AI Article Synopsis
- Cachexia is the leading cause of death in advanced cancer patients, prompting a study on insulin (INS) and glutamine dipeptide (GDP) effects on cachexia and metabolism in rats with Walker 256 tumors.
- INS treatment, either alone or combined with GDP, prevented fat loss and body weight decline without affecting tumor growth, while also reducing certain fat-expressing enzymes.
- However, while these treatments decreased fat loss and increased food intake, they worsened muscle mass loss, indicating that INS helps combat fat wasting but does not protect against muscle deterioration in cachexia.
Article Abstract
Cachexia is the main cause of mortality in advanced cancer patients. We investigated the effects of insulin (INS) and glutamine dipeptide (GDP), isolated or associated, on cachexia and metabolic changes induced by Walker 256 tumor in rats. INS (NPH, 40 UI/kg, sc) or GDP (1.5g/kg, oral gavage) was once-daily administered during 11 days after tumor cell inoculation. GDP, INS or INS+GDP treatments did not influence the tumor growth. However, INS and INS+GDP prevented retroperitoneal fat wasting and body weight loss of tumor-bearing rats. In consistency, INS and INS+GDP prevented the increased expression of triacylglycerol lipase (ATGL) and hormone sensitive lipase (HSL), without changing the expression of tumor necrosis factor α (TNF-α) and interleukin-6 (IL-6) in the retroperitoneal adipose tissue of tumor-bearing rats. INS and INS+GDP also prevented anorexia and hyperlactatemia of tumor-bearing rats. However, INS and INS+GDP accentuated the loss of muscle mass (gastrocnemius, soleus and long digital extensor) without affecting the myostatin expression in the gastrocnemius muscle and blood corticosterone. GDP treatment did not promote beneficial effects. It can be concluded that treatment with INS (INS or INS+GDP), not with GDP, prevented fat wasting and weight loss in tumor-bearing rats without reducing tumor growth. These effects might be attributed to the reduction of lipases expression (ATGL and LHS) and increased food intake. The results show the physiological function of INS in the suppression of lipolysis induced by cachexia mediators in tumor-bearing rats.
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| http://dx.doi.org/10.1016/j.ejphar.2017.03.010 | DOI Listing |
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