Bicarbonate transporters in male fertility: identification and functionality in testicular cells
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2013 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) |
| Texto Completo: | http://hdl.handle.net/10400.6/1347 |
Resumo: | The formation of competent spermatozoa is a complex event that depends on the establishment of adequate environments throughout the male reproductive tract. The maintenance of a proper ionic content in the luminal milieus is crucial for spermatozoa maturation. Bicarbonate is not only essential to ionic homeostasis, as HCO3 - concentration plays an essential role in the pH maintenance along the male reproductive tract. Diabetes mellitus (DM) is one the most prominent public health threats in modern societies and its incidence is drastically increasing in men with reproductive age. This metabolic disease is characterized by hyperglycaemia that can result from defects in insulin secretion and/or insulin action. There are two types of DM, type-1 DM and type-2 DM (T2DM). T2DM is referred to as non-insulin-dependent diabetes, and encompasses individuals who have insulin resistance and usually have a relative insufficient insulin secretion. This type of diabetes can be prevented if detected early, in a status called pre-diabetes, which usually precedes the appearance of the disease. It has been reported that DM alters pHi regulation in mammalian cells mainly by markedly altering the activity in some ion transporters, particularly some bicarbonatedependent mechanisms. Little is known on the effects of this pathology on the membrane transport mechanisms involved in pH regulation on male reproductive tract cells and even fewer on the effects of the different stages involved in the progression of this pathology, particularly during pre-diabetes. The first objective of this work was to analyse possible alterations on the levels of the most relevant bicarbonate transporters of the Slc4 family (anion exchanger 2 -AE2; Na+ -driven Cl- /HCO3 - exchanger - NDCBE; electrogenic Na+ /HCO3 - co-transporter 1- NBCe1; electroneutral Na+ /HCO3 - co-transporter 1 - NBCn1) in testis and epididymis of a pre-diabetic animal model. Protein and mRNA expression levels were evaluated by western blot and real-time PCR, respectively. We were able to confirm the presence of all the bicarbonate transporters of the Slc4 family studied both in testis and epididymis. At testicular level, although no alterations were detected in protein expression, the mRNA levels of NBCe1, NBCn1 and NDCBE were significantly increased in pre-diabetic animals. On the other hand, at epididymal level, prediabetes caused a significant increase on AE2 protein levels and a significant decrease of NDCBE protein levels. Hence, these alterations might translate into changes of the HCO3 − transepithelial epididymal fluxes in vivo, which might represent a threat for sperm survival during storage in the epididymis. Our results might correlate with previous results that reported a significant increase in abnormal sperm morphology in pre-diabetic rats. Furthermore, as several studies support an association of men with higher 17βestradiol (E2) levels and the increased risk of diabetes and, moreover, E2 is responsible for the modulation of the expression of specific ion transporters in the male reproductive tract, the second objective of our work was to determine the effect of this sex steroid hormone on the expression and functionality of selected bicarbonate transporters of the Slc4 family in cultured Sertoli cells (SCs). All the selected four transporters were identified and quantified in SCs (using RT-PCR and real time PCR, respectively). In cells treated with E2 (100 nM) a significant increase in mRNA expression levels of AE2, NBCn1 and NBCe1 was observed. Subsequently, we also evaluated the effect of E2 (100 nM) on transcellular transport in SCs, grown in semi-permeable supports, using the Voltage-Clamp technique. E2-treated SCs presented a significant alteration on the shift of the short-circuit current (∆Isc) induced by ATP, as well as on short-circuit current (Isc) recovery after stimulation. These alterations may be promoted by the increase of AE2 mRNA levels observed in E2-treated cells, as in these cells the Isc involves the secretion of Clthrough the apical membrane by an ATP-activated Clconductance and its absorption via HCO3 − -dependent mechanisms through the basolateral membrane. An increase on AE2 levels will surely be responsible for a prompter effect of this transporter on Isc variation following ATP activation. Thus, our results show a relation of the pre-diabetes, as well as increased E2 levels, with the expression/function of bicarbonate transporters in rat epididymis and SCs, providing new evidence on the mechanisms by which this prodromal stage of DM and its associated features can affect male reproductive function. |
