cyclophilin b induces chemoresistance by degrading wild-type p53 via interaction with mdm2 in colorectal cancer

Colorectal cancer (crc) is one of the leading causes of cancer-related deaths worldwide. chemoresistance is a major problem for effective therapy in crc. here, we investigated the mechanism by which peptidylprolyl isomerase b (ppib; cyclophilin b, cypb) regulates chemoresistance in crc. we found that cypb is a novel wild-type p53 (p53wt)-inducible gene but a negative regulator of p53wt in response to oxaliplatin treatment. overexpression of cypb shortens the half-life of p53wt and inhibits oxaliplatin-induced apoptosis in crc cells, whereas knockdown of cypb lengthens the half-life of p53wt and stimulates p53wt-dependent apoptosis. cypb interacts directly with mdm2, and enhances mdm2-dependent p53wt ubiquitination and degradation. furthermore, we firmly validated, using bioinformatics analyses, that overexpression of cypb is associated with poor prognosis in crc progression and chemoresistance. hence, we suggest a novel mechanism of chemoresistance caused by overexpressed cypb, which may help to develop new anti-cancer drugs. we also propose that cypb may be utilized as a predictive biomarker in crc patients. copyright © 2018 pathological society of great britain and ireland. published by john wiley & sons, ltd.