Time course effects of methotrexate on renal handling of water and electrolytes in rats. Role of aquaporin-2 and Na-K-2Cl-cotransporter.

Methotrexate (MTX) is a derivate of folic acid, commonly used as an anchor drug for the treatment and management of malignant diseases and autoimmune disorders. However, nephrotoxicity is an important drawback of MTX therapy. Unfortunately, there are not enough studies reporting the nature of the renal failure induced by MTX. Thus, the aim of this study was to evaluate the time course of renal handling of water and electrolytes in male Wistar rats, after the exposure to a unique dose of MTX (80 mg/kg b.w.). Experiments were carried out at day 2, day 4, day 8 and day 14 after MTX administration. Several parameters of kidney function related to water and electrolytes handling were evaluated. Renal expression and urinary excretion of aquaporin-2 (AQP2) and Na-K-2Cl-cotransporter (NKCC2) were determined by Western blotting. MTX produced alterations on water handling on the second day after treatment, showing a significant increase in solute free water reabsorption which might be mediated by the increased expression of AQP2 in apical membranes. On the other hand, MTX produced alterations on electrolytes handling on the fourth day after treatment, showing a significant decrease of sodium chloride excretion, mediated at least in part, by the increase renal expression of NKCC2. These results provide valuable information to clinical practice in order to be able to find therapeutic targets that diminish adverse effects and health deterioration. Moreover, MTX treatment altered AQP2 and NKCC2 urinary excretion allowing postulating these transporters as potential biomarkers of MTX induced nephrotoxicity.

Inhibition of renal glucose reabsorption as a novel treatment for diabetes patients.

UNLABELLED: The importance of the kidney in glucose homeostasis has been recognized for many years. Recent observations indicating a greater role of renal glucose metabolism in various physiologic and pathologic conditions have rekindled the interest in renal glucose handling as a potential target for the treatment of diabetes. The enormous capacity of the proximal tubular cells to reabsorb the filtered glucose load entirely, utilizing the sodium-glucose co-transporter system (primarily SGLT-2), became the focus of attention. Original studies conducted in experimental animals with the nonspecific SGLT inhibitor phlorizin showed that hyperglycemia after pancreatectomy decreased as a result of forced glycosuria. Subsequently, several compounds with more selective SGLT-2 inhibition properties ("second-generation") were developed. Some agents made it into pre-clinical and clinical trials and a few have already been approved for commercial use in the treatment of type 2 diabetes. In general, a 6-month period of therapy with SGLT-2 inhibitors is followed by a mean urinary glucose excretion rate of ~80 g/day accompanied by a decline in fasting and postprandial glucose with average decreases in HgA1C ~1.0%. Concomitant body weight loss and a mild but consistent drop in blood pressure also have been reported. In contrast, transient polyuria, thirst with dehydration and occasional hypotension have been described early in the treatment. In addition, a significant increase in the occurrence of uro-genital infections, particularly in women has been documented with the use of SGLT-2 inhibitors. CONCLUSION: Although long-term cardiovascular, renal and bone/mineral effects are unknown SGLT-2 inhibitors, if used with caution and in the proper patient provide a unique insulin-independent therapeutic option in the management of obese type 2 diabetes patients.

Inhibition of renal glucose reabsorption as a novel treatment for diabetes patients / Inibicao da reabsorcao renal de glicose como uma nova forma de tratamento para pacientes com diabetes

The importance of the kidney in glucose homeostasis has been recognized for many years. Recent observations indicating a greater role of renal glucose metabolism in various physiologic and pathologic conditions have rekindled the interest in renal glucose handling as a potential target for the treatment of diabetes. The enormous capacity of the proximal tubular cells to reabsorb the filtered glucose load entirely, utilizing the sodium-glucose co-transporter system (primarily SGLT-2), became the focus of attention. Original studies conducted in experimental animals with the nonspecific SGLT inhibitor phlorizin showed that hyperglycemia after pancreatectomy decreased as a result of forced glycosuria. Subsequently, several compounds with more selective SGLT-2 inhibition properties (“second-generation”) were developed. Some agents made it into pre-clinical and clinical trials and a few have already been approved for commercial use in the treatment of type 2 diabetes. In general, a 6-month period of therapy with SGLT-2 inhibitors is followed by a mean urinary glucose excretion rate of ~80 g/day accompanied by a decline in fasting and postprandial glucose with average decreases in HgA1C ~1.0%. Concomitant body weight loss and a mild but consistent drop in blood pressure also have been reported. In contrast, transient polyuria, thirst with dehydration and occasional hypotension have been described early in the treatment. In addition, a significant increase in the occurrence of uro-genital infections, particularly in women has been documented with the use of SGLT-2 inhibitors. Conclusion: Although long-term cardiovascular, renal and bone/mineral effects are unknown SGLT-2 inhibitors, if used with caution and in the proper patient provide a unique insulin-independent therapeutic option in the management of obese type 2 diabetes patients. .

A importância do rim na homeostase de glicose é reconhecida desde há muitos anos. Observações recentes, indicando um papel maior do metabolismo renal da glicose em várias condições fisiológicas e patológicas, reavivaram o interesse no manuseio renal de glicose como um alvo em potencial para o tratamento do diabetes. A enorme capacidade das células tubulares proximais para reabsorver a carga total de glicose filtrada, utilizando o sistema de co-transporte de sódio e glicose (SGLT), tornou-se o foco de atenção. Estudos originais realizados em animais experimentais com o uso do inibidor não-específico da SGLT florizina, demonstraram que a hiperglicemia após pancreatectomia diminuiu como resultado de glicosúria forçada. Posteriormente, foram desenvolvidas diversas substâncias com propriedades mais seletivas de inibição da SGLT-2 ("segunda geração"). Vários agentes foram usados em ensaios pré-clínicos e clínicos, e alguns já foram aprovados para uso comercial no tratamento da diabetes tipo 2. Em geral, os dados clinicos mostram que um período de 6 meses de tratamento com inibidores da SGLT-2 é seguido por uma taxa de excreção de glicose urinária média de ~ 80 g/dia, acompanhado por uma queda na glicemia de jejum e pós-prandial e com redução média na HbA1C de - 1.0%. Também foram relatados perda concomitante no peso corpóreo e uma leve mas consistente queda da pressão arterial. Em contraste, eventos adversos transitórios como poliúria, sede com desidratação e hipotensão ocasional foram descritos na fase inicial de tratamento. Além disso, um aumento significativo na ocorrência de infecções urogenitais, particularmente em mulheres, foi documentado com o uso de inibidores da SGLT-2. Os efeitos ...