BACKGROUND: Several reports indicate that mesalazine (5-aminosalicylic acid, 5-ASA) is a promising candidate for the chemoprevention of colo-rectal cancer because of its ability to reach the purpose avoiding the unwanted side effects usually associated with prolonged administration of nonsteroidal anti-inflammatory drugs. This activity of 5-ASA is probably the consequence of a number of effects determined on colo-rectal cancer cells, consisting of reduced proliferation, increased apoptosis and activation of cell cycle checkpoints and DNA repair processes. A recent observation has suggested that inhibition of beta-catenin signalling could induce these cellular effects. AIM: To characterize better the capacity of 5-ASA to inhibit the beta-catenin signalling pathway. METHODS: Genes belonging to the beta-catenin signalling pathway were analysed in colo-rectal cancer cell lines treated with 5-ASA using a combination of laboratory assays that are able to detect their phenotypic expression and functional activity. RESULTS: The results obtained indicated that 5-ASA induces the expression of a protein called mu-protocadherin that belongs to the cadherin superfamily and is able to sequester beta-catenin on the plasmatic membrane of treated cells hampering its function. CONCLUSION: These findings suggest that mu-protocadherin might be employed as a biological marker to monitor the chemopreventive efficacy of 5-ASA.
BACKGROUND: Several reports indicate that mesalazine (5-aminosalicylic acid, 5-ASA) is a promising candidate for the chemoprevention of colo-rectal cancer because of its ability to reach the purpose avoiding the unwanted side effects usually associated with prolonged administration of nonsteroidal anti-inflammatory drugs. This activity of 5-ASA is probably the consequence of a number of effects determined on colo-rectal cancer cells, consisting of reduced proliferation, increased apoptosis and activation of cell cycle checkpoints and DNA repair processes. A recent observation has suggested that inhibition of beta-catenin signalling could induce these cellular effects. AIM: To characterize better the capacity of 5-ASA to inhibit the beta-catenin signalling pathway. METHODS: Genes belonging to the beta-catenin signalling pathway were analysed in colo-rectal cancer cell lines treated with 5-ASA using a combination of laboratory assays that are able to detect their phenotypic expression and functional activity. RESULTS: The results obtained indicated that 5-ASA induces the expression of a protein called mu-protocadherin that belongs to the cadherin superfamily and is able to sequester beta-catenin on the plasmatic membrane of treated cells hampering its function. CONCLUSION: These findings suggest that mu-protocadherin might be employed as a biological marker to monitor the chemopreventive efficacy of 5-ASA.
Authors: Manisha Bajpai; Darren N Seril; James Van Gurp; Xin Geng; Janet Alvarez; Carlos D Minacapelli; Steve Gorin; Koushik K Das; Elizabeth Poplin; Jerry Cheng; Peter S Amenta; Kiron M Das Journal: Dig Dis Sci Date: 2018-11-26 Impact factor: 3.199
Authors: Tom Julian Creed; Ann Caroline Williams; Steven William Dixon; Tracey Jane Collard; Eleanor May Harrisdotter Mortensson; Danny Nigel Legge; Adam Christian Chambers; Alexander Greenhough Journal: Br J Cancer Date: 2021-03-30 Impact factor: 9.075