do seu eixo espacial de expressão. A presença de HOXA10 pode ser necessária para conferir a identidade \"de novo\" na EPF, incluindo ERS. A progesterona pode ativar o gene HOXA10 e regular esta ação, possivelmente mediada por PR-B. O estradiol exerce sua ação mitógena na ERS através ER-alfa e ER-beta / INTRODUCTION: Although deep endometriosis (DE) is the major clinical form of endometriosis, studies regarding the disease are typically based on ovarian (OE) and peritoneal (PE) lesions. DE pathogenesis is still a matter of great discussion because there are few studies exclusively involving DE lesions. The transcription factor encoded by the homeobox gene A10 (HOXA10) regulates the identity imparted to the undifferentiated paramesonephric duct during embryogenesis. The gene is expressed in the myometrium and endometrium during adult life in a well-defined spatial and temporal mode. It has been suggested that HOXA10 plays a role in endometriosis pathogenesis because it is expressed in OE, PE, pulmonary endometriosis, and rectovaginal endometriosis, which is a clinical form of DE. Thus, HOXA10 may be necessary for \"de novo\" endometrial development from undifferentiated tissues. Both estradiol and progesterone activate HOXA10 transcription and directly regulate its action. These hormones are involved in DE pathogenesis, and therefore their activities could be assessed by studying the tissue expression of their receptors. Rectosigmoid endometriosis (RE) is a representative model for studying DE. In this study, we evaluated the protein expression of HOXA10, the estrogen receptor (ER) isoforms alfa (ER-alfa) and beta (ER-beta), the progesterone receptor AB (PR), and the PR isoform B (PR-B) in lesions (LES) and adjacent smooth muscle (SM) of RE from infertile patients during the proliferative and secretory phases of the menstrual cycle. METHODS: LES and SM samples from RE patients were grouped in tissue microarray blocks. Each of the proteins was analyzed by immunohistochemistry using regular optical microscopy (OM) and a software-assisted analysis of digitalized images as well as morphometric analysis (MA). RESULTS: HOXA10 was expressed in the stroma of the LES during the secretory phase based on OM. ER-alfa and ER-beta were expressed in the glands and stroma of LES and SM during both phases based on OM and MA. PR and PR-B were expressed in the glands and stroma of LES during both phases; however, PR-B had higher expression during the secretory phase, independent of its expression in the LES or SM. HOXA10 expression was directly correlated with PR and PR-B expression in RE. In addition, there was no correlation between the expression of ER-alfa and ER-beta with HOXA10, PR, or PR-B during any phase of the menstrual cycle or site of expression. CONCLUSIONS: HOXA10 is expressed in RE outside of its spatial domain of expression, and may be necessary for \"de novo\" development of DE, including RE. Progesterone might stimulate HOXA10 expression and regulate this action, which is most likely mediated by PR-B. Moreover, estradiol exerts its mitogenic effect in RE though ER-alfa and ER-beta

Deep endometriosis

Endometriose de retosigmoide

Endometriose profunda

Estrogen receptor-alfa

Estrogen receptor-beta

Gene HOXA10

HOXA gene

Progesterone receptor-B

Progesterone receptor

Receptor de estrogênio alfa

Receptor de estrogênio beta

Receptor de progesterona

Receptor de progesterona B

Rectosigmoid endometriosis

Expressão proteíca do gene HOXA10 e dos receptores de estrogênio e progesterona no epitélio, estroma e tecido muscular liso perilesional de endometriose e do reto-sigmoide / HOXA10 as well as estrogen and progesterone receptor protein expression in the epithelium, stroma, and adjacent smooth muscle of rectosigmoid endometriosis.

