Imunolocalização e expressão do receptor de ocitocina (OTR) e da globulina ligadora de hormônios sexuais (SHBG) em testículo e epidídimo de cães e suas correlações com a qualidade espermática / Immunolocalization and expression of oxytocin receptors (OTR) and sex hormone- binding globulin (SHBG) in the testicle and epididymis of dogs: correlation with sperm quality

Andressa Dalmazzo

22 July 2016

A ocitocina (OT) é um neuropeptídio hipotalâmico, que dentre suas funções na fêmea destaca-se a contração uterina durante o parto e a ejeção do leite. No entanto, estudos vêm demonstrando importantes funções endócrinas e parácrinas no trato reprodutivo masculino. Evidenciando a possível ação conjunta entre OT e a Globulina ligadora de hormônios sexuais (SHBG). Entretanto, em cães não existem informações disponíveis quanto sua atuação. Assim, estudos direcionados aos receptores de ocitocina (OTR) e SHBG e suas funções no sistema reprodutor masculino, mais especificamente na fisiologia espermática, são de suma importância para os conhecimentos da fisiologia reprodutiva para posterior aplicação em biotecnologias reprodutivas em pequenos animais e humanos, fomentando também novas perspectivas para a utilização terapêutica da ocitocina em enfermidades reprodutivas. Portanto, o objetivo deste estudo é verificar a expressão gênica e proteica do OTR e SHBG no testículo e epidídimo de cães, correlacionando tais dados com a qualidade espermática e dosagem de testosterona. Para tal, foram coletados testículos e epidídimos de 26 cães em idade reprodutiva (1 a 5 anos). Após a orquiectomia, foi realizada a coleta dos espermatozoides provenientes da cauda do epidídimo e então, as amostras foram analisadas quanto à motilidade computadorizada do sêmen (CASA), integridade de membrana plasmática (Eosina/Nigrosina), integridade de membrana acrossomal (Fast Green / Rosa Bengala) e atividade mitocondrial (3´3 Diaminobenzidine). A imunolocalização do OTR e SHBG foi realizada através de imunoistoquímica e imunofluorescência. E a análise de expressão gênica, através da Reação em cadeia da polimerase em tempo real (qRT PCR). E da expressão proteica, através do Western Blotting. Foram encontradas correlações significantes e positivas entre as expressões gênicas do OTR e do SHBG, tanto no testículo como no epidídimo. Além disto, a expressão do OTR no testículo correlacionou-se positivamente com espermatozoides com membrana acrossomal íntegra e negativamente com a porcentagem de células com baixa atividade mitocondrial. Já o SHBG do testículo, correlacionou-se positivamente com a concentração de espermatozoides, porcentagens de células com membrana plasmática e acrossomal íntegras, motilidade, motilidade progressiva e velocidade rápida, e negativamente com a porcentagem de células com baixa atividade mitocondrial. Por outro lado, no epidídimo, a expressão gênica do SHBG apresentou correlação positiva com a porcentagem de células com membrana plasmática íntegra e expressão proteica de SHBG no testículo. Quanto a expressão proteica, o OTR no testículo obteve correlação positiva com testosterona e negativa com atividade mitocondrial nula, já no epidídimo, ocorreu correlação positiva com integridade de membrana acrossomal e negativa também com atividade mitocondrial nula. Em relação ao SHBG, houve correlação positiva com a expressão gênica do SHBG no epidídimo, células normais e padrões de velocidade. E na imunoistoquímica foi possível observar a imunomarcação do OTR e SHBG na musculatura lisa e células de Leydig do testículo e OTR na musculatura lisa do epidídimo. No entanto, não houve imunomarcação do SHBG no epidídimo, assim como expressão proteica. Nossos resultados demonstraram que o OTR e SHBG são expressos