Abstract A27: Fortification of dietary fiber-rich foodstuffs with Aspirin and its effect on colorectal carcinogenesis in rats

Dietary fiber (DF), the fermentation substrates for colonic bacteria, has acquired a crucial status in protection against colorectal cancer. DF consists of mucilage, beta-glucans and pectin (soluble fiber) and cellulose, hemicelluloses and lignin (insoluble fiber) which, are cross-linked with protei...

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Published in:Cancer research (Chicago, Ill.) Ill.), 2017-02, Vol.77 (3_Supplement), p.A27-A27
Main Authors: Faruk, Mohammed, Rafindadi, Abdulmumini Hassan, Ibrahim, Sani, Aminu, Surajo Mohammed, Adamu, Ahmed, Iliyasu, Yawale, Idoko, John, Shehu, Mohammed Sani, Abdullahi, Adamu, Randawa, Abdullahi Jubril, Ntekim, Atara, Ahmed, Saad Aliyu, Awasum, Cheh Augustine, Adoke, Kasimu, Nok, Andrew Jonathan
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Language:English
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Summary:Dietary fiber (DF), the fermentation substrates for colonic bacteria, has acquired a crucial status in protection against colorectal cancer. DF consists of mucilage, beta-glucans and pectin (soluble fiber) and cellulose, hemicelluloses and lignin (insoluble fiber) which, are cross-linked with proteins and phenolic compounds. DF improves optimal health through fecal quality, quantity and decreased carcinogenic colonic bacterial metabolites. One of the physico-chemical properties of DF attributed to these important health functions is the natural presence of salicylic acid (SA), an active component of Aspirin in our foodstuffs. However, the presence of SA has been recently reported to be gradually diminishing from our foodstuffs as a result of manmade activity. A large number of studies support the effectiveness of Aspirin in inhibition of colorectal cancer cells growth in-vitro and in-vivo. DF is not currently fortified with Aspirin, nor have the effects of Aspirin fortification on physico-chemical properties of DF been thoroughly studied. Of note, gastrointestinal bleeding is one of the effects associated with high dose aspirin use. This research aims to assess the efficacy of fortification of DF-rich foodstuffs with Aspirin in-vivo using the N-methyl-N-nitrosourea carcinogen-induced model of colorectal cancer in rats, with emphasis on the mechanism of biologic action. A total of 30 male Albino rats whose weight falls between 110-150g were used. They were grouped into 6 sets of 5 rats each and a soluble and insoluble DF feeding intervention was systematically employed in various combinations with Aspirin (1600mg/kg diet) and without Aspirin fortification for 80 days. NMU was administered at a dose of 2 mg/kg intra rectally every other day for 60 days until the development of colorectal cancer which, was confirmed by barium enema and histological analysis. Hemogram and other pertinent investigations were done ultimately including histological assessment of tumors. The tumors were processed for histological analysis and immunohistochemistry using Anti-p53 and Anti-Bcl-2 antibodies. Findings show no histologically detectable colorectal tumor in the group of rats fed with Aspirin-fortified mixture of soluble and insoluble DF foodstuffs. There was a considerable tumor regression in the group fed with Aspirin-fortified soluble/insoluble DF when compared to non-fortified group. The results show up-regulation of p53 and down-regulation of Bcl-2 proteins in Aspirin
ISSN:0008-5472
1538-7445
DOI:10.1158/1538-7445.CRC16-A27