Untersuchung der Interaktion der Untereinheiten im humanen P2X2- und P2X2/3-Rezeptor durch Cystein-substituierte Aminosäuren

Lindner, Anna

02 December 2015

P2X-Rezeptoren treten aufgrund ihrer Präsenz in verschiedensten Organsystemen des menschlichen Körpers zunehmend in den Mittelpunkt zahlreicher Forschungsansätze. Besonderes Interesse gilt dabei u.a. den P2X2/3-Rezeptoren, da in ihnen ein neuer Angriffspunkt für die Entwicklung von Schmerztherapeutika gesehen wird. Trotz enormer Fortschritte in diesem Bereich, bleiben die Vorgänge und strukturellen Gegebenheiten, die zur Öffnung der Ionenkanäle führen, weiterhin spekulativ. In der vorliegenden Arbeit wurden mithilfe einer Mutagenese einzelne Aminosäuren des hP2X2-Rezeptors, welche sich in geringer Entfernung zueinander zwischen zwei Untereinheiten befanden, durch Cysteine substituiert. Die Auswahl der Aminosäuren erfolgte dabei anhand eines Homologiemodells des hP2X2-Rezeptors und des Aminosäureabgleichs zwischen den hP2X2- und hP2X3-Rezeptoren. Auf diese Weise sollte deren Interaktion über eine mögliche Ausbildung von Disulfidbrücken zwischen zwei Untereinheiten untersucht werden. Die Rezeptorfunktion wurde anschließend mittels der whole-cell patch-clamp-Technik charakterisiert. Der Rezeptor reagierte bei allen untersuchten Varianten mit einem Funktionsverlust, ein spontan öffnender Kanal konnte somit nicht generiert werden. Durch die Kombination der verschiedenen hP2X2-Rezeptor-Cysteinmutanten mit einer hP2X3-Rezeptor-Cysteindoppelmutante, konnte gezeigt werden, dass sich die verschiedenen Untereinheiten im heterotrimeren hP2X2/3-Rezeptor nicht soweit annähern, dass eine Disulfidbrücken-Bildung zwischen den Untereinheiten möglich wird. Es konnte allerdings verdeutlicht werden, dass für die Aktivierung des heterotrimeren hP2X2/3-Rezeptors zwei funktionelle Bindungsstellen zur Kanalaktivierung ausreichen.

P2X-Rezeptoren

P2X2-Rezeptoren

P2X2/3-Rezeptoren

Untereinheiteninteraktion

P2X-receptors

P2X2-receptors

P2X2/3-receptors

interaction of subunits

ddc:610

Characterisation of the α2A-adrenoceptor antagonism by mirtazapine and its modifying effects on receptor signalling / Kenneth Khoza

Khoza, Kenneth

January 2004

Mirtazapine is an atypical antidepressant employed clinically for the treatment of major depression. As a multipotent antagonist it acts at α2a-adrenergic receptors (α2a -ARs). serotonin type-2A receptors (5-HT2a-Rs) and histamine type-I receptors (H1-Rs). Its actions at the α2a-AR have been proposed to play a role in its putative earlier onset of action. However, it is not known whether mirtazapine is a neutral antagonist or inverse agonist at α2a- ARs. The current study aimed to determine the mode of α2a-AR antagonism by mirtazapine, as well as to investigate in vitro the modulatory effects of mirtazapine pre-treatments on β-adrenergic receptor (β-AR), muscarinic acetylcholine receptor (mAChR) and α2a-AR functions. Chinese hamster ovary (CHO-K1) cells expressing the porcine α2a-AR at high numbers (α2a-H), a constitutively active mutant α2a-AR (α2a--CAM), or mock-transfected control cells (neo) were radio-labelled with [3H]-adenine and concentration-effect curves of mirtazapine, yohimbine, mianserin or idazoxan were constructed, measuring [3H]-cAMP accumulation. In addition human neuroblastoma SH-SY5Y cells and CHO-K1 cells expressing the porcine α2a- AR at low numbers (am-L) were used to investigate the effect of mirtazapine pre-treatments on mAChRs and β-ARS or α2a-ARs respectively. After radio-labelling with myo-[2-3H]-inositol or [2-%]-adenine, radio-label uptake was measured and receptor function was investigated by constructing concentration-effect curves, measuring [3H]-IPx or [3H]-cAMP accumulation respectively. The results from the current study show that mirtazapine binds to the α2a-AR with an affinity value in the lower micromolar range (K1≈ 0.32 µM; pK1 = 6.50 ± 0.07). Mirtazapine is not a partial agonist at α2a-ARs as it does not affect [3H]-cAMP accumulation in α2a-H cells. Preliminary results suggest that mirtazapine displays partial inverse agonism in α2a-CAM cells, while mianserin displays neutral antagonism. Mirtazapine pre-treatment in SH-SY5Y cells does not alter muscarinic receptor function (different from fluoxetine and imipramine), but reduces I-isoproterenol-induced increase in [3H]-cAMP accumulation in SH-SY5Y cells (typically associated with chronic antidepressant activity). Although inconclusive, the data also suggests that mirtazapine may reduce α2a-AR function. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2005.

