BACKGROUND: 5-Aminosalicylic acid (5-ASA) may protect against the development of inflammation-associated colorectal cancer. In vitro data suggest that, in colorectal cancer cells, 5-ASA induces cell cycle arrest, but the molecular mechanism leading to this arrest remains to be determined. AIM: To dissect the signal transduction events that lead to 5-ASA mediated inhibition of proliferation of colorectal cancer cells, focusing on mammalian target of rapamycin (mTOR), a regulator of cell cycle progression. METHODS: The influence of 5-ASA on mTOR signalling was examined in a panel of colorectal cancer cell lines. The effects of 5-ASA on the pathways that control mTOR activity were studied in detail in two different colorectal cancer cell lines, using western blot, siRNA, a phospholipase D (PLD) activity assay, proliferation assays and cell cycle analysis. The phosphorylation status of mTOR and its downstream target, ribosomal protein S6, was studied in colorectal cancers before and after topical 5-ASA treatment. RESULTS: Treatment of colorectal cancer with 5-ASA inhibited mTOR signalling in vitro and in vivo. 5-ASA had no effect on any of the pathways that regulate the activity of the tuberous sclerosis complex in colorectal cancer cells. Both proliferation and mTOR activity depended on PLD, an enzyme that generates phosphatidic acid (PA). 5-ASA treatment inhibited PLD activity and proliferation; these effects could be rescued with exogenous PA. CONCLUSION: 5-ASA interferes with proliferation of colorectal cancer cells via inhibition of PLD-dependent generation of PA and loss of mTOR signalling.
BACKGROUND:5-Aminosalicylic acid (5-ASA) may protect against the development of inflammation-associated colorectal cancer. In vitro data suggest that, in colorectal cancer cells, 5-ASA induces cell cycle arrest, but the molecular mechanism leading to this arrest remains to be determined. AIM: To dissect the signal transduction events that lead to 5-ASA mediated inhibition of proliferation of colorectal cancer cells, focusing on mammalian target of rapamycin (mTOR), a regulator of cell cycle progression. METHODS: The influence of 5-ASA on mTOR signalling was examined in a panel of colorectal cancer cell lines. The effects of 5-ASA on the pathways that control mTOR activity were studied in detail in two different colorectal cancer cell lines, using western blot, siRNA, a phospholipase D (PLD) activity assay, proliferation assays and cell cycle analysis. The phosphorylation status of mTOR and its downstream target, ribosomal protein S6, was studied in colorectal cancers before and after topical 5-ASA treatment. RESULTS: Treatment of colorectal cancer with 5-ASA inhibited mTOR signalling in vitro and in vivo. 5-ASA had no effect on any of the pathways that regulate the activity of the tuberous sclerosis complex in colorectal cancer cells. Both proliferation and mTOR activity depended on PLD, an enzyme that generates phosphatidic acid (PA). 5-ASA treatment inhibited PLD activity and proliferation; these effects could be rescued with exogenous PA. CONCLUSION:5-ASA interferes with proliferation of colorectal cancer cells via inhibition of PLD-dependent generation of PA and loss of mTOR signalling.
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
Authors: Thomas J Jackson; John Rp Knight; William J Faller; Rachel A Ridgway; Thomas Jamieson; Saadia A Karim; Carolyn Jones; Sorina Radulescu; David J Huels; Kevin B Myant; Kate M Dudek; Helen A Casey; Alessandro Scopelliti; Julia B Cordero; Marcos Vidal; Mario Pende; Alexey G Ryazanov; Nahum Sonenberg; Oded Meyuhas; Michael N Hall; Martin Bushell; Anne E Willis; Owen J Sansom Journal: Nature Date: 2014-11-05 Impact factor: 49.962
Authors: Ma Somsouk; Richard M Dunham; Michelle Cohen; Rebecca Albright; Mohamed Abdel-Mohsen; Teri Liegler; Jeffrey Lifson; Michael Piatak; Robert Gorelick; Yong Huang; Yuaner Wu; Priscilla Y Hsue; Jeffrey N Martin; Steven G Deeks; Joseph M McCune; Peter W Hunt Journal: PLoS One Date: 2014-12-29 Impact factor: 3.240