RESUMO
Lupinus albus γ-conglutin is proposed to positively affect glucose metabolism through inhibition of hepatic glucose production and insulin-mimetic activity; however, the action mechanism is not entirely known. Besides, most studies had focused on its effect on molecular targets directly related to glucose metabolism, and few studies have investigated how γ-conglutin may affect the liver gene expression or if it plays a role in other metabolic processes. Therefore, we investigated the influence of γ-conglutin on the liver transcriptome of streptozotocin-induced diabetic rats using DNA microarrays, ontological analyses, and quantitative PCR. Of the 22,000 genes evaluated, 803 and 173 were downregulated and upregulated, respectively. The ontological analyses of the differentially expressed genes revealed that among others, the mitochondria, microtubules, cytoskeleton, and oxidoreductase activity terms were enriched, implying a possible role of γ-conglutin on autophagy. To corroborate the microarray results, we selected and quantified, by PCR, the expression of two genes associated with autophagy (Atg7 and Snx18) and found their expression augmented two and threefold, respectively; indicating a higher autophagy activity in animals treated with γ-conglutin. Although complementary studies are required, our findings indicate for the first time that the hypoglycaemic effects of γ-conglutin may involve an autophagy induction mechanism, a pivotal process for the preservation of cell physiology and glucose homeostasis.
Assuntos
Colectinas/farmacologia , Lupinus/metabolismo , Soroglobulinas/farmacologia , Transcriptoma/genética , Animais , Glicemia/metabolismo , Colectinas/metabolismo , Colectinas/fisiologia , Diabetes Mellitus Experimental/induzido quimicamente , Diabetes Mellitus Experimental/metabolismo , Diabetes Mellitus Tipo 2/metabolismo , Glucose/metabolismo , Insulina/metabolismo , Fígado/metabolismo , Fígado/patologia , Lupinus/genética , Masculino , Proteínas de Plantas/genética , Ratos , Ratos Wistar , Sementes/metabolismo , Soroglobulinas/metabolismo , Soroglobulinas/fisiologiaRESUMO
Durante mucho tiempo se asumió que la hemoglobina y la mioglobina eran las únicas globinas de los vertebrados. En el año 2000 se descubrió un tercer tipo de globina, que sobre la base de su ubicación preferencial en el sistema nervioso fue denominada neuroglobina. Aunque aún se desconoce su función específica, se han planteado varias hipótesis entre las que se destaca la que sugiere que puede destoxificar las especies reactivas del oxígeno y el nitrógeno. Otros estudios proponen que es parte de una cadena de transducción de señales que transmite el estado redox de la célula o que inhibe la apoptosis. Aunque algunas funciones son más probables que otras, aún no se ha establecido definitivamente cuál es la función fisiológica de la neuroglobina en los vertebrados. No obstante, no hay dudas de que esta globina tiene una función esencial, conservada y que es beneficiosa para las neuronas
For a long time, it was taken for granted that hemoglobin and mioglobin were the only vertebrate globins. In 2000, a third type of globins was discovered on the basis of its preferential location in the nervous system and it was called neuroglobin. Although its specific function is still unknown, a number of hypotheses has been put forward, mainly the one suggesting that it may detoxify the reactive oxygen species and the nitrogen. On the other hand, other studies state that neuroglobin is part of a signal transduction chain that transmits the redox state of the cell or inhibits apoptosis. Though some functions are more probable than others, the real physiological function of neuroglobin in vertebrae has not been finally established. Nevertheless, this globin has undoubtedly an essential preserved function that is useful for neurons