Solution formulation development and efficacy of MJC13 in a preclinical model of castration-resistant prostate cancer

Authors

Su Liang, Texas Southern University
Xiaomei Bian, Texas Southern University
Dong Liang, Texas Southern University
Jeffrey C. Sivils, The University of Texas at El Paso
Leonard M. Neckers, National Cancer Institute (NCI)
Marc B. Cox, The University of Texas at El Paso
Huan Xie, Texas Southern University

Document Type

Article

Publication Date

1-2-2016

Abstract

MJC13, a novel FKBP52 targeting agent, has potential use for the treatment of castration-resistant prostate cancer. The purpose of this work was to develop a solution formulation of MJC13, and obtain its efficacy profile in a human prostate cancer xenograft mouse model. Preformulation studies were conducted to evaluate the physicochemical properties. Co-solvent systems were evaluated for aqueous solubility and tolerance. A human prostate cancer xenograft mouse model was established by growing 22Rv1 prostate cancer cells in C.B-17 SCID mice. The optimal formulation was used to study the efficacy of MJC13 in this preclinical model of castrate-resistant prostate cancer. We found that MJC13 was stable (at least for 1 month), highly lipophilic (logP = 6.49), poorly soluble in water (0.28 μg/mL), and highly plasma protein bound (>98%). The optimal formulation consisting of PEG 400 and Tween 80 (1:1, v/v) allowed us to achieve a MJC13 concentration of 7.5 mg/mL, and tolerated an aqueous environment. After twice weekly intratumoral injection with 10 mg/kg MJC13 in this formulation for four consecutive weeks, tumor volumes were significantly reduced compared to vehicle-treated controls.

Recommended Citation

Liang, Su; Bian, Xiaomei; Liang, Dong; Sivils, Jeffrey C.; Neckers, Leonard M.; Cox, Marc B.; and Xie, Huan, "Solution formulation development and efficacy of MJC13 in a preclinical model of castration-resistant prostate cancer" (2016). Faculty Publications. 245.
https://digitalscholarship.tsu.edu/facpubs/245