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Bicarbonate transporters in male fertility: identification and functionality in testicular cellsTransportadores de bicarbonato na fertilidade masculina: identificação e funcionalidade nas células testicularesDiabetes mellitus - Fertilidade masculinaDiabetes mellitus - EstrogéniosTransportadores de bicarbonatoTransportadores membranaresThe formation of competent spermatozoa is a complex event that depends on the establishment of adequate environments throughout the male reproductive tract. The maintenance of a proper ionic content in the luminal milieus is crucial for spermatozoa maturation. Bicarbonate is not only essential to ionic homeostasis, as HCO3 - concentration plays an essential role in the pH maintenance along the male reproductive tract. Diabetes mellitus (DM) is one the most prominent public health threats in modern societies and its incidence is drastically increasing in men with reproductive age. This metabolic disease is characterized by hyperglycaemia that can result from defects in insulin secretion and/or insulin action. There are two types of DM, type-1 DM and type-2 DM (T2DM). T2DM is referred to as non-insulin-dependent diabetes, and encompasses individuals who have insulin resistance and usually have a relative insufficient insulin secretion. This type of diabetes can be prevented if detected early, in a status called pre-diabetes, which usually precedes the appearance of the disease. It has been reported that DM alters pHi regulation in mammalian cells mainly by markedly altering the activity in some ion transporters, particularly some bicarbonatedependent mechanisms. Little is known on the effects of this pathology on the membrane transport mechanisms involved in pH regulation on male reproductive tract cells and even fewer on the effects of the different stages involved in the progression of this pathology, particularly during pre-diabetes. The first objective of this work was to analyse possible alterations on the levels of the most relevant bicarbonate transporters of the Slc4 family (anion exchanger 2 -AE2; Na+ -driven Cl- /HCO3 - exchanger - NDCBE; electrogenic Na+ /HCO3 - co-transporter 1- NBCe1; electroneutral Na+ /HCO3 - co-transporter 1 - NBCn1) in testis and epididymis of a pre-diabetic animal model. Protein and mRNA expression levels were evaluated by western blot and real-time PCR, respectively. We were able to confirm the presence of all the bicarbonate transporters of the Slc4 family studied both in testis and epididymis. At testicular level, although no alterations were detected in protein expression, the mRNA levels of NBCe1, NBCn1 and NDCBE were significantly increased in pre-diabetic animals. On the other hand, at epididymal level, prediabetes caused a significant increase on AE2 protein levels and a significant decrease of NDCBE protein levels. Hence, these alterations might translate into changes of the HCO3 − transepithelial epididymal fluxes in vivo, which might represent a threat for sperm survival during storage in the epididymis. Our results might correlate with previous results that reported a significant increase in abnormal sperm morphology in pre-diabetic rats. Furthermore, as several studies support an association of men with higher 17βestradiol (E2) levels and the increased risk of diabetes and, moreover, E2 is responsible for the modulation of the expression of specific ion transporters in the male reproductive tract, the second objective of our work was to determine the effect of this sex steroid hormone on the expression and functionality of selected bicarbonate transporters of the Slc4 family in cultured Sertoli cells (SCs). All the selected four transporters were identified and quantified in SCs (using RT-PCR and real time PCR, respectively). In cells treated with E2 (100 nM) a significant increase in mRNA expression levels of AE2, NBCn1 and NBCe1 was observed. Subsequently, we also evaluated the effect of E2 (100 nM) on transcellular transport in SCs, grown in semi-permeable supports, using the Voltage-Clamp