Mirtazapine

Antidepressant

Onset of action

Inverse agonism

Neutral antagonism

α2A-adrenergic receptors

β-adrenergic receptors

Muscarinic acetylcholine receptors

CHARACTERIZATION OF THE ANGIOTENSIN TYPE 1 RECEPTOR AND THE BETA2 ADRENERGIC RECEPTOR PROPERTIES: THE INVOLVEMENT OF ARRESTIN2, RAB1 AND SOME MOLECULAR CHAPERONES IN THE ASSEMBLY AND TRAFFICKING OF GPCRS

Hammad, Maha

21 July 2010

Current drugs used to treat Congestive Heart Failure target the renin-angiotensin and adrenergic systems. Studies showed increased mortality rates in patients treated with a combination of these medications. Angiotensin-AT1 and ?2-Adrenergic receptors were shown to form receptor heteromers. Blockade of one receptor in the complex can affect the signal transmitted by the other; suggesting that ligand-based therapy is not as selective as we might think. Modulating receptor trafficking after synthesis might prove to be a valid therapeutic strategy. Unfortunately, little is known about receptor assembly and transport from Endoplasmic Reticulum to Plasma Membrane. The objectives of this study are to identify the proteins that participate in the assembly of AT1R-?2AR heteromer and the regulators of the anterograde trafficking of G-Protein Coupled Receptors. This thesis introduces the role of important targets in those poorly understood processes. The identification of such targets could lead to developing better drugs with fewer adverse effects.

G Protein Coupled Receptors

Congestive Heart Failure

Adrenergic Receptors

Angiotensin Receptors

Rab GTPases

Molecular Chaperones

Bimolecular Fluorescence Complementation

GPCRs Oligomerization

Characterisation of the α2A-adrenoceptor antagonism by mirtazapine and its modifying effects on receptor signalling / Kenneth Khoza

Khoza, Kenneth

January 2004

Mirtazapine is an atypical antidepressant employed clinically for the treatment of major depression. As a multipotent antagonist it acts at α2a-adrenergic receptors (α2a -ARs). serotonin type-2A receptors (5-HT2a-Rs) and histamine type-I receptors (H1-Rs). Its actions at the α2a-AR have been proposed to play a role in its putative earlier onset of action. However, it is not known whether mirtazapine is a neutral antagonist or inverse agonist at α2a- ARs. The current study aimed to determine the mode of α2a-AR antagonism by mirtazapine, as well as to investigate in vitro the modulatory effects of mirtazapine pre-treatments on β-adrenergic receptor (β-AR), muscarinic acetylcholine receptor (mAChR) and α2a-AR functions. Chinese hamster ovary (CHO-K1) cells expressing the porcine α2a-AR at high numbers (α2a-H), a constitutively active mutant α2a-AR (α2a--CAM), or mock-transfected control cells (neo) were radio-labelled with [3H]-adenine and concentration-effect curves of mirtazapine, yohimbine, mianserin or idazoxan were constructed, measuring [3H]-cAMP accumulation. In addition human neuroblastoma SH-SY5Y cells and CHO-K1 cells expressing the porcine α2a- AR at low numbers (am-L) were used to investigate the effect of mirtazapine pre-treatments on mAChRs and β-ARS or α2a-ARs respectively. After radio-labelling with myo-[2-3H]-inositol or [2-%]-adenine, radio-label uptake was measured and receptor function was investigated by constructing concentration-effect curves, measuring [3H]-IPx or [3H]-cAMP accumulation respectively. The results from the current study show that mirtazapine binds to the α2a-AR with an affinity value in the lower micromolar range (K1≈ 0.32 µM; pK1 = 6.50 ± 0.07). Mirtazapine is not a partial agonist at α2a-ARs as it does not affect [3H]-cAMP accumulation in α2a-H cells. Preliminary results suggest that mirtazapine displays partial inverse agonism in α2a-CAM cells, while mianserin displays neutral antagonism. Mirtazapine pre-treatment in SH-SY5Y cells does not alter muscarinic receptor function (different from fluoxetine and imipramine), but reduces I-isoproterenol-induced increase in [3H]-cAMP accumulation in SH-SY5Y cells (typically associated with chronic antidepressant activity). Although inconclusive, the data also suggests that mirtazapine may reduce α2a-AR function. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2005.

