DNA fragmentation occurs in skeletal muscle during tumor growth: A link with cancer cachexia?

Abstract

In two different experimental models of cancer cachexia, the rat Yoshida AH-130 ascites hepatoma and the mouse Lewis lung carcinoma, the implantation of the tumor caused a loss of body weight which was associated with a reduction in the weight of different skeletal muscles, as well as with their protein content. The decrease in protein content was accompanied by a reduction in DNA content. Interestingly, the protein/DNA ratio was unchanged in the skeletal muscle of the tumor-bearing animals as compared with the non-tumor-bearing controls. Analysis of DNA fragmentation in skeletal muscle clearly showed enhanced laddering in the skeletal muscle of tumor-bearing animals, suggesting an apoptotic phenomenon. Interestingly, the degree of laddering (total DNA fragmented) increased with tumor burden. These results suggest that DNA fragmentation may be a primary event in cancer-associated cachexia.