Bone marrow is reported to contain hematopoietic stem cells and other adult somatic stem cells that have phenotypes of cells composing tissues other than bone marrow. To explore the implication of bone marrow-derived cells in the treatment of inflammatory bowel diseases, experimental colitis was induced in wild-type rats after transplantation of bone marrow from transgenic rats expressing green fluorescence protein (GFP). Chronic colitis was induced 21 days later using 30 mg 2,4,6-trinitrobenzenesulfonic acid (TNBS). Control rats received saline. At 28, 56, and 224 days after TNBS administration, rats were euthanized, and tissues were removed and processed for paraffin-embedded sections. Cells derived from bone marrow were identified by immunohistochemistry using anti-GFP antibody. To identify the phenotypes of the cells expressing GFP, we conducted serial-section analysis and double-staining analysis using antibodies against cytokeratin (epithelial cells) or vimentin (interstitial cells). In the present study, GFP-positive, bone marrow-derived cells occupied 37.6% and 4.25% of the colonic epithelium at 28 days and 56 days after the induction of TNBS-colitis, respectively. Also, significant amounts of mucosal and submucosal interstitial cells were derived from the bone marrow. These findings showed that a large amount of bone marrow-derived cells were involved in regeneration of the colon after experimental colitis in rats.
G0F/G2F is a potentially effective diagnostic marker of disease activity in both CD and UC, and of the clinical course in UC. A pathophysiologic difference between CD and UC was also demonstrated.
The present study clearly demonstrates that bone marrow-derived cells are involved in the regeneration of the stomach after ethanol-induced ulcers in rats.
Cyclooxygenase-2 (COX-2) inhibitors are effective chemopreventive agents against colorectal cancers. For treatment of advanced cancers, combination of COX-2 inhibitors and chemotherapy has been attempted, but the results are still controversial. In the present study, the effects of the COX-2 inhibitor celecoxib on the anticancer potential of chemotherapy, and its mechanisms of action were investigated in point of the angiogenesis, using an advanced cancer model in mice. BALB/c mice were inoculated with colon 26 cells. After the allograft grew up to 5 mm in diameter, the animals received celecoxib, 5FU, or a combination of 5FU and celecoxib (5FU/celecoxib). After 21-days of the treatment, 5FU/celecoxib significantly inhibited the tumor growth and the tumor vessel density compared with the other groups. Celecoxib, 5FU or 5FU/celecoxib significantly suppressed the VEGF content in tumor tissues. 5FU/ celecoxib also enhanced IFN-c levels in tumor tissue, which could be involved in the potent antitumor effects of 5FU/celecoxib. This hypothesis was proven, because in IFN-c knockout (IFN-c 2/2 ) mice, the inhibitory effects of 5FU/celecoxib on angiogenesis and tumor growth were significantly impaired compared with that in wild type mice. These results suggest that celecoxib enhances the antitumor effect of 5FU against an advanced colon cancer model by suppressing angiogenesis. In addition to VEGF, IFN-c has pivotal roles in tumor suppression induced by celecoxib. ' 2007 Wiley-Liss, Inc.Key words: advanced colorectal cancer; COX-2; 5FU; IFN-c; VEGF Epidemiological studies suggest that long-term use of nonsteroidal anti-inflammatory drugs (NSAIDs) reduce the risk of colon cancer.
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