Alysson Zanatta

23 July 2013

INTRODUÇÃO: Apesar de a endometriose profunda (EPF) ser a forma da doença de maior repercussão clínica, os estudos sobre a doença costumam ser baseados em lesões de endometriose ovariana (EOV) e peritoneal (EPT). A patogênese da EPF ainda é objeto de amplo debate, pois há poucos estudos feitos exclusivamente com lesões de EPF. O fator de transcrição codificado pelo gene homeobox A10 (HOXA10) regula a conferência de identidade tecidual de útero ao ducto paramesonéfrico indiferenciado durante o período embrionário. O gene mantém um padrão de expressão temporal e espacial bem definido e, durante a fase adulta, continua expresso no miométrio e endométrio. Sugere-se que HOXA10 esteja implicado na patogênese da endometriose, pois é expresso em EOV, EPT, endometriose pulmonar e endometriose retovaginal, um tipo de EPF. Possivelmente, o gene HOXA10 seja necessário para conferir identidade de endometriose a um tecido indiferenciado. O estradiol e a progesterona ativam a transcrição do gene HOXA10 e regulam diretamente sua ação. Esses hormônios estão envolvidos na patogênese da EPF, e suas atividades podem ser inferidas pelo estudo da expressão tecidual de seus receptores. A endometriose de reto-sigmoide (ERS) é um modelo representativo para o estudo da EPF. Neste estudo, avaliamos a expressão proteica do fator de transcrição HOXA10, das isoformas ? (ER-alfa) e beta (ER-beta) dos receptores de estrogênio, e do receptor de progesterona AB (PR-AB) e sua isoforma B (PR-B) na lesão (LES) e no tecido muscular liso perilesional (TMLP) de ERS de pacientes inférteis, durante as fases proliferativa e secretora do ciclo menstrual. MÉTODOS: amostras de LES e TMLP de ERS de 18 pacientes (9 operadas em cada fase do ciclo menstrual) foram agrupadas em blocos de microarranjos de tecidos (tissue microarray). As amostras foram coradas com anticorpos específicos para análise imunoistoquímica de cada uma das proteínas. Foram então avaliadas por microscopia ótica (MO) e pela análise das imagens digitalizadas das lâminas com por um software específico, a análise morfométrica (AM). RESULTADOS: HOXA10 foi expresso no estroma de LES de ERS durante a fase secretora, de acordo com a MO. ER-alfa e ER-betaforam expressos em glândulas e estroma de LES e TMLP de ERS durante ambas as fases do ciclo, de acordo com a MO e a AM. PR-AB e PR-B foram expressos em glândulas e estroma de LES de ERS durante ambas as fases do ciclo, de acordo com a MO. PR-B foi mais expresso durante a fase secretora, independentemente do local de expressão, segundo a AM. A expressão de HOXA10 correlacionou-se diretamente com PR-AB e PR-B na ERS, segundo a AM. Não houve correlação entre ER-alfa e ER-beta com HOXA10, PR-AB ou PR-B em nenhuma fase do ciclo ou local de expressão de ERS. CONCLUSÕES: HOXA10 é expresso em ERS, um local fora do seu eixo espacial de expressão. A presença de HOXA10 pode ser necessária para conferir a identidade \"de novo\" na EPF, incluindo ERS. A progesterona pode ativar o gene HOXA10 e regular esta ação, possivelmente mediada por PR-B. O estradiol exerce sua ação mitógena na ERS através ER-alfa e ER-beta / INTRODUCTION: Although deep endometriosis (DE) is the major clinical form of endometriosis, studies regarding the disease are typically based on ovarian (OE) and peritoneal (PE) lesions. DE pathogenesis is still a matter of great discussion because there are few studies exclusively involving DE lesions. The transcription factor encoded by the homeobox gene A10 (HOXA10) regulates the identity imparted to the undifferentiated paramesonephric duct during embryogenesis. The gene is expressed in the myometrium and endometrium during adult life in a well-defined spatial and temporal mode. It has been suggested that HOXA10 plays a role in endometriosis pathogenesis because it is expressed in OE, PE, pulmonary endometriosis, and rectovaginal endometriosis, which is a clinical form of DE. Thus, HOXA10 may be necessary for \"de novo\" endometrial development from undifferentiated tissues. Both estradiol and progesterone activate HOXA10 transcription and directly regulate its action. These hormones are involved in DE pathogenesis, and therefore their activities could be assessed by studying the tissue expression of their receptors. Rectosigmoid endometriosis (RE) is a representative model for studying DE. In this study, we evaluated the protein expression of HOXA10, the estrogen receptor (ER) isoforms alfa (ER-alfa) and beta (ER-beta), the progesterone receptor AB (PR), and the PR isoform B (PR-B) in lesions (LES) and adjacent smooth muscle (SM) of RE from infertile patients during the proliferative and secretory phases of the menstrual cycle. METHODS: LES and SM samples from RE patients were grouped in tissue microarray blocks. Each of the proteins was analyzed by immunohistochemistry using regular optical microscopy (OM) and a software-assisted analysis of digitalized images as well as morphometric analysis (MA). RESULTS: HOXA10 was expressed in the stroma of the LES during the secretory phase based on OM. ER-alfa and ER-beta were expressed in the glands and stroma of LES and SM during both phases based on OM and MA. PR and PR-B were expressed in the glands and stroma of LES during both phases; however, PR-B had higher expression during the secretory phase, independent of its expression in the LES or SM. HOXA10 expression was directly correlated with PR and PR-B expression in RE. In addition, there was no correlation between the expression of ER-alfa and ER-beta with HOXA10, PR, or PR-B during any phase of the menstrual cycle or site of expression. CONCLUSIONS: HOXA10 is expressed in RE outside of its spatial domain of expression, and may be necessary for \"de novo\" development of DE, including RE. Progesterone might stimulate HOXA10 expression and regulate this action, which is most likely mediated by PR-B. Moreover, estradiol exerts its mitogenic effect in RE though ER-alfa and ER-beta

Endometriose de retosigmoide

Endometriose profunda

Gene HOXA10

Receptor de estrogênio alfa

Receptor de estrogênio beta

Receptor de progesterona

Receptor de progesterona B

Deep endometriosis

Estrogen receptor-alfa

Estrogen receptor-beta

HOXA gene

Progesterone receptor-B

Progesterone receptor

Rectosigmoid endometriosis

Estudo de hormônios sexuais em células foliculares de tireoide humana em cultura primária