Mirtazapine

Antidepressant

Onset of action

Inverse agonism

Neutral antagonism

α2A-adrenergic receptors

β-adrenergic receptors

Muscarinic acetylcholine receptors

The mechanism of G protein coupled receptor activation: the serotonin receptors

Sallander, Eva Jessica

04 July 2011

Una de las principales cuestiones en farmacología molecular de los GPCR es entender los mecanismos estructurales de las siete hélices transmembrana (TM) que se producen para estabilizar ya sea Rg o los diferentes estados R*. Para entender el mecanismo que cambia el equilibrio del conjunto a un estado activo R* se construyeron tres de los receptores de la serotonina (5-HT4, 5-HT6, y 5 HT7) sobre la base de su información más reciente de cristalografía de rayos X. Dando lugar a dos modelos de cada receptor: una inactiva y otra activa. Los modelos, mejorados y evaluados con la ayuda de datos farmacológicos y químicos se utilizaron principalmente para comprender la interacción entre un ligando y su receptor y su mecanismo de acción. Estos hallazgos estructurales pueden a su vez resultar útiles para el diseño de nuevos fármacos más eficaces y selectivos. / One of the main questions in G protein coupled receptors (GPCRs) molecular pharmacology is to understand the structural arrangements of the seven transmembrane (TM) helices that occur to stabilize either the ground state (Rg) or different active states (R*) of the receptors. In order to understand the mechanism that shift the equilibrium of the ensemble to an active R* state models of the inactive and the active state of three serotonin receptors (5-HT4, 5-HT6, and 5-HT7) were built based on the latest information from X-ray crystallography. The resulting models were mainly used to understand the interaction between a ligand and its receptor and the mechanism of action. With the help of pharmacological and chemical data these models and complexes were improved and evaluated. These findings may prove valuable for structural based drug discovery efforts and facilitate the design of more effective and selective pharmaceuticals.

GPCRs

G protein coupled receptors

Serotonin

Transmembrane

5-HT6

5-HT4

5-HT7

Receptors de la serotonina

Proteïnes G -- receptors

57

Sigma receptors modulation of voltage-gated ion channels in rat autonomic neurons /

Zhang, Hongling,

January 2005

Thesis (Ph.D.)--University of South Florida, 2005. / Includes vita. Includes bibliographical references (leaves 128-144). Also available online.

Modulation of folate receptor-[alpha] by glucocorticoid receptor and progesterone receptor

Tran, Thuyet Van.

January 2004

Thesis (Ph. D.)--Medical College of Ohio, 2004. / "In partial fulfillment of the requirements for the degree of Doctor of Philosophy in Medical Sciences." Major advisor: Manohar Ratnam. Includes abstract. Document formatted into pages: iii, 293 p. Title from title page of PDF document. Includes bibliographical references (p. 175-281).

Identificação imunohistoquímica de receptores para hormônio luteinizante, estrôgeno e progesterona no trato reprodutivo extragonadal da égua / Immunohistochemical identification of luteinizing, estrogen and progesterone receptors in the extra-gonadal reproductive tract of mares

