Conjugated linoleic acids differentially alter polyp number and diameter in the Apc(min/+) mouse model of intestinal cancer.

OBJECTIVE: Dietary conjugated linoleic acids (CLA) have had many health benefits claimed for them, including antineoplastic actions. MATERIALS AND METHODS: The effects of the predominant forms of CLA, namely the c9t11 and t10c12 isomers, or a mixture of these on polyp development, were investigated in the Apc(Min/+) mouse. CLAs have also been linked to altered rates of cell renewal and cell proliferation so this was also studied, as was a further means of increasing tissue mass, namely crypt fission. RESULTS: The stomach and small intestine were significantly heavier in the t10c12, and in the mixture-treated groups (P < 0.001). Crypt fission was increased in the middle small intestine by the t10c12 diet while colonic weight was reduced by c9t11 provision and crypts were 20% shorter. The t10c12 and the mixture significantly reduced polyp number in the proximal small intestine but they increased polyp diameter in the middle and distal small intestine, to an extent that the polyp burden was significantly increased at these sites. All CLAs significantly reduced polyp number in the colon, but the mixture significantly increased polyp diameter in the colon. CONCLUSION: Increased polyp diameter associated with t10c12 diet and especially with the mixture is a cause of concern, as this is the commercially available form. The naturally occurring isomer, c9t11 decreased colonic polyp number and did not increase diameter, suggesting that this natural isomer is the most likely to be protective.

Both suboptimal and elevated vitamin intake increase intestinal neoplasia and alter crypt fission in the ApcMin/+ mouse.

The effects of vitamin deficiency on intestinal cancer are unclear, and even less is known about the consequences of excessive intake. We therefore investigated the actions of altered vitamin content on intestinal polyp development, cell proliferation and crypt fission in a mouse model of neoplasia. Ninety multiple intestinal neoplasia (ApcMin/+) mice and 90 wild-type littermates, 4 weeks old, were divided into six groups and fed either a control semi-synthetic diet, or the semi-synthetic diet with the vitamin content lowered to a third of the RDA or the semi-synthetic diet with the vitamin content increased 5-fold (except for retinol and folate, which were doubled). The number and size of polyps in the small and large intestines were scored after 8 weeks on the diets, as was cell proliferation (native mitoses per crypt) and crypt fission. The small intestines of the low and high vitamin groups were heavier than the controls. There were significantly more polyps and the tumour burden was higher in both the low and the high vitamin groups (P < 0.02). Proliferation was slightly reduced by the vitamin alteration and crypt fission was significantly increased in the ApcMin/+ mice when compared with the wild-type (P < 0.001). Fission indices were decreased by vitamin alteration in the small intestine, and increased in the colon, but only in the ApcMin/+ mice. The effects of vitamin alteration on polyp number were most pronounced in the proximal intestine, which is also the site of maximum crypt fission. Both vitamin deficiency and over-supplementation can markedly enhance polyp number and tumour burden.

Bovine colostrum is a health food supplement which prevents NSAID induced gut damage.

BACKGROUND: Non-steroidal anti-inflammatory drugs (NSAIDs) are effective for arthritis but cause gastrointestinal injury. Bovine colostrum is a rich source of growth factors and is marketed as a health food supplement. AIMS: To examine whether spray dried, defatted colostrum or milk preparations could reduce gastrointestinal injury caused by indomethacin. METHODS: Effects of test solutions, administered orally, were examined using an indomethacin restraint rat model of gastric damage and an indomethacin mouse model of small intestinal injury. Effects on migration of the human colonic carcinoma cell line HT-29 and rat small intestinal cell line RIE-1 were assessed using a wounded monolayer assay system (used as an in vitro model of wound repair) and effects on proliferation determined using [3H]thymidine incorporation. RESULTS: Pretreatment with 0.5 or 1 ml colostral preparation reduced gastric injury by 30% and 60% respectively in rats. A milk preparation was much less efficacious. Recombinant transforming growth factor beta added at a dose similar to that found in the colostrum preparation (12.5 ng/rat), reduced injury by about 60%. Addition of colostrum to drinking water (10% vol/vol) prevented villus shortening in the mouse model of small intestinal injury. Addition of milk preparation was ineffective. Colostrum increased proliferation and cell migration of RIE-1 and HT-29 cells. These effects were mainly due to constituents of the colostrum with molecular weights greater than 30 kDa. CONCLUSIONS: Bovine colostrum could provide a novel, inexpensive approach for the prevention and treatment of the injurious effects of NSAIDs on the gut and may also be of value for the treatment of other ulcerative conditions of the bowel.