nos testículos e epidídimos de cães e que estão relacionados a funções espermáticas importantes, sendo essenciais para o sucesso reprodutivo / Oxytocin (OT) is a hypothalamic neuropeptide that plays important and well known roles in the female such as uterine contraction during childbirth and milk ejection. Notwithstanding, studies have shown important endocrine and paracrine functions also in the male reproductive tract, highlighted by the possible joint action between OT and sex hormone-binding globulin (SHBG). In dogs, however, there is no information available with regards to the role of these hormones in the reproductive function. Thus, studies directed to oxytocin (OTR) and SHBG receptors and their functions in the male reproductive system, specifically with regards to sperm physiology. Such knowledge is essential to understand the reproductive physiology for the subsequent use in reproductive biotechnologies in small animals and humans, especially by providing new perspectives for the therapeutic use of oxytocin in reproductive disorders. Therefore, the aim of this study is to assess the gene and protein expression of OTR and SHBG in the testis and epididymis of dogs, correlating these data with sperm quality and testosterone dosage. To this end, testis and epididymis were collected from 26 dogs in reproductive age (1 to 5 years). After orchiectomy, collection of sperm from the cauda epididymis was carried out and then the samples were analyzed for computerized motility of semen (CASA), plasma membrane integrity (eosin / nigrosine), acrosome membrane integrity (Fast Green / rose Bengal) and mitochondrial activity (3\'3 Diaminobenzidine). The immunolocalization of OTR and SHBG was performed by immunohistochemistry and immunofluorescence. Gene expression analysis was performed by real time polymerase chain reaction (qRT - PCR). The protein expression was further assessed by Western Blotting. Significant positive correlations were found between the gene expressions of OTR and SHBG in both the testis and epididymis. Furthermore, the OTR expression in testis was positively correlated to sperm with intact acrosome membrane and negatively to the percentage of cells with low mitochondrial activity. On the other hand, testicular SHBG was positively correlated with sperm concentration, percentage of sperm with intact plasma membrane and acrosome, motility, progressive motility and the percentage of RAPID sperm. Also, negative correlation was found between testicular SHBG and the percentage of cells with low mitochondrial activity. Furthermore, in the epididymis, SHBG gene expression was positively correlated to the percentage of cells with intact plasma membrane and protein expression of SHBG in the testis. In relation to the protein expression, the OTR in the testis correlated positively with blood plasma testosterone and negatively with sperm with no mitochondrial activity. In the epididymis, OTR protein expression correlated positively with sperm showing intact acrosome and negatively with cells with no mitochondrial activity. With regards to SHBG proteins expression, there was a positive correlation to SHBG gene expression in the epididymis, normal cells and some patterns of sperm velocity. In the immunohistochemistry, we observed the OTR and SHBG immunostainings in the smooth muscle and Leydig cells of the testis while, in the epididymis, the OTR immunostaining could be observed only in the smooth muscle. Interestingly, there was no immunostaining or protein expression of SHBG in the epididymis. Our results demonstrated that OTR and SHBG are expressed in the testis and epididymis of dogs and are related to important sperm functions, essential for reproductive success