Santin, Ana Paula

January 2012

Os mecanismos etiopatogênicos que levam ao desenvolvimento dos nódulos e tumores da tireoide ainda não são bem conhecidos. É fato estabelecido que a prevalência dessas lesões é maior nas mulheres. Dessa forma, o que nos motivou a realizar esta Tese foi avaliar se os hormônios sexuais femininos tem efeito direto sobre as células de tireoide humanas normais podendo contribuir para a sua etiopatogenia. Este estudo teve como objetivos padronizar um modelo de cultura primária de células foliculares de tireoide humana normal e nesse modelo validar um gene normalizador após tratamento com estradiol e progesterona, avaliar os efeitos da progesterona na expressão dos genes NIS, TG e TPO bem como avaliar a expressão gênica e proteíca e a possível localização intracelular do receptor de membrana GPR30 nestas células. Em nosso modelo de cultura primária em monocamada, as células foliculares mantiveram sua morfologia cubóide característica e permaneceram diferenciadas o que foi evidenciado pela dosagem de tireoglobulina e T4 livre, no sobrenadante do meio de cultura, e pela identificação das proteínas TG e TPO por imunocitoquímica. A estimulação com progesterona aumentou a expressão dos genes NIS, TG e TPO, respectivamente, 1.78 (p=0.003), 1.50 (p=0.034) e 1.64 (p=0.018) vezes, quando comparadas ao grupo tratado somente com TSH. Essa estimulação da progesterona foi inibida por mifepristona sugerindo que a progesterona tem efeito direto nas células foliculares da tireoide e que esse efeito é mediado por seu receptor nuclear. A normalização da expressão gênica foi realizada pelo gene β-actina, o qual demonstrou uma maior estabilidade entre os grupos analisados. Demonstramos também que as células normais da tireoide expressam tanto o gene como a proteína do receptor de membrana GPR30 com possível localização na membrana celular e no espaço perinuclear. / The mechanisms leading to the development of thyroid nodules and tumors are not well established. As these lesions are more common in women, female sex hormones could be involved in the pathogenesis of these disorders. The objectives of this study were to establish a model of primary culture of normal human thyroid follicular cells, to validate a normalizing gene for qRT-PCR after treatment with estradiol and progesterone, to evaluate the effects of progesterone on the expression of genes NIS, TG and TPO, and to evaluate the GPR30 gene and protein expression as well as its possible intracellular location, in these cells. In our model of primary monolayer culture, follicular cells maintained their characteristic cuboid differentiated morphology; and had evidence of differentiated thyroid function: the production of thyroglobulin and free T4, and identification of TG and TPO proteins by immunocytochemistry . Adding progesterone to TSH increased NIS, TG and TPO mRNA, respectively, 1.78 (p=0.003), 1.50 (p=0.034) and 1.64 (p=0.018) folds, compared to the group treated with only TSH. This stimulation was inhibited by mifepristone, suggesting that progesterone has a direct effect on the thyroid follicular cells. Normalization of gene expression was performed using β-actin as reference gene. We have also demonstrated that normal thyroid cells expressed GPR30 gene and protein, which is possibly localized in the plasma membrane and the perinuclear region.

Glândula tireóide

Cultura primária de células

Células dendríticas foliculares

Hormônios gonadais

Thyroid

Primary culture

Follicular thyroid cell

Thyroperoxidase

Thyroglobulin

Sodium/iodide simporter

Reference gene

Progesterone

Estradiol

Progesterone receptor

Estrogen receptor

GPR30

Estudo de hormônios sexuais em células foliculares de tireoide humana em cultura primária

Santin, Ana Paula

January 2012

Os mecanismos etiopatogênicos que levam ao desenvolvimento dos nódulos e tumores da tireoide ainda não são bem conhecidos. É fato estabelecido que a prevalência dessas lesões é maior nas mulheres. Dessa forma, o que nos motivou a realizar esta Tese foi avaliar se os hormônios sexuais femininos tem efeito direto sobre as células de tireoide humanas normais podendo contribuir para a sua etiopatogenia. Este estudo teve como objetivos padronizar um modelo de cultura primária de células foliculares de tireoide humana normal e nesse modelo validar um gene normalizador após tratamento com estradiol e progesterona, avaliar os efeitos da progesterona na expressão dos genes NIS, TG e TPO bem como avaliar a expressão gênica e proteíca e a possível localização intracelular do receptor de membrana GPR30 nestas células. Em nosso modelo de cultura primária em monocamada, as células foliculares mantiveram sua morfologia cubóide característica e permaneceram diferenciadas o que foi evidenciado pela dosagem de tireoglobulina e T4 livre, no sobrenadante do meio de cultura, e pela identificação das proteínas TG e TPO por imunocitoquímica. A estimulação com progesterona aumentou a expressão dos genes NIS, TG e TPO, respectivamente, 1.78 (p=0.003), 1.50 (p=0.034) e 1.64 (p=0.018) vezes, quando comparadas ao grupo tratado somente com TSH. Essa estimulação da progesterona foi inibida por mifepristona sugerindo que a progesterona tem efeito direto nas células foliculares da tireoide e que esse efeito é mediado por seu receptor nuclear. A normalização da expressão gênica foi realizada pelo gene β-actina, o qual demonstrou uma maior estabilidade entre os grupos analisados. Demonstramos também que as células normais da tireoide expressam tanto o gene como a proteína do receptor de membrana GPR30 com possível localização na membrana celular e no espaço perinuclear. / The mechanisms leading to the development of thyroid nodules and tumors are not well established. As these lesions are more common in women, female sex hormones could be involved in the pathogenesis of these disorders. The objectives of this study were to establish a model of primary culture of normal human thyroid follicular cells, to validate a normalizing gene for qRT-PCR after treatment with estradiol and progesterone, to evaluate the effects of progesterone on the expression of genes NIS, TG and TPO, and to evaluate the GPR30 gene and protein expression as well as its possible intracellular location, in these cells. In our model of primary monolayer culture, follicular cells maintained their characteristic cuboid differentiated morphology; and had evidence of differentiated thyroid function: the production of thyroglobulin and free T4, and identification of TG and TPO proteins by immunocytochemistry . Adding progesterone to TSH increased NIS, TG and TPO mRNA, respectively, 1.78 (p=0.003), 1.50 (p=0.034) and 1.64 (p=0.018) folds, compared to the group treated with only TSH. This stimulation was inhibited by mifepristone, suggesting that progesterone has a direct effect on the thyroid follicular cells. Normalization of gene expression was performed using β-actin as reference gene. We have also demonstrated that normal thyroid cells expressed GPR30 gene and protein, which is possibly localized in the plasma membrane and the perinuclear region.