Esmeraldino, Anamaria Telles

January 2012

O objetivo deste trabalho foi verificar a presença e a localização de receptores para hormônios esteróides e gonadotróficos, através da técnica de imunohistoquímica, pelo método de peroxidase-antiperoxidase (PAP), nos diferentes tecidos que compõe o trato genital da égua e a variação de reatividade destes receptores durante o ciclo estral e no anestro fisiológico. Também se objetivou verificar se há diferença de reatividade em éguas com e sem endometrose. Foram coletadas amostras de útero, cérvice e oviduto, de 41 éguas sem raça definida e com histórico reprodutivo desconhecido, em um abatedouro. Quinze éguas se encontravam em estro, dezoito em diestro e oito éguas em anestro. Concluiu-se que a intensidade e a distribuição da coloração para os receptores de estrógeno (RE), progesterona (RP) e hormônio luteinizante (RLH) variaram de acordo com o tipo de célula e o estágio do ciclo estral. Nas amostras de endométrio observou-se imunorreatividade alta no epitélio luminal para RE e RP tanto no estro quanto no diestro; o epitélio glandular, estroma e miométrio mostraram reatividade moderada para os dois receptores durante as duas fases. Durante o anestro os resultados foram semelhantes aos encontrados durante a fase cíclica. Na avaliação da reatividade para RLH, durante o estro e diestro, o epitélio luminal mostrou reatividade de fraca a moderada, mas no diestro houve maior reatividade média. O epitélio glandular apresentou menor reatividade do que o luminal. No miométrio a coloração foi fraca durante todo o ciclo. Durante o anestro a reatividade foi fraca no epitélio luminal, ausente em quase todas as amostras no epitélio glandular e de fraca a ausente no miométrio. Neste experimento, não foi observada diferença significativa de reatividade entre os endométrios com e sem endometrose, mas as áreas afetadas mostraram coloração assíncrona para RE, RP e RLH. Na cérvice, foi observada imunorreatividade moderada a alta para RE e RP no epitélio luminal, no estroma e no músculo. A intensidade de coloração das células epiteliais e musculares variou pouco entre o estro e o diestro, mas durante o anestro houve maior reatividade no tecido muscular e no estroma. Foi observada reatividade para RLH no epitélio e camada muscular, sem variação significativa nas fases do ciclo. A intensidade de coloração foi de fraca a moderada no epitélio e fraca na camada muscular. No oviduto, observou-se imunorreatividade para RE e RP nos três tecidos, durante a fase cíclica e o anestro. No epitélio, os valores encontrados foram de moderados a altos, sem variação significativa nas três fases. A coloração das células epiteliais do oviduto foi nitidamente irregular, com o núcleo muito corado no que parecem ser células secretoras e pouco corado ou sem coloração nas células ciliadas, refletindo provavelmente as diferentes funções das células epiteliais neste órgão. No estroma a reatividade foi moderada durante a fase luteal, mostrando reatividade mais alta no estro e no anestro. A camada muscular apresentou reatividade máxima para RE no estro e no diestro. A reatividade para RLH no epitélio luminal foi de fraca a moderada durante todo o ciclo. No músculo também foi observada reatividade, porém bem mais fraca do que no epitélio. Durante o anestro somente três das oito amostras apresentaram reatividade no tecido muscular. No diestro foi observada maior reatividade do que no estro. Os resultados do presente estudo evidenciam, pela primeira vez, a presença de receptores para LH nos diferentes tecidos do trato reprodutor extragonadal da égua. Embora existam relatos da expressão e localização de RE e RP no endométrio equino, esta é a primeira vez que se utiliza a técnica de imunohistoquímica para localizar estes receptores na cérvice e no oviduto desta espécie. Foi observada variação individual bastante acentuada entre as amostras, em uma mesma fase cíclica. Provavelmente estes resultados sejam o reflexo da variação entre o dia do ciclo em que os animais se encontravam, bem como da complexidade dos mecanismos envolvidos na presença desses receptores. Os achados deste estudo indicam que tanto os hormônios gonadais quanto o LH atuam por meio de seus receptores nos diferentes tecidos do trato reprodutivo da égua, podendo servir para a elaboração de novas estratégias para melhorar a eficiência reprodutiva nesta espécie. / The aim of this study was to demonstrate the presence and localization of gonadotropic and steroid hormone receptors, in different tissues of the mare genital tract and the different reactivity to these receptors during the endometrial cycle and physiologic anestrus. Another objective was to compare the reactivity to theses receptors in mares with and without endometrosis. Immunohistochemistry was performed using the peroxidase anti-peroxidase technique (PAP). Uterus, cervix and oviduct of 41 criollo mares were collected in an abattoir. There was variation in the intensity of the staining and distribution for estrogen receptors (PR), progesterone receptors (PR) and luteinizing hormone receptors (LHR) with the endometrial cycle and different tissues. The endometrial surface epithelial cells were stained strongly for ER and PR in the estrous and dioestrus; glandular epithelial cells, stromal cells and smooth muscle cells of the myometrium had moderate staining for ER and PR during these two phases and in anestrus too. The immunoreactive score for LHR in the surface epithelial cells during endometrial cycle was weak to moderate but, in general, strong staining was observed in dioestrus. More weak staining intensity was observed in the glandular epithelial cells than luminal epithelial cells. Smooth muscle cells of the myometrium showed weak staining for LHR throughout the endometrial cycle. During the anestrus, the immunoreactivity score was weak in the surface epithelial cells. In general, the glandular epithelium was not stained. Myometrium cells were weak to not staining for LHR, in this phase. In this study there was no significant difference in immunoreactive score for ER, PR and LHR in endometrium with or without endometrosis but fibrotic glands showed different expression patterns of ER, PR and LHR, could evidence for functionally glandular maldifferentiation in endometrosis. The cervical epithelial surface, stromal cells and smooth muscle cells were moderate to strongly staining for ER and PR, with little variation throughout the endometrial cycle but the immunorectivity was strongest during the anestrus in muscular and stromal cells. Surface epithelial cells of cervix were weak to moderate stained for LHR; smooth muscle cells showed weak staining for these receptors. There was no variation during cycle. In the oviduct, epithelial, stromal and muscle cells showed reactivity for RE and RP, during cycle and anestrus. Epithelial cells were moderate to strongly staining for these receptors, with evident irregularity in different types of cells. Apparently ciliated epithelial cells were stained but the intensity was much less than that observed in nonciliated epithelial cells, probably reflecting different functions of these cells. Stromal cells showed moderate staining during dioestrus and strongest reactivity in estrous and anestrus; muscle cells showed strong reactivity for ER throughout the cycle. The reactivity for LHR was weak to moderate throughout the cycle in the epithelial cells and weak in the muscle cells. During anestrus only three strains of muscle cells showed reactivity for LHR. In dioestrus the intensity was strongest. These findings evidence for the firs time the presence for LHR in extra-gonadal reproductive organs of mare. Though there were reports of ER and PR expression in equine endometrium, this is the first report of localization of these receptors in cervix and oviduct of mare using immunohistochemistry. It was found marked individual variation among the strains. These results probably were caused by the variation among the day of cycle and the complexity of mechanisms involved in the presence of these receptors. The findings of the present study allow us to infer that the ovarian steroid hormones nad LH function through their receptors in different tissues of mare reproductive tract, can help us to elaborate new strategies to improve the reproductive efficiency in this specie.