Epidídimo

Espermatozoide

Globulina ligadora de hormônios sexuais

Receptor de ocitocina

Testículo

Epididymis

Oxytocin receptor

Sex hormone binding globulin

Sperm

Testicle

Modulation of Oxytocin Receptors in Right Ventricular Hypertrophy

Wang, Yang

04 1900

L’hypertension pulmonaire (HP) est une maladie dont l’étiologie est inconnue et qui entraîne ultimement une défaillance du ventricule droit (VD) et le décès. L’HP peut être induite chez le rat par la la monocrotaline (MCT), un alcaloïde pyrrolizidique extrait de la plante Crotalaria Spectabilis, causant des lésions à l’endothélium des artères pulmonaires, menant à un épaississement de ces dernières et à une augmentation de la résistance vasculaire. Ceci à pour conséquence de causer une hypertrophie du VD, de l’inflammation, une dysfonction endothéliale NO-dépendante des artères coronariennes et une augmentation des peptides natriurétiques circulants. Objectif: Nous avons testé l’hypothèse selon laquelle l’étiopathologie de l’HP impliquerait le récepteur à ocytocine (OTR) dû à son implication fonctionnelle avec les cytokines inflammatoires et la libération du peptide natriurétique atrial (ANP) et du NO. Méthodes: Des rats mâles Sprague-Dawley pesant 220-250g reçurent une seule injection sous-cutanée de MCT (60 mg/kg). 6 à 7 semaines (46±1 jours) suivant l’injection, les rats furent sacrifiés et l’expression génique et protéique fut déterminée par PCR en temps réel et par western blot, respectivement, dans le VD et le ventricule gauche (VG) Résultats: Les rats traités au MCT démontrèrent une augmentation significative du VD. Une hypertrophie du VD était évidente puisque le ratio du VD sur le VG ainsi que le poids du septum étaient près de 77% plus élevés chez les rats traités au MCT que chez les rats contrôles. Le traitement au MCT augmenta l’expression génique d’ANP (3.7-fois dans le VG et 8-fois dans le VD) ainisi que le NP du cerveau (2.7-fois dans le VG et 10-fois dans le VD). Les transcrits de trois récepteurs de NP augmentèrent significativement (0.3-2 fois) seulement dans le VD. L’expression protéique de la NO synthase (iNOS) fut également augmentée de façon sélective dans le VD. Par contre, les transcripts de NOS endothéliale et de NOS neuronale étaient plus élevés (0.5-2 fold) dans le VG. L’ARNm et l’expression protéique d’OTR furent diminués de 50% dans le VD, tandis qu’une augmentation de l’expression des cytokines IL-1β and IL-6 fut observée. L’ARNm de Nab1, un marqueur d’hypertrophie pathologique, fut augmentée de deux-fois dans le VD. Conclusion: L’augmentation d’expression génique de NP dans le VD des rats traités au MCT est associée à une augmentation des transcripts du récepteur NP, suggérant une action locale de NP dans le VD durant l’HP. L’expression d’OTR est atténuée dans le VD, possiblement par des cytokines inflammatoires puisque le promoteur du gène de l’OTR contient de multiples éléments de réponse aux interleukines. Diminuer l’expression d’OTR dans le VD durant l’hypertension pulmonaire pourrait influencer de manière positive la fonction cardiaque car l’OTR régule la contractilité et le rythme cardiaque. Mots clés: hypertension pulmonaire, hypertrophie du ventricule droit monocrotaline, récepteur à ocytocine, inflammation, peptides natriurétiques. / Pulmonary hypertension (PH) is a disease of unknown etiology that ultimately causes failure of right ventricle (RV) with a lethal outcome. PH can be induced in the rat with monocrotaline (MCT), a pyrrolizidine alkaloid from the plant Crotolaria spectabilis that damages the pulmonary artery endothelium leading to thickening of the pulmonary arteries and increased vascular resistance. This subsequently results in RV hypertrophy, inflammation, nitric oxide (NO)-associated coronary endothelial dysfunction and increment of natriuretic peptides (NP) in the circulation. Objective: We verified hypothesis that the etiopathogenesis of PH involves the oxytocin receptor (OTR) because of its functional association with inflammatory cytokines and release of atrial natriuretic peptide (ANP) and NO. Methods: Male Sprague-Dawley rats weighing 220-250g received a single subcutaneous injection of 60 mg/kg of MCT. Six to 7 weeks (46±1 days) following the injection, rats were sacrificed and gene and protein expression were detected by real-time PCR and western-blot analysis, respectively, in the RV and LV (left ventricle). Results: MCT-treated rats displayed significant increases in RV weight. RV hypertrophy was evident as the ratio of the RV to LV plus septum weight was nearly 77% higher in MCT-treated rats compared to control rats. MCT treatment increased transcripts of ANP (3.7-fold in the LV and 8-fold in RV) and brain NP (2.7-fold in the LV and 10-fold in RV). Transcripts for three NP receptors significantly increased (0.3-2 fold) only in the RV. iNOS (inducible NO synthase) protein expression also increased selectively in the RV. In contrast, the endothelial NOS and neural NOS transcripts heightened (0.5-2 fold) in the LV. Both OTR mRNA and protein were decreased by 50% in the RV, whereas an up-regulation of cytokines IL-1β and IL-6 was observed. Nab1 mRNA, a marker of pathological hypertrophy, increased two-fold in the RV. Conclusion: Increased gene expression of NP in the RV of the MCT-treated rat correlates with upregulation of NP receptor transcripts indicating local NP action in the RV during PH. OTR expression is decreased in the RV possibly by inflammatory cytokines, IL-1 and IL-6 because OTR promoter region contains multiple putative interleukin-response elements. Lowering OTR in RV during pulmonary hypertension can influence cardiac function since OT regulates heart rate and cardiac contractility and is linked with cardioprotective system ANP and NO. Keywords: pulmonary hypertension, right ventricular hypertrophy, monocrotaline, oxytocin receptor, inflammation, natriuretic peptides.