Glândula tireóide

Cultura primária de células

Células dendríticas foliculares

Hormônios gonadais

Thyroid

Primary culture

Follicular thyroid cell

Thyroperoxidase

Thyroglobulin

Sodium/iodide simporter

Reference gene

Progesterone

Estradiol

Progesterone receptor

Estrogen receptor

GPR30

Estudo de hormônios sexuais em células foliculares de tireoide humana em cultura primária

Santin, Ana Paula

January 2012

Os mecanismos etiopatogênicos que levam ao desenvolvimento dos nódulos e tumores da tireoide ainda não são bem conhecidos. É fato estabelecido que a prevalência dessas lesões é maior nas mulheres. Dessa forma, o que nos motivou a realizar esta Tese foi avaliar se os hormônios sexuais femininos tem efeito direto sobre as células de tireoide humanas normais podendo contribuir para a sua etiopatogenia. Este estudo teve como objetivos padronizar um modelo de cultura primária de células foliculares de tireoide humana normal e nesse modelo validar um gene normalizador após tratamento com estradiol e progesterona, avaliar os efeitos da progesterona na expressão dos genes NIS, TG e TPO bem como avaliar a expressão gênica e proteíca e a possível localização intracelular do receptor de membrana GPR30 nestas células. Em nosso modelo de cultura primária em monocamada, as células foliculares mantiveram sua morfologia cubóide característica e permaneceram diferenciadas o que foi evidenciado pela dosagem de tireoglobulina e T4 livre, no sobrenadante do meio de cultura, e pela identificação das proteínas TG e TPO por imunocitoquímica. A estimulação com progesterona aumentou a expressão dos genes NIS, TG e TPO, respectivamente, 1.78 (p=0.003), 1.50 (p=0.034) e 1.64 (p=0.018) vezes, quando comparadas ao grupo tratado somente com TSH. Essa estimulação da progesterona foi inibida por mifepristona sugerindo que a progesterona tem efeito direto nas células foliculares da tireoide e que esse efeito é mediado por seu receptor nuclear. A normalização da expressão gênica foi realizada pelo gene β-actina, o qual demonstrou uma maior estabilidade entre os grupos analisados. Demonstramos também que as células normais da tireoide expressam tanto o gene como a proteína do receptor de membrana GPR30 com possível localização na membrana celular e no espaço perinuclear. / The mechanisms leading to the development of thyroid nodules and tumors are not well established. As these lesions are more common in women, female sex hormones could be involved in the pathogenesis of these disorders. The objectives of this study were to establish a model of primary culture of normal human thyroid follicular cells, to validate a normalizing gene for qRT-PCR after treatment with estradiol and progesterone, to evaluate the effects of progesterone on the expression of genes NIS, TG and TPO, and to evaluate the GPR30 gene and protein expression as well as its possible intracellular location, in these cells. In our model of primary monolayer culture, follicular cells maintained their characteristic cuboid differentiated morphology; and had evidence of differentiated thyroid function: the production of thyroglobulin and free T4, and identification of TG and TPO proteins by immunocytochemistry . Adding progesterone to TSH increased NIS, TG and TPO mRNA, respectively, 1.78 (p=0.003), 1.50 (p=0.034) and 1.64 (p=0.018) folds, compared to the group treated with only TSH. This stimulation was inhibited by mifepristone, suggesting that progesterone has a direct effect on the thyroid follicular cells. Normalization of gene expression was performed using β-actin as reference gene. We have also demonstrated that normal thyroid cells expressed GPR30 gene and protein, which is possibly localized in the plasma membrane and the perinuclear region.

Glândula tireóide

Cultura primária de células

Células dendríticas foliculares

Hormônios gonadais

Thyroid

Primary culture

Follicular thyroid cell

Thyroperoxidase

Thyroglobulin

Sodium/iodide simporter

Reference gene

Progesterone

Estradiol

Progesterone receptor

Estrogen receptor

GPR30

Studies On Intracrine Regulators Of Ovarian Function : Examination Of Progesterone Action On Structure And Function Of Corpus Luteum In The Monkey