Hormônio luteinizante

Imunohistoquímica

Reproducao animal : Equinos

Eguas : Gestacao animal

Oestradiol receptors

Progesterone receptors

Luteinizing hormone receptors

Oviduct

Uterus

Cervix

Immunohistochemistry

Identificação imunohistoquímica de receptores para hormônio luteinizante, estrôgeno e progesterona no trato reprodutivo extragonadal da égua / Immunohistochemical identification of luteinizing, estrogen and progesterone receptors in the extra-gonadal reproductive tract of mares

Esmeraldino, Anamaria Telles

January 2012

O objetivo deste trabalho foi verificar a presença e a localização de receptores para hormônios esteróides e gonadotróficos, através da técnica de imunohistoquímica, pelo método de peroxidase-antiperoxidase (PAP), nos diferentes tecidos que compõe o trato genital da égua e a variação de reatividade destes receptores durante o ciclo estral e no anestro fisiológico. Também se objetivou verificar se há diferença de reatividade em éguas com e sem endometrose. Foram coletadas amostras de útero, cérvice e oviduto, de 41 éguas sem raça definida e com histórico reprodutivo desconhecido, em um abatedouro. Quinze éguas se encontravam em estro, dezoito em diestro e oito éguas em anestro. Concluiu-se que a intensidade e a distribuição da coloração para os receptores de estrógeno (RE), progesterona (RP) e hormônio luteinizante (RLH) variaram de acordo com o tipo de célula e o estágio do ciclo estral. Nas amostras de endométrio observou-se imunorreatividade alta no epitélio luminal para RE e RP tanto no estro quanto no diestro; o epitélio glandular, estroma e miométrio mostraram reatividade moderada para os dois receptores durante as duas fases. Durante o anestro os resultados foram semelhantes aos encontrados durante a fase cíclica. Na avaliação da reatividade para RLH, durante o estro e diestro, o epitélio luminal mostrou reatividade de fraca a moderada, mas no diestro houve maior reatividade média. O epitélio glandular apresentou menor reatividade do que o luminal. No miométrio a coloração foi fraca durante todo o ciclo. Durante o anestro a reatividade foi fraca no epitélio luminal, ausente em quase todas as amostras no epitélio glandular e de fraca a ausente no miométrio. Neste experimento, não foi observada diferença significativa de reatividade entre os endométrios com e sem endometrose, mas as áreas afetadas mostraram coloração assíncrona para RE, RP e RLH. Na cérvice, foi observada imunorreatividade moderada a alta para RE e RP no epitélio luminal, no estroma e no músculo. A intensidade de coloração das células epiteliais e musculares variou pouco entre o estro e o diestro, mas durante o anestro houve maior reatividade no tecido muscular e no estroma. Foi observada reatividade para RLH no epitélio e camada muscular, sem variação significativa nas fases do ciclo. A intensidade de coloração foi de fraca a moderada no epitélio e fraca na camada muscular. No oviduto, observou-se imunorreatividade para RE e RP nos três tecidos, durante a fase cíclica e o anestro. No epitélio, os valores encontrados foram de moderados a altos, sem variação significativa nas três fases. A coloração das células epiteliais do oviduto foi nitidamente irregular, com o núcleo muito corado no que parecem ser células secretoras e pouco corado ou sem coloração nas células ciliadas, refletindo provavelmente as diferentes funções das células epiteliais neste órgão. No estroma a reatividade foi moderada durante a fase luteal, mostrando reatividade mais alta no estro e no anestro. A camada muscular apresentou reatividade máxima para RE no estro e no diestro. A reatividade para RLH no epitélio luminal foi de fraca a moderada durante todo o ciclo. No músculo também foi observada reatividade, porém bem mais fraca do que no epitélio. Durante o anestro somente três das oito amostras apresentaram reatividade no tecido muscular. No diestro foi observada maior reatividade do que no estro. Os resultados do presente estudo evidenciam, pela primeira vez, a presença de receptores para LH nos diferentes tecidos do trato reprodutor extragonadal da égua. Embora existam relatos da expressão e localização de RE e RP no endométrio equino, esta é a primeira vez que se utiliza a técnica de imunohistoquímica para localizar estes receptores na cérvice e no oviduto desta espécie. Foi observada variação individual bastante acentuada entre as amostras, em uma mesma fase cíclica. Provavelmente