Hypertension pulmonaire

Pulmonary hypertension

Right ventricular hypertrophy

Récepteur à ocytocine

Oxytocin receptor

Inflammation

Inflammation

Peptides natriurétiques

Natriuretic peptides

Evolution of Vertebrate Endocrine and Neuronal Gene Families : Focus on Pituitary and Retina

Ocampo Daza, Daniel

January 2013

The duplication of genes followed by selection is perhaps the most prominent way in which molecular biological systems gain multiplicity, diversity and functional complexity in evolution. Whole genome duplications (WGDs) therefore have the potential of generating an extraordinary amount of evolutionary innovation. It is now accepted that the vertebrate lineage has gone through two rounds of WGD in its early stages, after the divergence of invertebrate chordates and before the emergence of jawed vertebrates. These basal vertebrate WGDs are called 2R for two rounds of whole genome duplication. An additional WGD called 3R occurred early in the evolution of teleost fishes, before the radiation of this species-rich group. This thesis describes the evolution of several endocrine and neuronal gene families in relation to the vertebrate WGDs, through a comparative genomic approach including both phylogenetic analyses and chromosomal location data across a wide range of vertebrate taxa. These results show that numerous endocrine gene families have expanded in 2R and in several cases also in 3R. These include the gene families of oxytocin and vasopressin receptors (OT/VP-R), somatostatin receptors (SSTR) and insulin-like growth factor binding proteins (IGFBP). For the OT/VP-R and SSTR families, previously undescribed subtypes were identified. The protein hormone family that includes growth hormone (GH), prolactin (PRL) and somatolactin (SL) acquired a new PRL gene in 2R, however the origins of GH, PRL and SL likely predate 2R. The corresponding family of receptors diversified during different time periods through a combination of local duplications and 3R. Neuronal gene families of the visual system have also expanded in 2R and 3R. The results presented here demonstrate that the vertebrate repertoire of visual opsin genes arose in 2R as part of chromosomal blocks that also include the OT/VP-R genes. The gene families including the transducin alpha, beta and gamma subunits also arose in 2R, hinting at the importance of these events in the diversification and specialization of phototransduction cascades for rods and cones. Thus, the whole genome duplications have been important contributors to the evolution of both vision and endocrine regulation in the vertebrates.