Suresh, P S

11 1900

The control of reproductive cycles in higher primates is largely dependent on negative and positive feedback mechanisms by both steroidal and non-steroidal substances of the ovaries which regulate the function of hypothalamo-pituitary system. To gain insights into the role of INH A, the non steroidal ovarian hormone in the feedback control of pituitary FSH secretion, studies were conducted to examine the interrelationships of hormones throughout the menstrual cycle of the bonnet macaque. The findings of chapter II provide a detailed description of endocrine hormone profile during the menstrual cycle of the bonnet macaques with special attention to the feedback role of INH A on pituitary FSH secretion. To characterize the endocrine profile of different hormones, both ovarian (E2, P4, INH A) and pituitary (FSH, LH) hormones were measured daily for more than 40 days. To further examine the site of secretion of INH A and its relationship with pituitary FSH dynamics, surgical lutectomy and pharmacological induction of luteolysis employing the third generation GnRH R antagonist, Cetrorelix (CET) studies were carried out in the subsequent experiments. The results obtained from these studies suggest that INH A and P4 secreted from the CL during luteal phase regulate pituitary FSH secretion. The selective rise in FSH observed during the late menstrual cycle and during menstruation (referred to as luteo-follicular transition), as has been reported previously in higher primates, considered necessary for initiation of follicular growth and recruitment of follicles for ensuing menstrual cycle was characterized in the monkey. Surgical lutectomy and induction of luteolysis by CET experiments suggested that increased GnRH secretion is essential for this selective rise in FSH following withdrawal of inhibition by P4 and INH A. In clinical cases of reproductive ageing, the shortened follicular phase in human females has been identified to be the result of occurrence of early onset of FSH rise during the luteal-follicular transition period. The cause(s) of declining fertility with age in women who still have regular menstrual cycles are not clear, but issues of relationship between dysregulation of selective FSH rise in the late luteal phase and associated infertility could be examined using bonnet monkey as a model system. INH A is secreted in significant quantities by CL in higher primates and the feto placental unit suggesting its importance during fertility and pregnancy. Apart from the negative feedback regulation of pituitary FSH secretion, the complete repertoire of actions of this hormone during pregnancy is yet to be fully understood. The data presented in this thesis is the first comprehensive report showing the endocrine hormone profile of gonadotropins and ovarian hormones including INH A throughout the menstrual cycle of the bonnet macaque. The characterization of INH A profile in bonnet monkey will be of significant value for studies examining the role of INH A in higher primates. Dimeric inhibin has been suggested to be important for regulation of fertility and reproductive functions. Also, inhibin-α (one of the subunits of the dimeric protein) knock out mice model has provided convincing evidence that it acts as a tumour suppressor. A great deal of new information has been generated in recent years regarding the potential clinical usefulness of monitoring inhibin levels in blood and biological fluids in gynaecological diseases, pathological pregnancies and other disorders. Emerging clinical roles of inhibin have made INH A an important candidate molecule to study its molecular regulation. The results presented in chapter II suggested that LH regulates luteal INH A secretion (induction of luteolysis by CET administration experiment). As a first step towards understanding molecular regulation of inhibin-α expression in the macaque CL, in silico promoter analysis of macaque inhibin-α was performed and it revealed several transcriptional factor binding sites that were conserved across species. In rats FSH up regulates while preovulatory LH surge suppresses inhibin-α mRNA expression in the ovary and this suppression has been suggested to be necessary for occurrence of secondary FSH surge during metestrus. To address differential regulation of inhibin-α by LH and FSH in rat ovary during the periovulatory period, studies employing immature rats were carried out and the results are presented in chapter III. The results suggest that immature rat ovaries respond to exogenous gonadotropins in terms of LH signaling (cAMP production), luteinization (P4 production) and as well induction of ICER expression required for repression of inhibin-α subunit expression. PDE4 inhibitor (rolipram) treatment enhanced the ovarian cAMP concentrations suggesting that PDE4 play a major role in controlling intraovarian cAMP concentrations in rat ovaries. However increased cAMP concentrations did not appear to up regulate the ICER expression at the time point examined in this study. In higher primates time course of second FSH surge and continued synthesis and secretion of INH A in the CL are different from non primate species. In the monkey, the second FSH rise occurs during the late luteal phase and experiments have been carried out to examine the regulation of inhibin-α subunit expression by ICER. Expressions of ICER (mRNA/protein) and INH A were examined during different stages of CL and the results indicated no clear inverse relationship between the ICER and inhibin-α mRNAs. With no conclusive role for the ICER in regulating luteal inhibin-α observed in the study, the role of transcriptional activators in the regulation of inhibin-α like GATA4, SF-1, β-catenin were further examined. Since luteal INH A secretion was dependent on pituitary LH as determined earlier in chapter II, expressions of transcriptional activators were examined in CL of different stages and also during induced luteolysis and the results are described in chapter IV. In conclusion, our results indicate cross talk between WNT, cAMP and P38 MAP kinase signaling pathways in the regulation of luteal INH A secretion. The pituitary gonadotropin, LH, is the primary luteotropin in primate species acting to maintain the structure and function of the CL during the menstrual cycle. However whether the actions of LH are direct or mediated by local factors such as P4 remain unknown. Moreover, P4 secretion which is dominant during luteal phase has any role in regulating CL structure and function is not clearly defined. To address these and issues concerning P4 actions, initially, experiments were performed in the rat model to study the importance of P4 in the regulation of ovarian functions. An antiprogestin, RU486, was employed as a tool to uncover the PR regulated pathways during ovulation in rats and the findings are presented in the chapter V. The results indicated that blockade of PR action by RU486 during gonadotropin-induced superovulation resulted in inhibition of follicular rupture and ovulation in immature rats. Further to understand the downstream effectors of PR action, and to identify the candidate target genes of PR activation, semi-quantitative RT-PCR and western blot analyses were performed. The results obtained indicated that betacellulin, a member of EGF family and MMP-9 a proteolytic enzyme, were markedly repressed in response to RU486 treatment in rat ovaries. Also, the down stream pathway of EGF signaling leading to activation of ERK was markedly repressed in RU486 treated ovaries. It was next examined what role the P4/PR system has in the regulation of CL structure and function. Surprisingly, PR expression is absent in CL of rats, while it is present in higher primates. Experiments were carried out to examine intracrine actions of P4 in the regulation of CL structure and function in monkeys. The recently reported model system of induced luteolysis yet capable of responsive to trophic support from the laboratory provided an ideal opportunity to examine direct effects of P4 on structure and function of CL in the monkey. A series of pilot experiments were carried out in monkeys experiencing summer amenorrhea, to determine dose and mode of administration of exogeneous P4 to simulate mid luteal phase circulating P4 concentrations in monkeys subjected to induced luteolysis. Based on the results of pilot experiments, implantation of Alzet pumps containing 97.5mg of P4 was selected for maintaining mid luteal phase P4 concentrations. The microarray data of induced luteolysis previously deposited by the laboratory in NGBI’s gene expression omnibus were mined for identification and validation of differentially expressed genes of PR and its target genes following LH depletion and LH replacement experiments. Expressions of PR, PR cofactors and expressions of PR downstream target genes through out the luteal phase and in CL from day1 of menses were also examined. Analysis of expressions of genes revealed that of the 45 genes identified to be regulated by LH treatment, 4 genes were found to be responsive to P4, and 14 were identified to be responsive to both P4 and LH. Morphology of CL tissue sections revealed that P4 treatment appeared to have reversed the induced-luteolysis changes. In another experiment, implantation of P4 during late luteal phase (i.e., the period of declining P4 concentrations) for 24h caused changes in expressions of genes associated with tissue remodeling and morphology of luteal cells. Taken together, the results suggest that induced luteolysis plus P4 replacement model is suitable for assessing the effects of P4 on CL function. The results also suggest that CL could serve as target tissue for examining the genomic and non genomic actions of P4. In summary, studies carried out in the present thesis provides a comprehensive endocrine hormone profile throughout the menstrual cycle of the bonnet monkey with special emphasis on time course of INH A and FSH secretion which is very useful for future investigations. Studies have been carried out in rats and monkeys with different experimental model systems to address molecular mechanisms underlying inhibin-α regulation in the ovary in general and CL in particular. Experimental findings in monkeys could help elucidate the underlying molecular nature of CL functionality and extrapolate to understand luteal insufficiency and infertility producing conditions in humans. Also different model systems have been validated to examine the actions of P4/PR system in rats and monkeys and more importantly to address the direct effects of P4 upon monkey CL structure and function were established. Future investigations based on findings of these studies should help clarify relative roles for LH and P4 during maintenance of CL function and luteolysis.