technique. E2-treated SCs presented a significant alteration on the shift of the short-circuit current (∆Isc) induced by ATP, as well as on short-circuit current (Isc) recovery after stimulation. These alterations may be promoted by the increase of AE2 mRNA levels observed in E2-treated cells, as in these cells the Isc involves the secretion of Clthrough the apical membrane by an ATP-activated Clconductance and its absorption via HCO3 − -dependent mechanisms through the basolateral membrane. An increase on AE2 levels will surely be responsible for a prompter effect of this transporter on Isc variation following ATP activation. Thus, our results show a relation of the pre-diabetes, as well as increased E2 levels, with the expression/function of bicarbonate transporters in rat epididymis and SCs, providing new evidence on the mechanisms by which this prodromal stage of DM and its associated features can affect male reproductive function.A formação de espermatozóides competentes é um processo complexo dependente do ambiente criado ao longo do trato reprodutor masculino. A regulação do conteúdo iónico dos fluidos luminais é essencial para a maturação dos espermatozóides. O bicarbonato é essencial não só para a homeostase iónica, como também tem um papel fundamental na manutenção do pH dos diversos fluidos ao longo do trato reprodutor masculino. A diabetes mellitus (DM) representa uma das maiores ameaças à saúde na sociedade moderna, e afeta cada vez mais homens em idade reprodutiva. A DM é uma doença metabólica caracterizada por hiperglicémia, resultante de defeitos na secreção e/ou ação da insulina. Esta doença pode ser dividida, maioritariamente, em dois subtipos, tipo 1 e tipo 2 (T2DM). A T2DM é conhecida como a diabetes não-insulino-dependente, e inclui indivíduos com resistência à insulina, em que geralmente a secreção de insulina é insuficiente. Este tipo de diabetes pode ser prevenido se for detetado precocemente, no estado de pré-diabetes, que usualmente antecede o aparecimento desta doença. Tem sido descrito que a DM afecta a regulação do pH intracelular (pHi) em células de mamíferos, principalmente devido à alteração significativa da atividade de alguns transportadores iónicos, particularmente de alguns mecanismos de transporte dependentes de bicarbonato. Pouco se sabe, no entanto, sobre os efeitos desta patologia nos mecanismos de transporte de membrana envolvidos na regulação do pH em células do trato reprodutor masculino, e ainda menos se sabe sobre os efeitos das diferentes fases envolvidas na progressão desta patologia, particularmente do pré-diabetes. O primeiro objetivo deste trabalho foi analisar possíveis alterações nos níveis dos transportadores de bicarbonato mais relevantes da família Slc4 (trocador aniónico 2 -AE2; trocador Cl-/HCO3- dependente de Na+ - NDCBE; Na+/HCO3- co-transportador eletrogénico 1 - NBCe1; Na+/HCO3- co-transportador eletroneutro 1 - NBCn1) nos testículos e epidídimos de um modelo animal de pré-diabetes. Foram avaliados os níveis de expressão de proteína e mRNA por western blot e real-time PCR, respetivamente. Assim, foi possível confirmar a presença de todos estes transportadores de bicarbonato da família Slc4 em testículo e epidídimo. A nível testicular, embora não tenham sido detetadas alterações na expressão de proteína, os níveis de mRNA de NBCe1, NBCn1 e NDCBE encontraram-se significativamente aumentados em animais pré-diabéticos. Por outro lado, a nível epididimal, a condição pré-diabética causou um aumento significativo nos níveis proteicos de AE2 e uma diminuição significativa nos níveis de proteína de NDCBE. Estas variações poderão traduzir-se em alterações no fluxo transepitelial de HCO3- no epidídimo in vivo, que pode comprometer a sobrevivência dos espermatozoides durante o seu armazenamento e maturação. Deste modo, os nossos resultados podem correlacionar-se com resultados descritos anteriormente, que demonstraram um aumento significativo na anormalidade morfológica em espermatozoides de ratos pré-diabéticos. Por outro lado, vários estudos apresentam uma associação direta entre homens com altos níveis de 17β-estradiol (E2) e o aumento do risco de diabetes e, para além disso, o E2 é responsável pela modulação da expressão de transportadores iónicos específicos no trato reprodutor masculino. Assim, o segundo objetivo do nosso trabalho foi determinar o efeito desta hormona esteróide sexual na expressão e funcionalidade dos transportadores de bicarbonato selecionados da família Slc4, em