Abstract
PF-02341066 is a selective c-Met/Alk tyrosine kinase inhibitor currently in clinical development as an anticancer agent. Non-clinical toxicokinetic evaluation in rats revealed gender-related differences in pharmacokinetics with at least 2-fold higher PF-02341066 plasma concentrations in males than females when administered the same dose. In general, lower systemic exposure of drugs that undergoes oxidative metabolism in male than female rats has been well known to be attributed to gender-specific expression of CYP genes in rats. It is of interest to understand why the gender-related pharmacokinetics in rats for PF-02341066 was opposite to the general observations and if the gender-related pharmacokinetics would be seen in humans that may impact the drug efficacy and toxicity profiles. The potential gender-related differences in PF-02341066 metabolism were investigated both in vitro and in vivo using [3H]PF-02341066. Oxidation was found to be the major metabolic pathway in male rat liver S9 incubations whereas sulfoconjugation was the predominant metabolic pathway in females. There was no qualitative difference in metabolite profiles of PF-02341066 between man and woman liver S9 incubations. Following a single oral administration of [3H]PF-02341066 to rats at 150 mg/kg, the primary route of excretion of the radioactivity was via feces, in which, the most abundant radio-component in male rat was the parent drug (29% of dose) and in female rat was the parent sulfate (44% of dose). The more extensive formation of the parent solfoconjugate in female rats most likely explains why the female rat had lower drug exposure compared to male rat, as gender-related changes of sulfotransferase expression were widely reported in rats. The human liver S9 study suggests that gender-related pharmacokinetics of PF-02341066 are unlikely to occur in humans.
Keywords: Liver S9, hepatocytes, rat, human, pharmacokinetics, excretion, sulfotransferase, gender differences, metabolic profile
Call for Papers in Thematic Issues
Interaction between drugs and endocrine diseases
The introduction of highly active antiretroviral therapy accelerated studies and our understanding on the interaction between pharmacological therapies and endocrine diseases. Drugs can precipitate endocrine via different mechanisms, including direct alteration of hormone production and secretion, dysregulation of hormonal axis, effects on hormonal transport, receptor-binding, and cellular signalling. Common drug-induced ...read more
Tissue Distribution and Metabolism of Micro- and Nanoparticles and Medical Implants
With the continuous advancement of modern science and engineering, numerous functional materials and active molecules have been developed and utilized in various industrial, medical, and food applications. Many of these can enter the body, either actively or passively, and have significant and intricate impacts on human health. For example, biomaterials ...read more
Related Books
Nanoparticles and Nanocarriers Based Pharmaceutical Formulations
Localized Micro/Nanocarriers for Programmed and On-Demand Controlled Drug Release
Advanced Pharmaceutical and Herbal Nanoscience for Targeted Drug Delivery Systems Part I
Advanced Pharmaceutical and Herbal Nanoscience for Targeted Drug Delivery Systems Part II
Mixed Polymeric Micelles for Osteosarcoma Therapy: Development and Characterization
A Comprehensive Text Book on Self-emulsifying Drug Delivery Systems
Nanomaterials: Evolution and Advancement towards Therapeutic Drug Delivery (Part II)
Nanomaterials: Evolution and Advancement Towards Therapeutic Drug Delivery (Part I)
46