phylogenetics

evolution

molecular evolution

gene family evolution

genome duplication

gene duplication

oxytocin receptor

vasopressin receptor

visual opsin

transducin

growth hormone

prolactin

somatolactin

growth hormone receptor

prolactin receptor

somatostatin receptor

SSTR

IGFBP

evolution

molekylär evolution

fylogeni

Modulation of Oxytocin Receptors in Right Ventricular Hypertrophy

Wang, Yang

04 1900

L’hypertension pulmonaire (HP) est une maladie dont l’étiologie est inconnue et qui entraîne ultimement une défaillance du ventricule droit (VD) et le décès. L’HP peut être induite chez le rat par la la monocrotaline (MCT), un alcaloïde pyrrolizidique extrait de la plante Crotalaria Spectabilis, causant des lésions à l’endothélium des artères pulmonaires, menant à un épaississement de ces dernières et à une augmentation de la résistance vasculaire. Ceci à pour conséquence de causer une hypertrophie du VD, de l’inflammation, une dysfonction endothéliale NO-dépendante des artères coronariennes et une augmentation des peptides natriurétiques circulants. Objectif: Nous avons testé l’hypothèse selon laquelle l’étiopathologie de l’HP impliquerait le récepteur à ocytocine (OTR) dû à son implication fonctionnelle avec les cytokines inflammatoires et la libération du peptide natriurétique atrial (ANP) et du NO. Méthodes: Des rats mâles Sprague-Dawley pesant 220-250g reçurent une seule injection sous-cutanée de MCT (60 mg/kg). 6 à 7 semaines (46±1 jours) suivant l’injection, les rats furent sacrifiés et l’expression génique et protéique fut déterminée par PCR en temps réel et par western blot, respectivement, dans le VD et le ventricule gauche (VG) Résultats: Les rats traités au MCT démontrèrent une augmentation significative du VD. Une hypertrophie du VD était évidente puisque le ratio du VD sur le VG ainsi que le poids du septum étaient près de 77% plus élevés chez les rats traités au MCT que chez les rats contrôles. Le traitement au MCT augmenta l’expression génique d’ANP (3.7-fois dans le VG et 8-fois dans le VD) ainisi que le NP du cerveau (2.7-fois dans le VG et 10-fois dans le VD). Les transcrits de trois récepteurs de NP augmentèrent significativement (0.3-2 fois) seulement dans le VD. L’expression protéique de la NO synthase (iNOS) fut également augmentée de façon sélective dans le VD. Par contre, les transcripts de NOS endothéliale et de NOS neuronale étaient plus élevés (0.5-2 fold) dans le VG. L’ARNm et l’expression protéique d’OTR furent diminués de 50% dans le VD, tandis qu’une augmentation de l’expression des cytokines IL-1β and IL-6 fut observée. L’ARNm de Nab1, un marqueur d’hypertrophie pathologique, fut augmentée de deux-fois dans le VD. Conclusion: L’augmentation d’expression génique de NP dans le VD des rats traités au MCT est associée à une augmentation des transcripts du récepteur NP, suggérant une action locale de NP dans le VD durant l’HP. L’expression d’OTR est atténuée dans le VD, possiblement par des cytokines inflammatoires puisque le promoteur du gène de l’OTR contient de multiples éléments de réponse aux interleukines. Diminuer l’expression d’OTR dans le VD durant l’hypertension pulmonaire pourrait influencer de manière positive la fonction cardiaque car l’OTR régule la contractilité et le rythme cardiaque. Mots clés: hypertension pulmonaire, hypertrophie du ventricule droit monocrotaline, récepteur à ocytocine, inflammation, peptides natriurétiques. / Pulmonary hypertension (PH) is a disease of unknown etiology that ultimately causes failure of right ventricle (RV) with a lethal outcome. PH can be induced in the rat with monocrotaline (MCT), a pyrrolizidine alkaloid from the plant Crotolaria spectabilis that damages the pulmonary artery endothelium leading to thickening of the pulmonary arteries and increased vascular resistance. This subsequently results in RV hypertrophy, inflammation, nitric oxide (NO)-associated coronary endothelial dysfunction and increment of natriuretic peptides (NP) in the circulation. Objective: We verified hypothesis that the etiopathogenesis of PH involves the oxytocin receptor (OTR) because of its functional association with inflammatory cytokines and release of atrial natriuretic peptide (ANP) and NO. Methods: Male Sprague-Dawley rats weighing 220-250g received a single subcutaneous injection of 60 mg/kg of MCT. Six to 7 weeks (46±1 days) following the injection, rats were sacrificed and gene and protein expression were detected by real-time PCR and western-blot analysis, respectively, in the RV and LV (left ventricle). Results: MCT-treated rats displayed significant increases in RV weight. RV hypertrophy was evident as the ratio of the RV to LV plus septum weight was nearly 77% higher in MCT-treated rats compared to control rats. MCT treatment increased transcripts of ANP (3.7-fold in the LV and 8-fold in RV) and brain NP (2.7-fold in the LV and 10-fold in RV). Transcripts for three NP receptors significantly increased (0.3-2 fold) only in the RV. iNOS (inducible NO synthase) protein expression also increased selectively in the RV. In contrast, the endothelial NOS and neural NOS transcripts heightened (0.5-2 fold) in the LV. Both OTR mRNA and protein were decreased by 50% in the RV, whereas an up-regulation of cytokines IL-1β and IL-6 was observed. Nab1 mRNA, a marker of pathological hypertrophy, increased two-fold in the RV. Conclusion: Increased gene expression of NP in the RV of the MCT-treated rat correlates with upregulation of NP receptor transcripts indicating local NP action in the RV during PH. OTR expression is decreased in the RV possibly by inflammatory cytokines, IL-1 and IL-6 because OTR promoter region contains multiple putative interleukin-response elements. Lowering OTR in RV during pulmonary hypertension can influence cardiac function since OT regulates heart rate and cardiac contractility and is linked with cardioprotective system ANP and NO. Keywords: pulmonary hypertension, right ventricular hypertrophy, monocrotaline, oxytocin receptor, inflammation, natriuretic peptides.

Hypertension pulmonaire

Pulmonary hypertension

Right ventricular hypertrophy

Récepteur à ocytocine

Oxytocin receptor

Inflammation

Inflammation

Peptides natriurétiques

Natriuretic peptides