Monkey - Ovaries

Monkey - Growth & Development

Monkey Corpus Luteum

Progesterone - Receptors

Progesterone Receptor Signaling

Reproductive Encocrinology

Molecular Endocrinology

Gonadotropins

Ovarian Hormones

GnRH Receptor

Inhibin A

Matrix Metalloproteinase (MMP‐9)

Animal Physiology

The effect of different intravaginal progesterone doses on the conception rate of beefmaster cows and heifers following fixed time artificial insemination

Van Niekerk, Guillaume Stefanus

January 2013

Thesis (M. Tech. (Agriculture)) - Central University of Technology, Free state, 2013 / The study was carried out to establish whether or not a decrease in the progesterone concentration of an intravaginal device used to synchronize oestrous in Beefmaster heifers and cows would lead to an increase in conception rates. The study evaluated the effect of different intravaginal progesterone device doses on the conception rates of Beefmaster cows and heifers following fixed time artificial insemination (FTAI). A total of 100 stud Beefmaster cows (Cow group) and 100 stud Beefmaster heifers (Heifer group) were used in the study. The animals were year round grazing residents of the farm Oribilaagte near the town of Vrede in the Free State province of South Africa. The Cow and Heifer groups were split into four experimental groups, respectively, and treated with either a 0.5 g, 1.0 g, 1.9 g or 1.9 g re-used intravaginal progesterone device during the spring synchronization program (P4 device insertion and 2 mg i.m. oestradiol benzoate treatment on d 0, 250 μg s.c. PGF2_ treatment on d 7, P4 device removal on d 8, 1 mg i.m. oestradiol benzoate treatment on d 9, and FTAI on d 10). Blood samples were taken on the day of intravaginal insert removal (d 8), and on the day of FTAI (d 10), to monitor the blood serum P4 concentrations (solid phase RIA analysis) between the experimental groups. The experimental groups were examined for pregnancy 5 months post AI by means of rectal palpation. The Cow group recorded a pregnancy rate of 65%, 75%, 67% and 68% for the 0.5 g, 1.0 g, 1.9 g and 1.9 g re-used intravaginal progesterone device groups respectively. The Heifer group recorded a pregnancy rate of 19%, 39%, 41% and 47% for the 0.5 g, 1.0 g, 1.9 g and 1.9 g re-used intravaginal progesterone device groups respectively. The study concluded that a decrease in the progesterone concentration in the intravaginal device did not affect the serum progesterone concentrations in the Heifer and Cow groups on the day of the FTAI, and did not negatively affect the synchronization program. The study further concluded that, although a decrease in the progesterone concentration in the intravaginal device did not statistically influence the conception rates in the Heifer and Cow groups, the Cow group did record a higher numerical conception rate when the progesterone concentrations in the intravaginal devices were reduced.