estes resultados sejam o reflexo da variação entre o dia do ciclo em que os animais se encontravam, bem como da complexidade dos mecanismos envolvidos na presença desses receptores. Os achados deste estudo indicam que tanto os hormônios gonadais quanto o LH atuam por meio de seus receptores nos diferentes tecidos do trato reprodutivo da égua, podendo servir para a elaboração de novas estratégias para melhorar a eficiência reprodutiva nesta espécie. / The aim of this study was to demonstrate the presence and localization of gonadotropic and steroid hormone receptors, in different tissues of the mare genital tract and the different reactivity to these receptors during the endometrial cycle and physiologic anestrus. Another objective was to compare the reactivity to theses receptors in mares with and without endometrosis. Immunohistochemistry was performed using the peroxidase anti-peroxidase technique (PAP). Uterus, cervix and oviduct of 41 criollo mares were collected in an abattoir. There was variation in the intensity of the staining and distribution for estrogen receptors (PR), progesterone receptors (PR) and luteinizing hormone receptors (LHR) with the endometrial cycle and different tissues. The endometrial surface epithelial cells were stained strongly for ER and PR in the estrous and dioestrus; glandular epithelial cells, stromal cells and smooth muscle cells of the myometrium had moderate staining for ER and PR during these two phases and in anestrus too. The immunoreactive score for LHR in the surface epithelial cells during endometrial cycle was weak to moderate but, in general, strong staining was observed in dioestrus. More weak staining intensity was observed in the glandular epithelial cells than luminal epithelial cells. Smooth muscle cells of the myometrium showed weak staining for LHR throughout the endometrial cycle. During the anestrus, the immunoreactivity score was weak in the surface epithelial cells. In general, the glandular epithelium was not stained. Myometrium cells were weak to not staining for LHR, in this phase. In this study there was no significant difference in immunoreactive score for ER, PR and LHR in endometrium with or without endometrosis but fibrotic glands showed different expression patterns of ER, PR and LHR, could evidence for functionally glandular maldifferentiation in endometrosis. The cervical epithelial surface, stromal cells and smooth muscle cells were moderate to strongly staining for ER and PR, with little variation throughout the endometrial cycle but the immunorectivity was strongest during the anestrus in muscular and stromal cells. Surface epithelial cells of cervix were weak to moderate stained for LHR; smooth muscle cells showed weak staining for these receptors. There was no variation during cycle. In the oviduct, epithelial, stromal and muscle cells showed reactivity for RE and RP, during cycle and anestrus. Epithelial cells were moderate to strongly staining for these receptors, with evident irregularity in different types of cells. Apparently ciliated epithelial cells were stained but the intensity was much less than that observed in nonciliated epithelial cells, probably reflecting different functions of these cells. Stromal cells showed moderate staining during dioestrus and strongest reactivity in estrous and anestrus; muscle cells showed strong reactivity for ER throughout the cycle. The reactivity for LHR was weak to moderate throughout the cycle in the epithelial cells and weak in the muscle cells. During anestrus only three strains of muscle cells showed reactivity for LHR. In dioestrus the intensity was strongest. These findings evidence for the firs time the presence for LHR in extra-gonadal reproductive organs of mare. Though there were reports of ER and PR expression in equine endometrium, this is the first report of localization of these receptors in cervix and oviduct of mare using immunohistochemistry. It was found marked individual variation among the strains. These results probably were caused by the variation among the day of cycle and the complexity of mechanisms involved in the presence of these receptors. The findings of the present study allow us to infer that the ovarian steroid hormones nad LH function through their receptors in different tissues of mare reproductive tract, can help us to elaborate new strategies to improve the reproductive efficiency in this specie.

