To investigate the mechanism causing cachexia and its association with shorter patient survival, we cloned weight-loss-inducing and -non-inducing sublines of murine colon 26 carcinoma (colon 26). One clone, clone 20, induced substantial weight loss, wasting of adipose tissue and muscle, and hypoglycemia in mice with a minimum tumor burden of 0.3 g (2 g per 100 g body weight). Clone-20-bearing mice had a median survival of 24.5 days with average tumor weight of 0.4 g. In contrast, clone 5 induced neither severe weight loss, wasting of adipose tissue and muscle, nor hypoglycemia; clone-5-bearing mice survived for a median of 70 days with average tumor weight of 12 g. These results clearly indicate that shorter survival is associated with the degree of cachexia and is independent of tumor size. Using this pair of colon 26 clones, we examined mediators of cachexia. Neither TNF alpha, IL-1 alpha nor IFN gamma was detected in the serum of mice bearing either clone, while IL-6 was detected in mice bearing both clones by ELISA and a bioassay. Administration of anti-IL-6 monoclonal antibody (MAb) partially but significantly suppressed cachexia induction in clone-20-bearing mice. These results point to the involvement of IL-6 in experimental cachexia. However, our finding of the presence of IL-6 in the serum of mice bearing clone 5, which does not induce weight loss, clearly indicates that IL-6 is not solely responsible for the induction of cachexia.
Summary Murine colon 26 carcinoma growing at either subcutaneous (s.c.) or intramuscular (i.m.) inoculation sites causes cachexia in mice. Such animals show extensive loss of body weight, wasting of the muscle and adipose tissues, hypoglycaemia, and hypercalcaemia, even when the tumour weight comprises only about 1.9% of carcass weight. In contrast, the same tumour when inoculated into the liver does not cause any sign of tumour-related cachexia even when the tumour becomes much larger (6.6% of carcass weight). Interleukin 6 (IL-6), a mediator associated with cachexia in this tumour model, is detected at high levels both in the tumour tissues and in the circulating blood of mice bearing colon 26 tumour at the s.c. inoculation site. In contrast, only minute levels of IL-6 are detected in the tumour grown in the liver. The colon 26 tumour grown in the liver does not lose its ability to cause cachexia, because the tumour when re-inoculated s.c. is able to cause extensive weight loss and produce IL-6 as did the original colon 26 cell line. Histological studies revealed differences in the composition of tumour tissues: the tumours grown in the subcutis consist of many polygonal tumour cells, extended-intercellular space, and high vascular density, whereas those grown in the liver consist of spindle-shaped tumour cells. Thus, the environment where tumour cells grow would be a critical factor in determining the cachectic phenotype of cancer cells, including their ability to produce IL-6.
A novel human cell line, KMT-2, from umbilical cord blood cells was established based on the selection of cultures in the presence of recombinant human interleukin-3 (IL-3) and the sorting of cells with anti-My 10 antibody. Morphologic and cytochemical studies (peroxidase negative, Sudan-black negative, chloroacetate esterase negative, PAS positive, nonspecific esterase positive) and phenotyping (HLA-DR, My7 = CD13, My9 = CD33, My10 = CD34, MCS-2, LeuM1 positive, glycophorin A negative, and P2 negative) suggest that the KMT-2 cells are myelomonocytic cells, probably of immature progenitor origin. Besides IL-3, granulocyte-macrophage colony-stimulating factor supported the growth of the KMT-2 cells, but IL-1 alpha, IL-2, IL-4, IL-5, and erythropoietin did not. IL-6 showed only slight activity. Binding studies with 125I-labeled recombinant human (rh) IL-3 indicated that IL- 3 bound to a single class of high affinity receptors (approximately 4,000 receptors/cell) on KMT-2 cells with a kd of approximately 200 pmol/L. The chemical cross-linking assay demonstrated that radiolabeled hIL-3 bound three molecules with molecular masses of 170, 130, and 70 Kd. Present data suggest that the newly established human cell line will be a valuable tool for the biologic assay of hIL-3, and a model for biochemical studies of IL-3 receptors.
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