culturas de células de Sertoli (SCs). Os quatro transportadores estudados foram identificados e quantificados nas SCs (usando RT-PCR e real time PCR, respetivamente). Nas células tratadas com E2 (100 nM) foi observado um aumento significativo nos níveis de expressão de mRNA de AE2, NBCn1 e NBCe1. Posteriormente, foi também avaliado o efeito do E2 (100 nM) no transporte transcelular em SCs cultivadas em suportes semipermeáveis, usando a técnica de Voltage-Clamp. As SCs tratadas com E2 apresentaram alterações significativas na variação da corrente de curto-circuito (ΔIsc) induzida por Adenosine-5-triphosphate (ATP), bem como na recuperação dessa corrente de curto-circuito (Isc) após estimulação com ATP. Estas alterações poderão ser promovidas pelo aumento da expressão de AE2 observados em células tratadas com E2, visto que foi descrito que nestas células o Isc envolve a secreção do Cl- através da membrana apical por canais de Cl- ativados pelo ATP, e a sua absorção através da membrana basolateral por mecanismos dependentes de HCO3−. Um aumento dos níveis de AE2 certamente será responsável por promover a variação de Isc após a estimulação com ATP. Assim, os nossos resultados mostram uma relação do pré-diabetes, assim como do aumento dos níveis de E2, com a expressão/função dos transportadores de bicarbonato em epidídimo e SCs de rato, fornecendo novas evidências sobre os mecanismos pelos quais esta fase precoce da DM e algumas das suas características podem afetar a função reprodutivas masculina.Universidade da Beira InteriorOliveira, Carlos Pedro FontesSocorro, Sílvia Cristina da Cruz MarquesuBibliorumBernardino, Raquel Alexandra Lages2013-09-26T16:50:24Z2013-062013-06-01T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10400.6/1347enginfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2023-12-15T09:36:55Zoai:ubibliorum.ubi.pt:10400.6/1347Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-20T00:43:12.501983Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse |
| dc.title.none.fl_str_mv |
Bicarbonate transporters in male fertility: identification and functionality in testicular cells Transportadores de bicarbonato na fertilidade masculina: identificação e funcionalidade nas células testiculares |
| title |
Bicarbonate transporters in male fertility: identification and functionality in testicular cells |
| spellingShingle |
Bicarbonate transporters in male fertility: identification and functionality in testicular cells Bernardino, Raquel Alexandra Lages Diabetes mellitus - Fertilidade masculina Diabetes mellitus - Estrogénios Transportadores de bicarbonato Transportadores membranares |
| title_short |
Bicarbonate transporters in male fertility: identification and functionality in testicular cells |
| title_full |
Bicarbonate transporters in male fertility: identification and functionality in testicular cells |
| title_fullStr |
Bicarbonate transporters in male fertility: identification and functionality in testicular cells |
| title_full_unstemmed |
Bicarbonate transporters in male fertility: identification and functionality in testicular cells |
| title_sort |
Bicarbonate transporters in male fertility: identification and functionality in testicular cells |
| author |
Bernardino, Raquel Alexandra Lages |
| author_facet |
Bernardino, Raquel Alexandra Lages |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Oliveira, Carlos Pedro Fontes Socorro, Sílvia Cristina da Cruz Marques uBibliorum |
| dc.contributor.author.fl_str_mv |
Bernardino, Raquel Alexandra Lages |
| dc.subject.por.fl_str_mv |
Diabetes mellitus - Fertilidade masculina Diabetes mellitus - Estrogénios Transportadores de bicarbonato Transportadores membranares |
| topic |
Diabetes mellitus - Fertilidade masculina Diabetes mellitus - Estrogénios Transportadores de bicarbonato Transportadores membranares |
| description |