Hormônio luteinizante

Imunohistoquímica

Reproducao animal : Equinos

Eguas : Gestacao animal

Oestradiol receptors

Progesterone receptors

Luteinizing hormone receptors

Oviduct

Uterus

Cervix

Immunohistochemistry

Identificação imunohistoquímica de receptores para hormônio luteinizante, estrôgeno e progesterona no trato reprodutivo extragonadal da égua / Immunohistochemical identification of luteinizing, estrogen and progesterone receptors in the extra-gonadal reproductive tract of mares

Esmeraldino, Anamaria Telles

January 2012

O objetivo deste trabalho foi verificar a presença e a localização de receptores para hormônios esteróides e gonadotróficos, através da técnica de imunohistoquímica, pelo método de peroxidase-antiperoxidase (PAP), nos diferentes tecidos que compõe o trato genital da égua e a variação de reatividade destes receptores durante o ciclo estral e no anestro fisiológico. Também se objetivou verificar se há diferença de reatividade em éguas com e sem endometrose. Foram coletadas amostras de útero, cérvice e oviduto, de 41 éguas sem raça definida e com histórico reprodutivo desconhecido, em um abatedouro. Quinze éguas se encontravam em estro, dezoito em diestro e oito éguas em anestro. Concluiu-se que a intensidade e a distribuição da coloração para os receptores de estrógeno (RE), progesterona (RP) e hormônio luteinizante (RLH) variaram de acordo com o tipo de célula e o estágio do ciclo estral. Nas amostras de endométrio observou-se imunorreatividade alta no epitélio luminal para RE e RP tanto no estro quanto no diestro; o epitélio glandular, estroma e miométrio mostraram reatividade moderada para os dois receptores durante as duas fases. Durante o anestro os resultados foram semelhantes aos encontrados durante a fase cíclica. Na avaliação da reatividade para RLH, durante o estro e diestro, o epitélio luminal mostrou reatividade de fraca a moderada, mas no diestro houve maior reatividade média. O epitélio glandular apresentou menor reatividade do que o luminal. No miométrio a coloração foi fraca durante todo o ciclo. Durante o anestro a reatividade foi fraca no epitélio luminal, ausente em quase todas as amostras no epitélio glandular e de fraca a ausente no miométrio. Neste experimento, não foi observada diferença significativa de reatividade entre os endométrios com e sem endometrose, mas as áreas afetadas mostraram coloração assíncrona para RE, RP e RLH. Na cérvice, foi observada imunorreatividade moderada a alta para RE e RP no epitélio luminal, no estroma e no músculo. A intensidade de coloração das células epiteliais e musculares variou pouco entre o estro e o diestro, mas durante o anestro houve maior reatividade no tecido muscular e no estroma. Foi observada reatividade para RLH no epitélio e camada muscular, sem variação significativa nas fases do ciclo. A intensidade de coloração foi de fraca a moderada no epitélio e fraca na camada muscular. No oviduto, observou-se imunorreatividade para RE e RP nos três tecidos, durante a fase cíclica e o anestro. No epitélio, os valores encontrados foram de moderados a altos, sem variação significativa nas três fases. A coloração das células epiteliais do oviduto foi nitidamente irregular, com o núcleo muito corado no que parecem ser células secretoras e pouco corado ou sem coloração nas células ciliadas, refletindo provavelmente as diferentes funções das células epiteliais neste órgão. No estroma a reatividade foi moderada durante a fase luteal, mostrando reatividade mais alta no estro e no anestro. A camada muscular apresentou reatividade máxima para RE no estro e no diestro. A reatividade para RLH no epitélio luminal foi de fraca a moderada durante todo o ciclo. No músculo também foi observada reatividade, porém bem mais fraca do que no epitélio. Durante o anestro somente três das oito amostras apresentaram reatividade no tecido muscular. No diestro foi observada maior reatividade do que no estro. Os resultados do presente estudo evidenciam, pela primeira vez, a presença de receptores para LH nos diferentes tecidos do trato reprodutor extragonadal da égua. Embora existam relatos da expressão e localização de RE e RP no endométrio equino, esta é a primeira vez que se utiliza a técnica de imunohistoquímica para localizar estes receptores na cérvice e no oviduto desta espécie. Foi observada variação individual bastante acentuada entre as amostras, em uma mesma fase cíclica. Provavelmente estes resultados sejam o reflexo da variação entre o dia do ciclo em que os animais se encontravam, bem