Role of Cytochrome P450 Monooxygenase in Carcinogen and Chemotherapeutic Drug Metabolism.

The purpose of this chapter is to provide insight into which human cytochromes P450 (CYPs) may be involved in metabolism of chemical carcinogens and anticancer drugs. A historical overview of this field and the development of literature using relevant animal models and expressed human CYPs have provided information about which specific CYPs may be involved in carcinogen metabolism. Definition of the biochemical properties of CYP activity came from several groups who studied the reaction stoichiometry of butter yellow and benzo[α]pyrene, including their role in induction of these enzyme systems. This chapter will list as much as is known about the human CYPs involved in carcinogen and anticancer drug metabolism, as well as summarize studies with rodent CYPs. A review of three major classes of anticancer drugs and their metabolism in humans is covered for cyclophosphamide, procarbazine, and anthracycline antibiotics, cancer chemotherapeutic compounds extensively metabolized by CYPs. The emerging information about human CYP gene polymorphisms as well as other enzymes involved in foreign compound metabolism provides considerable information about how these genetic variants affect carcinogen and anticancer drug metabolism. With information available from individual's genomic sequences, consideration of populations who may be at risk due to environmental exposure to carcinogens or how to optimize their cancer therapy regimens to enhance efficacy of the anticancer drugs appears to be an important field of study to benefit individuals in the future.

Contribution of formulation and excipients towards enhanced permeation of curcumin.

Curcumin (CRM) (CAS number 458-37-07), a naturally-occurring molecule, has diverse pharmacological actions. Recently our research group demonstrated that poor permeability also contributes to its poor oral bioavailability. A self nano-emulsifying drug delivery system (CRM SNEDDS) consisting of Labrasol, Gelucire 44/14, Vitamin E TPGS and PEG 400 was designed and provided 16 times improvement in oral bioavailability in rats, at a dose of 250 mg/kg body weight. Caco-2 cell transport studies were conducted for CRM SNEDDS and CRM in the presence of individual excipients, to determine the extent of improvement in permeability. Papp values for CRM, CRM SNEDDS and CRM in combination with 4 individual excipients were calculated. Transepithelial electrical resistance value was assessed to evaluate the cell morphology and the cellular tight junctions. Permeation of a transcellular marker, Lucifer Yellow was used as a marker to assess monolayer integrity. The tested excipient concentrations were found to be non-toxic to the cell monolayer in 2 h incubation. Results showed that the Papp increased 6.35 times for curcumin in CRM SNEDDS as compared to CRM. Individual excipients enhanced permeation from 1.97 to 6.35 times, with Labrasol showing the highest enhancement of 6.35 times.