1999
DOI: 10.1038/sj.bjc.6690123
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Tumour inoculation site-dependent induction of cachexia in mice bearing colon 26 carcinoma

Abstract: 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)… Show more

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Cited by 24 publications
(24 citation statements)
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“…These data confirm earlier findings that for cachexia, validated C26 adenocarcinoma mouse model can be used as a cachectic non-anorectic model (Tanaka et al, 1990;Diffee et al, 2002;Gorselink et al, 2006) The observation, however, that in experiment A, food intake of Con is significantly higher than that of TB mice on day 20 specifically indicates that if tumour growth would continue for a few days more, the tumour-bearing animals would likely become anorectic. The differences in cachectic parameters between control and tumour-bearing mice 20 days after tumour inoculation, were comparable in magnitude to those described in other studies also using the C26 adenocarcinoma mouse model (Lazarus et al, 1996;Matsumoto et al, 1999;Samuels et al, 2000;Fujimoto-Ouchi et al, 2006;Gorselink et al, 2006).…”
Section: Discussionsupporting
confidence: 73%
“…These data confirm earlier findings that for cachexia, validated C26 adenocarcinoma mouse model can be used as a cachectic non-anorectic model (Tanaka et al, 1990;Diffee et al, 2002;Gorselink et al, 2006) The observation, however, that in experiment A, food intake of Con is significantly higher than that of TB mice on day 20 specifically indicates that if tumour growth would continue for a few days more, the tumour-bearing animals would likely become anorectic. The differences in cachectic parameters between control and tumour-bearing mice 20 days after tumour inoculation, were comparable in magnitude to those described in other studies also using the C26 adenocarcinoma mouse model (Lazarus et al, 1996;Matsumoto et al, 1999;Samuels et al, 2000;Fujimoto-Ouchi et al, 2006;Gorselink et al, 2006).…”
Section: Discussionsupporting
confidence: 73%
“…Use of the clone 5 tumor, which was established from a single cell in colon 26 adenocarcinoma, obviates the effect of selection of a tumor cell clone by the host's immune system, thereby facilitating experimental investigation of host factors in the present study. Indeed, inoculation of the clone 5 tumor does not result in inoculation site-dependent differences in the composition of cell clones that can otherwise be seen in other animal models where tumors were composed of many cell clones (13)(14)(15).…”
Section: Discussionmentioning
confidence: 99%
“…The importance of tissue environment surrounding the tumor on the development of cancer cachexia composition of tumor cells, and the selection of cancer cells in response to the host environment results in different clinical manifestations (13). Even when tumor cells are inoculated in nude mice with an immunological deficit, the metastatic capacity of the established tumor varies according to the site of the tumor (14,15).…”
Section: Introductionmentioning
confidence: 99%
“…The underlying mechanisms responsible for ACS remains obscure, but are thought to be multifactorial, resulting from an imbalance of pro-and anti-inflammatory cytokines and orexigenic and anorexigenic factors (1). Altered expression of several cytokines and growth factors (e.g., TNF-a, IL-1, IL-6, IGF-1, and IFN-g) have been implicated in cancer cachexia (3)(4)(5)(6)(7)(8).…”
Section: Introductionmentioning
confidence: 99%
“…Ribosome recruitment is mediated by eukaryotic initiation factor (eIF)4F, a complex consisting of eIF4E, the cap (m 7 GpppN; where N is any nucleotide) binding protein; eIF4A, an RNA helicase; and eIF4G, a large scaffolding protein (10). mTOR regulates translation initiation rates by controlling the availability of eIF4E and eIF4A for assembly into the eIF4F complex (10).…”
Section: Introductionmentioning
confidence: 99%