como da complexidade dos mecanismos envolvidos na presença desses receptores. Os achados deste estudo indicam que tanto os hormônios gonadais quanto o LH atuam por meio de seus receptores nos diferentes tecidos do trato reprodutivo da égua, podendo servir para a elaboração de novas estratégias para melhorar a eficiência reprodutiva nesta espécie. / The aim of this study was to demonstrate the presence and localization of gonadotropic and steroid hormone receptors, in different tissues of the mare genital tract and the different reactivity to these receptors during the endometrial cycle and physiologic anestrus. Another objective was to compare the reactivity to theses receptors in mares with and without endometrosis. Immunohistochemistry was performed using the peroxidase anti-peroxidase technique (PAP). Uterus, cervix and oviduct of 41 criollo mares were collected in an abattoir. There was variation in the intensity of the staining and distribution for estrogen receptors (PR), progesterone receptors (PR) and luteinizing hormone receptors (LHR) with the endometrial cycle and different tissues. The endometrial surface epithelial cells were stained strongly for ER and PR in the estrous and dioestrus; glandular epithelial cells, stromal cells and smooth muscle cells of the myometrium had moderate staining for ER and PR during these two phases and in anestrus too. The immunoreactive score for LHR in the surface epithelial cells during endometrial cycle was weak to moderate but, in general, strong staining was observed in dioestrus. More weak staining intensity was observed in the glandular epithelial cells than luminal epithelial cells. Smooth muscle cells of the myometrium showed weak staining for LHR throughout the endometrial cycle. During the anestrus, the immunoreactivity score was weak in the surface epithelial cells. In general, the glandular epithelium was not stained. Myometrium cells were weak to not staining for LHR, in this phase. In this study there was no significant difference in immunoreactive score for ER, PR and LHR in endometrium with or without endometrosis but fibrotic glands showed different expression patterns of ER, PR and LHR, could evidence for functionally glandular maldifferentiation in endometrosis. The cervical epithelial surface, stromal cells and smooth muscle cells were moderate to strongly staining for ER and PR, with little variation throughout the endometrial cycle but the immunorectivity was strongest during the anestrus in muscular and stromal cells. Surface epithelial cells of cervix were weak to moderate stained for LHR; smooth muscle cells showed weak staining for these receptors. There was no variation during cycle. In the oviduct, epithelial, stromal and muscle cells showed reactivity for RE and RP, during cycle and anestrus. Epithelial cells were moderate to strongly staining for these receptors, with evident irregularity in different types of cells. Apparently ciliated epithelial cells were stained but the intensity was much less than that observed in nonciliated epithelial cells, probably reflecting different functions of these cells. Stromal cells showed moderate staining during dioestrus and strongest reactivity in estrous and anestrus; muscle cells showed strong reactivity for ER throughout the cycle. The reactivity for LHR was weak to moderate throughout the cycle in the epithelial cells and weak in the muscle cells. During anestrus only three strains of muscle cells showed reactivity for LHR. In dioestrus the intensity was strongest. These findings evidence for the firs time the presence for LHR in extra-gonadal reproductive organs of mare. Though there were reports of ER and PR expression in equine endometrium, this is the first report of localization of these receptors in cervix and oviduct of mare using immunohistochemistry. It was found marked individual variation among the strains. These results probably were caused by the variation among the day of cycle and the complexity of mechanisms involved in the presence of these receptors. The findings of the present study allow us to infer that the ovarian steroid hormones nad LH function through their receptors in different tissues of mare reproductive tract, can help us to elaborate new strategies to improve the reproductive efficiency in this specie.

Hormônio luteinizante

Imunohistoquímica

Reproducao animal : Equinos

Eguas : Gestacao animal

Oestradiol receptors

Progesterone receptors

Luteinizing hormone receptors

Oviduct

Uterus

Cervix

Immunohistochemistry