Cattle artificial insemination industry

Progesterone

Beefmaster cattle

Heifers

Etablierung und Charakterisierung einer Kokultur equiner endometrialer Epithel- und Stromazellen

Lapko, Liv

25 May 2016

Ziel dieser Studie war die Etablierung einer Kokultur aus equinen endometrialen Epithel- und Stromazellen. Nach der erfolgreichen Umsetzung des Kokulturmodells sollte im weiteren Versuchsablauf durch die Zugabe von 17β-Östradiol (E2) und/oder Progesteron (P4) zum Nährmedium der Einfluss der Hormone auf die Zellen untersucht werden. Neben einer lichtmikroskopischen Auswertung der zytomorphologischen Charakteristika beider Zellarten sollte die Expression der Steroidhormonrezeptoren Östrogenrezeptor α und Progesteronre-zeptor sowie der uterinen Proteine Uteroglobin und CalbindinD9k immunzytologisch überprüft werden. Für die Etablierung der Kokultur wurden Endometriumproben von lebenden (n = 5) sowie frischtoten (n = 4) Stuten gewonnen. Eine jeweils parallel entnommene Gewebeprobe von jedem Tier wurde in Formalin fixiert und diente als Referenzmaterial (in situ). Auf die Zelliso-lierung (mechanisch und enzymatisch) folgte die Separation von Epithel- und Stromazellen (EZ/SZ) mittels Filtration, Dichtegradientenzentrifugation und Differenzialadhärenz. An-schließend wurden die EZ auf die Außenseite von Millicell®-Membraneinsätzen aufgebracht. Nach zwei Tagen erfolgte das Einsäen der bis zu diesem Zeitpunkt separat kultivierten SZ auf die Innenseite der Membranen. Als Nährmedium diente ein Gemisch aus DMEM und Ham’s F-12, wobei diesem 2,5 % fötales Kälberserum sowie verschiedene Additive zugesetzt wurden. Ab Kulturtag 4 wurden dem Medium definierte Konzentrationen und Kombinationen von E2 und P4 zugesetzt. Die Kultivierung erfolgte bei einem CO2-Partialdruck von 5 % in 37 °C warmer wasserdampfgesättigter Raumluft. Mit der polarisationsmikroskopisch er-fassbaren Ausbildung durchgehender Zellrasen („scheinbare Konfluenz“) wurden die Kokul-turen in Formalin fixiert und für die Lichtmikroskopie aufgearbeitet. Das Ausgangsgewebe zeigte mehrheitlich eine sekretorische Funktionsmorphologie (n = 6). Einzelne Endometrien befanden sich in einem Übergangsstadium von der Sekretions- zur Proliferationsphase (n = 1), bzw. vice versa (n = 1) oder wiesen eine irregulär proliferative Differenzierung (n = 1) auf. Im Rahmen der Kokultivierung bildeten die EZ innerhalb der Schnittebene vier und die SZ drei verschiedene morphologische Zelltypen aus. Dabei traten rundovale bis polygonale EZ (Typ 1) selten bis gelegentlich, spindelförmige EZ (Typ 2) gelegentlich bis häufig und iso-prismatische (Typ 3) sowie mehrschichtig wachsende EZ (Typ M) jeweils selten auf. Die SZ zeigten innerhalb der Schnittebene selten eine rundovale bis polygonale Zellform (Typ 1), sehr häufig eine spindelförmige Morphologie (Typ 2) und selten ein mehrschichtiges Wachstum (Typ M). Ein Zusammenhang zwischen der endometrialen Funktionsmorphologie zum Zeitpunkt der Zellisolierung oder dem Hormonzusatz und der Häufigkeitsverteilung der Zell-typen sowie der Wachstumsgeschwindigkeit der kultivierten Zellen war nicht offensichtlich. Zytokeratin 19 wurde stets von EZ exprimiert, während es auf Seiten der SZ nur sporadisch in maximal 5 % der Zellen im Bereich mehrschichtig wachsender Zellrasen auftrat. Die Stero-idhormonrezeptoren konnten lediglich in einzelnen Kokulturen aus sekretorisch differenzier-tem Ausgangsgewebe detektiert werden. Uteroglobin wurde in vitro mit einer variablen Häufigkeit in den EZ-Typen exprimiert. Während ein übergreifender Zusammenhang zur hormonellen Supplementierung nicht abgeleitet werden konnte, wurde jedoch ersichtlich, dass im Bereich einschichtig wachsender EZ in Ansätzen aus sekretorisch differenzierten Endometrien unter niedrigen Hormondosen (Zusatz von entweder nur E2 oder nur P4) im Median häufiger Uteroglobin exprimiert wurde. Mit zunehmender Hormonkonzentration im Medium nahm der Anteil immunopositiver Zellen (Typen 1, 2 und 3) deutlich ab. Innerhalb der Stromazellpopulation wurde Uteroglobin selten und ausschließlich in Zellen aus sekretorisch differenziertem Ausgangsmaterial nachgewiesen. CalbindinD9k wurde in vitro vornehmlich intrazytoplasmatisch und sehr vereinzelt intranukleär exprimiert. Insgesamt konnte das Protein in vitro stets in wenigen Typ-1-EZ, sehr selten in Typ-2-EZ und in einer geringen bis mäßigen Anzahl von Typ-3- und Typ-M-EZ beobachtet werden. Innerhalb der Stromazellpo-pulation trat CalbindinD9k ausschließlich in einer geringen (Endometrien aus dem Östrus) bis mäßigen (Endometrien aus dem Interöstrus) Anzahl der Typ-2- und wenigen Typ-M-SZ auf. Insgesamt wurden keine deutlichen Einflüsse der endometrialen Funktionsmorphologie zum Zeitpunkt der Zellisolierung und/oder der hormonellen Supplementierung in vitro auf die im-munzytologischen Charakteristika der kokultivierten Zellen ersichtlich. Abschließend betrachtet, konnte ein Kokultursystem equiner endometrialer Epithel- und Stromazellen erfolgreich etabliert und charakterisiert werden. Es bietet dabei, trotz der z. T. fehlenden Kongruenz zu den Gegebenheiten in situ, Ansätze für potenzielle Folgearbeiten, insbesondere hinsichtlich der Erfassung interzellulärer Wechselwirkungen sowie bezüglich der Vermittlung und Wirkung hormoneller Einflüsse auf zellulärer