Preclinical Pharmacokinetics of C118P, a Novel Prodrug of Microtubules Inhibitor and Its Metabolite C118 in Mice, Rats, and Dogs

C118P, a phosphate prodrug of C118, which is a novel microtubule protein inhibitor, is currently under Phase I clinical development in China for treating ovarian cancer and lung cancer. The preclinical pharmacokinetics of prodrug C118P and its metabolite C118 were extensively characterized in vivo in mice, rats, and dogs and in vitro to support the further development of C118P. The preclinical tissue distribution and excretion were investigated in rats. Plasma protein binding in mice, rat, and human, and hepatic microsomal metabolic stability in mice, rat, dog, monkey, and human, were also evaluated. The (AUC0-inf) and C30s of C118P at 50 mg/kg in rats and 6 mg/kg in dogs, and the C2min of C118 at 6 mg/kg in dogs increased less than the dosage increase, suggested nonlinear pharmacokinetic occurred at high dose. As a prodrug, C118P can be quickly hydrolyzed into C118 after an intravenous administration. The unbound C118 in plasma is slightly higher than C118P. C118P can hardly penetrate the tissue, while C118 can distribute widely into tissues. In tumor-bearing nude mice, the concentration of C118 is high in lung, ovary, and tumor, with an extended half-life in tumor. C118P is a promising candidate prodrug for further clinical development.

QUANTITATIVE ASSESSMENT OF BETA-III TUBULIN EXPRESSION IN LUNG ADENOCARCINOMA AND SQUAMOUS CELL CARCINOMA

Background. Beta-III tubulin (TUBB3) is a tumor-specific isoform of the microtubule protein beta-tubulin. TUBB3 is considered to be a marker of adverse prognosis and tumor resistance to therapy with taxanes and Vinka alkaloids. Association between TUBB3 expression and histological type of the tumor has not been studied properly yet. Objective. The expression level of TUBB3 in non-small cell lung cancer biopsy specimens has been measured on 2 groups of patients with adenocarcinoma and squamous cell carcinoma. Materials and methods. The samples with adenocarcinoma (n = 43) and squamous cell carcinoma (n = 39) were converted to suspension, filtered, fixed with 4 % formaldehyde, stained with monoclonal antibodies for TUBB3 and DyLight 650-conjugated secondary antibodies to mouse IgG and analyzed by flow-cytometry. The method was developed in N.N. Blokhin Russian Cancer Research Center. Results. The average level of TUBB3 expression in the adenocarcinoma group is higher than in the squamous cell carcinoma group (33.1 ± 12.4 % of cells expressing the marker in adenocarcinoma vs. 26.0 ± 13.6 % in squamous cell carcinoma; differences were statistically significant). The average level of TUBB3 expression in adenocarcinoma is 29.7 ± 8.1 % in female and is 34.9 ± 13.9 % in male (differences statistically insignificant). Since the group of patients with adenocarcinoma was presented by both men and women, while the group of patients with squamous cell carcinoma was only men, from the analysis was excluded all female patients. Differences between the groups remained statistically significant. Conclusion. TUBB3 expression in tumor tissue does not depend on the gender, at least among patients with adenocarcinoma of the lung, and at the same time, the level of TUBB3 in adenocarcinoma tissue is higher in comparison with squamous cell carcinoma tissue.

Involvement of the mitochondrial permeability transition pore in chronic ethanol-mediated liver injury in mice

Chronic ethanol consumption increases sensitivity of the mitochondrial permeability transition (MPT) pore induction in liver. Ca2+ promotes MPT pore opening, and genetic ablation of cyclophilin D (CypD) increases the Ca2+ threshold for the MPT. We used wild-type (WT) and CypD-null (CypD−/−) mice fed a control or an ethanol-containing diet to investigate the role of the MPT in ethanol-mediated liver injury. Ca2+-mediated induction of the MPT and mitochondrial respiration were measured in isolated liver mitochondria. Steatosis was present in WT and CypD−/− mice fed ethanol and accompanied by increased terminal deoxynucleotidyl transferase dUTP-mediated nick-end label-positive nuclei. Autophagy was increased in ethanol-fed WT mice compared with ethanol-fed CypD−/− mice, as reflected by an increase in the ratio of microtubule protein 1 light chain 3B II to microtubule protein 1 light chain 3B I. Higher levels of p62 were measured in CypD−/− than WT mice. Ethanol decreased mitochondrial respiratory control ratios and select complex activities in WT and CypD−/− mice. Ethanol also increased CypD protein in liver of WT mice. Mitochondria from control- and ethanol-fed WT mice were more sensitive to Ca2+-mediated MPT pore induction than mitochondria from their CypD−/− counterparts. Mitochondria from ethanol-fed CypD−/− mice were also more sensitive to Ca2+-induced swelling than mitochondria from control-fed CypD−/− mice but were less sensitive than mitochondria from ethanol-fed WT mice. In summary, CypD deficiency was associated with impaired autophagy and did not prevent ethanol-mediated steatosis. Furthermore, increased MPT sensitivity was observed in mitochondria from ethanol-fed WT and CypD−/− mice. We conclude that chronic ethanol consumption likely lowers the threshold for CypD-regulated and -independent characteristics of the ethanol-mediated MPT pore in liver mitochondria.