TNF-alpha has no direct in vivo metabolic effect on human muscle

Abstract

Tumor necrosis factor alpha (TNF-alpha) is thought to have a key role in metabolic changes of muscle tissue during inflammatory diseases. It is unknown whether TNF-alpha affects muscle metabolism directly or whether these changes are mediated by secondary mediators. We studied 6 patients undergoing isolated limb perfusion with TNF-alpha for irresectable soft-tissue sarcoma or in-transit melanomas. Glucose, lactate, ammonia and amino-acid consumption or production were measured in the perfusate during 3 perfusion periods: before, after TNF-alpha and after the combined administration of TNF alpha and melphalan. Arterial glucose, lactate, ammonia and amino-acid concentrations were monitored to detect metabolic effects of TNF-alpha after it entered the systemic circulation. Glucose uptake and lactate release by the limb remained unchanged after the injection of TNF-alpha alone, as well as after the combination of TNF-alpha and melphalan. Furthermore, glutamine, alanine, phenylalanine, tyrosine and total amino-acid release into the perfusate did not increase during TNF-alpha and melphalan treatment, indicating that muscle metabolism was not changed. After the isolated limb perfusion, TNF-alpha entered the systemic circulation and induced metabolic changes resulting in a doubling of arterial lactate concentrations, decreased arterial glucose concentrations and decreased arterial amino-acid concentrations. Our study shows that regional administration of TNF-alpha alone or in combination with melphalan does not directly affect muscle glucose and protein metabolism. The data suggest that systemic metabolic changes induced by TNF-alpha are mediated through secondary, centrally produced, factors.