Ebene. / The aim of the present study was the establishment of a coculture system of equine endome-trial epithelial and stromal cells. Subsequent to the successful development of the coculture model the culture medium should be supplemented with 17β-estradiol (E2) and/or progester-one (P4) in order to study the influence of the hormones on the cellular level. In addition to the examination of cytomorphological characteristics of both cell types via light microscopy, the expression of the steroid hormone receptors (estrogen receptor α and progesterone receptor) as well as of the uterine proteins Uteroglobin and CalbindinD9k was investigated. For the establishment of the coculture system endometrial samples were obtained from living (n = 5) as well as freshly deceased mares (n = 4). A simultaneously taken tissue specimen of each animal was fixed in formalin and served as in situ reference material. After an initial mechanical and enzymatical isolation the epithelial and stromal cells (EC/SC) were separat-ed via filtration, density gradient centrifugation and differential adhesion. Subsequently, the EC were applied to the outer surface of Millicell® inserts. The SC were cultivated separately for 2 days before they were seeded onto the inner surface of the same insert. The culture medium used was comprised of a DMEM and Ham‘s F-12 basis as well as 2.5 % foetal calf serum and different additives. Starting on day 4 of cultivation the standardised medium was supplemented with different concentrations and combinations of E2 and P4. Throughout the study the cultures were kept in a humidified atmosphere of 37°C and a 5 % partial pressure of carbon dioxide. Once the cocultures formed continuous cell layers, as determined via a polarisation microscope (“apparent confluency”), the membranes were fixed in formalin and routinely processed for light microscopical evaluation. The initial tissue samples predominantly showed a secretory functional morphology (n = 6), while single specimens were obtained during the transition from the secretory to the prolifera-tive phase (n = 1) or vice versa (n = 1). One endometrial sample exhibited an irregular proli-ferative differentiation. In the course of cocultivation the EC formed 4 and the SC 3 different cellular morphologies within the section plane. EC with a round-oval to polygonal cell form (type 1) were rarely to occasionally encountered, while spindle-shaped EC (type 2) were occasionally to frequently seen and EC with a cuboidal morphology (type 3) as well as such cells growing in stratified layers (type M) were only infrequently detected. The SC only rarely showed a round-oval to polygonal cell form (type 1) or areas of a stratified cell growth (type M), whereas spindle-shaped SC (type 2) were observed very often. A correlation of the endometrial functional morphology at the time of cell isolation or the hormonal supplementation and the frequency distribution of the cell types as well as the growth rate of the cultivated cells was not evident. The EC always expressed Cytokeratin 19, while on the side of the SC only up to 5 % of the cells in areas of stratified cell growth exhibited this filament. Solely in individual cocultures from secretory differentiated endometrial tissue the steroid hormone receptors could be de-tected. Uteroglobin was expressed in vitro in EC with a variable frequency. An overall corre-lation of the hormonal supplementation and the Uteroglobin expression could not be derived. However, under low hormone doses (only E2 or only P4 supplement) Uteroglobin was detect-ed in EC in areas of single-layered cell growth more often (median value). With an increase in hormone concentration the amount of immunopositive cells (types 1, 2 and 3) diminished noticeably. In SC the protein could only rarely be seen and exclusively in cells from endome-tria with a secretory functional morphology. In vitro CalbindinD9k was predominantly detected intracytoplasmatically, while single cells showed an additional intranuclear expression. Alto-gether, CalbindinD9k could always be observed in a few type-1-EC, rarely in type-2-EC and with a variable frequency in small to moderate numbers of type-3- and type-M-EC. In SC the protein was exclusively expressed in a small (endometrial samples form the oestrous phase) to moderate (endometrial tissue from the interoestrous phase) number of type-2-SC and a few type-M-SC. Generally, no distinct influence of the endometrial functional morphology at the time of tissue sampling and/or of the hormonal supplementation in vitro on the immuno-cytochemical characteristics of the cocultured cells could be observed. In summary, a coculture system of primary equine endometrial epithelial and stromal cells was successfully established and characterised. Despite of the partly absent congruence to the in situ conditions/prerequisites, the present study offers a basic approach and scaffold for further investigations, particularly regarding the ascertainment of intercellular dependencies or the mediation and effectiveness of hormonal influences on the cellular level.

Stute

Endometrium

Kokultur

Epithelzellen

Stromazellen

Östrogen

Progesteron

mare

endometrium

co-culture

epithelial cells

stromal cells

oestrogen

progesterone

ddc:636.089