The formation of competent spermatozoa is a complex event that depends on the establishment of adequate environments throughout the male reproductive tract. The maintenance of a proper ionic content in the luminal milieus is crucial for spermatozoa maturation. Bicarbonate is not only essential to ionic homeostasis, as HCO3 - concentration plays an essential role in the pH maintenance along the male reproductive tract. Diabetes mellitus (DM) is one the most prominent public health threats in modern societies and its incidence is drastically increasing in men with reproductive age. This metabolic disease is characterized by hyperglycaemia that can result from defects in insulin secretion and/or insulin action. There are two types of DM, type-1 DM and type-2 DM (T2DM). T2DM is referred to as non-insulin-dependent diabetes, and encompasses individuals who have insulin resistance and usually have a relative insufficient insulin secretion. This type of diabetes can be prevented if detected early, in a status called pre-diabetes, which usually precedes the appearance of the disease. It has been reported that DM alters pHi regulation in mammalian cells mainly by markedly altering the activity in some ion transporters, particularly some bicarbonatedependent mechanisms. Little is known on the effects of this pathology on the membrane transport mechanisms involved in pH regulation on male reproductive tract cells and even fewer on the effects of the different stages involved in the progression of this pathology, particularly during pre-diabetes. The first objective of this work was to analyse possible alterations on the levels of the most relevant bicarbonate transporters of the Slc4 family (anion exchanger 2 -AE2; Na+ -driven Cl- /HCO3 - exchanger - NDCBE; electrogenic Na+ /HCO3 - co-transporter 1- NBCe1; electroneutral Na+ /HCO3 - co-transporter 1 - NBCn1) in testis and epididymis of a pre-diabetic animal model. Protein and mRNA expression levels were evaluated by western blot and real-time PCR, respectively. We were able to confirm the presence of all the bicarbonate transporters of the Slc4 family studied both in testis and epididymis. At testicular level, although no alterations were detected in protein expression, the mRNA levels of NBCe1, NBCn1 and NDCBE were significantly increased in pre-diabetic animals. On the other hand, at epididymal level, prediabetes caused a significant increase on AE2 protein levels and a significant decrease of NDCBE protein levels. Hence, these alterations might translate into changes of the HCO3 − transepithelial epididymal fluxes in vivo, which might represent a threat for sperm survival during storage in the epididymis. Our results might correlate with previous results that reported a significant increase in abnormal sperm morphology in pre-diabetic rats. Furthermore, as several studies support an association of men with higher 17βestradiol (E2) levels and the increased risk of diabetes and, moreover, E2 is responsible for the modulation of the expression of specific ion transporters in the male reproductive tract, the second objective of our work was to determine the effect of this sex steroid hormone on the expression and functionality of selected bicarbonate transporters of the Slc4 family in cultured Sertoli cells (SCs). All the selected four transporters were identified and quantified in SCs (using RT-PCR and real time PCR, respectively). In cells treated with E2 (100 nM) a significant increase in mRNA expression levels of AE2, NBCn1 and NBCe1 was observed. Subsequently, we also evaluated the effect of E2 (100 nM) on transcellular transport in SCs, grown in semi-permeable supports, using the Voltage-Clamp technique. E2-treated SCs presented a significant alteration on the shift of the short-circuit current (∆Isc) induced by ATP, as well as on short-circuit current (Isc) recovery after stimulation. These alterations may be promoted by the increase of AE2 mRNA levels observed in E2-treated cells, as in these cells the Isc involves the secretion of Clthrough the apical membrane by an ATP-activated Clconductance and its absorption via HCO3 − -dependent mechanisms through the basolateral membrane. An increase on AE2 levels will surely be responsible for a prompter effect of this transporter on Isc variation following ATP activation. Thus, our results show a relation of the pre-diabetes, as well as increased E2 levels, with the expression/function of bicarbonate transporters in rat epididymis and SCs, providing new evidence on the mechanisms by which this prodromal stage of DM and its associated features can affect male reproductive function. |
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2013 |
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2013-09-26T16:50:24Z 2013-06 2013-06-01T00:00:00Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/masterThesis |
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openAccess |
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Universidade da Beira Interior |
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Universidade da Beira Interior |
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