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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

A atividade simpática regula, via proteína cinase A (PKA), a proteína cotransportadora Na+/glicose 1 (SGLT1) em glândula salivar: efeitos do Diabetes Mellitus e da hipertensão arterial. / Na+/glucose cotransporter SGLT1 in the salivary glands of diabetic and hypertensive rats: role of sympathetic outflow and protein kinase A activity.

Silva, Robinson Sabino da 25 March 2010 (has links)
Disfunções em glândulas salivares são frequentes no diabetes e na hipertensão arterial. Glândulas salivares foram removidas para analisar o conteúdo das proteinas SGLT1 e PKA em ratos Wistar Kyoto (WKY), WKY diabéticos (WKY-D), espontaneamente hipertensos (SHR) e SHR diabéticos (SHR-D). A atividade simpática para as glândulas salivares também foi avaliada. A atividade simpática foi aumentada em SHR (P<0,001) comparado com WKY; e diminuída após a induçao do diabetes em WKY and SHR (P<0,05). A regulação da subunidade catalítica da PKA e da proteína SGLT1 em membrana plasmática foram paralelas com a atividade simpática. Em ratos diabéticos e/ou hipertensos, a análise da imunohistoquímica mostrou aumento da proteína SGLT1 na membrana luminal de células ductais, onde isto pode promover captação de água, reduzindo o fluxo salivar. Confirmando isso, a secreção salivar não-estimulada foi reduzida (P<0,001) em WKY-D, SHR e SHR-D. Os resultados mostram que o aumento da SGLT1 luminal foi inversamente proporcional com o fluxo salivar em ratos diabéticos e hipertensos. Isto indica o papel do transporte de água da SGLT1 e, pelo aumento da reabsorção de água, pode explicar a hiposalivação em indivíduos diabéticos e hipertensos. / Salivary gland dysfunction is a feature in diabetes and hypertension. In Wistar Kyoto rats (WKY), diabetic WKY (WKY-D), spontaneously hypertensive rats (SHR) and diabetic SHR (SHR-D), salivary glands were harvested for SGLT1 and PKA protein expression analysis. Moreover, sympathetic nerve activity to the salivary glands was measured. Diabetes decreased the nerve activity in WKY and SHR (P<0.05), pointing out that it was higher in SHR, as compared to WKY (P<0.001). The regulation of catalytic subunit of PKA and plasma membrane SGLT1 protein were parallel to the sympathetic nerve activity. In diabetic and/or hypertensive rats, imunohistochemical analysis showed increased SGLT1 protein in luminal membrane of ductal cells, where it may promote water uptake, reducing the salivary flow. Confirming that, nonstimulated salivary secretion was reduced (P<0.001) in WKY-D, SHR and SHR-D rats. The results show in luminal membrane of ductal cells SGLT1 protein increased inversely proportional to the nonstimulated salivary flux in diabetic and hypertensive rats. This indicates the water transporter role of SGLT1 and, by increasing salivary water reabsorption, may explain the hyposalivation complained by diabetic subjects.
2

A atividade simpática regula, via proteína cinase A (PKA), a proteína cotransportadora Na+/glicose 1 (SGLT1) em glândula salivar: efeitos do Diabetes Mellitus e da hipertensão arterial. / Na+/glucose cotransporter SGLT1 in the salivary glands of diabetic and hypertensive rats: role of sympathetic outflow and protein kinase A activity.

Robinson Sabino da Silva 25 March 2010 (has links)
Disfunções em glândulas salivares são frequentes no diabetes e na hipertensão arterial. Glândulas salivares foram removidas para analisar o conteúdo das proteinas SGLT1 e PKA em ratos Wistar Kyoto (WKY), WKY diabéticos (WKY-D), espontaneamente hipertensos (SHR) e SHR diabéticos (SHR-D). A atividade simpática para as glândulas salivares também foi avaliada. A atividade simpática foi aumentada em SHR (P<0,001) comparado com WKY; e diminuída após a induçao do diabetes em WKY and SHR (P<0,05). A regulação da subunidade catalítica da PKA e da proteína SGLT1 em membrana plasmática foram paralelas com a atividade simpática. Em ratos diabéticos e/ou hipertensos, a análise da imunohistoquímica mostrou aumento da proteína SGLT1 na membrana luminal de células ductais, onde isto pode promover captação de água, reduzindo o fluxo salivar. Confirmando isso, a secreção salivar não-estimulada foi reduzida (P<0,001) em WKY-D, SHR e SHR-D. Os resultados mostram que o aumento da SGLT1 luminal foi inversamente proporcional com o fluxo salivar em ratos diabéticos e hipertensos. Isto indica o papel do transporte de água da SGLT1 e, pelo aumento da reabsorção de água, pode explicar a hiposalivação em indivíduos diabéticos e hipertensos. / Salivary gland dysfunction is a feature in diabetes and hypertension. In Wistar Kyoto rats (WKY), diabetic WKY (WKY-D), spontaneously hypertensive rats (SHR) and diabetic SHR (SHR-D), salivary glands were harvested for SGLT1 and PKA protein expression analysis. Moreover, sympathetic nerve activity to the salivary glands was measured. Diabetes decreased the nerve activity in WKY and SHR (P<0.05), pointing out that it was higher in SHR, as compared to WKY (P<0.001). The regulation of catalytic subunit of PKA and plasma membrane SGLT1 protein were parallel to the sympathetic nerve activity. In diabetic and/or hypertensive rats, imunohistochemical analysis showed increased SGLT1 protein in luminal membrane of ductal cells, where it may promote water uptake, reducing the salivary flow. Confirming that, nonstimulated salivary secretion was reduced (P<0.001) in WKY-D, SHR and SHR-D rats. The results show in luminal membrane of ductal cells SGLT1 protein increased inversely proportional to the nonstimulated salivary flux in diabetic and hypertensive rats. This indicates the water transporter role of SGLT1 and, by increasing salivary water reabsorption, may explain the hyposalivation complained by diabetic subjects.

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