BACKGROUND AND PURPOSE: Phospho-ibuprofen (P-I; MDC-917) inhibits the growth of colon cancer in mice. Here, we investigated the use of nanocarriers to improve its pharmacokinetics (PKs) and anti tumour efficacy. EXPERIMENTAL APPROACH: The cellular uptake and cytotoxicity of P-I encapsulated into liposomes and micelles, and its in vitro metabolic stability, were determined in cultures of human colon adenocarcinoma cells. The performance of liposomal P-I was further evaluated in PK studies in mice, and in a model of colon cancer xenografts in nude mice. KEY RESULTS: Liposomal P-I and micellar P-I showed significantly enhanced cellular uptake in the colon cancer cells. Liposomal P-I also demonstrated increased cytotoxicity in vitro. Free P-I was metabolized rapidly to ibuprofen in the presence of purified esterases. In contrast, liposomal P-I, and to a lesser extent micellar P-I, was resistant to esterase-mediated hydrolysis. In mice, liposomal P-I partially protected P-I from hydrolysis in the circulation, and improved the biodistribution of intact P-I and its metabolites compared to free P-I. Liposomal P-I was more effective at inhibiting the growth of human colon cancer xenografts in mice, which may be explained on the basis of its improved PK profile compared to free P-I. CONCLUSIONS AND IMPLICATIONS: Liposome encapsulation of P-I partially protected P-I from esterase-mediated hydrolysis in mice, enhanced the cytotoxicity and bioavailability of P-I and increased its efficacy at inhibiting the growth of human colon cancer xenografts. These results indicate that liposomes are suitable nanocarriers for the delivery of P-I, and that the anti-tumour potential of liposomal P-I merits further evaluation.
BACKGROUND AND PURPOSE:Phospho-ibuprofen (P-I; MDC-917) inhibits the growth of colon cancer in mice. Here, we investigated the use of nanocarriers to improve its pharmacokinetics (PKs) and anti tumour efficacy. EXPERIMENTAL APPROACH: The cellular uptake and cytotoxicity of P-I encapsulated into liposomes and micelles, and its in vitro metabolic stability, were determined in cultures of humancolon adenocarcinoma cells. The performance of liposomal P-I was further evaluated in PK studies in mice, and in a model of colon cancer xenografts in nude mice. KEY RESULTS: Liposomal P-I and micellar P-I showed significantly enhanced cellular uptake in the colon cancer cells. Liposomal P-I also demonstrated increased cytotoxicity in vitro. Free P-I was metabolized rapidly to ibuprofen in the presence of purified esterases. In contrast, liposomal P-I, and to a lesser extent micellar P-I, was resistant to esterase-mediated hydrolysis. In mice, liposomal P-I partially protected P-I from hydrolysis in the circulation, and improved the biodistribution of intact P-I and its metabolites compared to free P-I. Liposomal P-I was more effective at inhibiting the growth of humancolon cancer xenografts in mice, which may be explained on the basis of its improved PK profile compared to free P-I. CONCLUSIONS AND IMPLICATIONS: Liposome encapsulation of P-I partially protected P-I from esterase-mediated hydrolysis in mice, enhanced the cytotoxicity and bioavailability of P-I and increased its efficacy at inhibiting the growth of humancolon cancer xenografts. These results indicate that liposomes are suitable nanocarriers for the delivery of P-I, and that the anti-tumour potential of liposomal P-I merits further evaluation.
Authors: Christine Cole Johnson; Richard B Hayes; Robert E Schoen; Marc J Gunter; Wen-Yi Huang Journal: Am J Gastroenterol Date: 2010-08-31 Impact factor: 10.864
Authors: Jason A Zell; Argyrios Ziogas; Leslie Bernstein; Christina A Clarke; Dennis Deapen; Joan A Largent; Susan L Neuhausen; Daniel O Stram; Giske Ursin; Hoda Anton-Culver Journal: Cancer Date: 2009-12-15 Impact factor: 6.860
Authors: Chi C Wong; Ka-Wing Cheng; Ioannis Papayannis; George Mattheolabakis; Liqun Huang; Gang Xie; Nengtai Ouyang; Basil Rigas Journal: Pharm Res Date: 2014-11-13 Impact factor: 4.200
Authors: Ka Wing Cheng; George Mattheolabakis; Chi C Wong; Nengtai Ouyang; Liqun Huang; Panayiotis P Constantinides; Basil Rigas Journal: Int J Oncol Date: 2012-07-27 Impact factor: 5.650