grant

Repression of hepatic drug metabolism by solid tumours [ 2005 - 2007 ]

Also known as: Impact of tumours on levels of human drug metabolizing enzymes

Research Grant

[Cite as https://purl.org/au-research/grants/nhmrc/352419]

Researchers: A/Pr Graham Robertson (Principal investigator) ,  Dr Patsie Polly Prof Christopher Liddle Prof Stephen Clarke

Brief description The treatment of advanced cancer patients with drugs is difficult due to many confounding factors. The variability between patients in clearance rate has a significant impact on the success of chemotherapy. This is especially relevant to chemotherapeutic agents which have a narrow therapeutic range. Anti-tumour action will be lost if the drug is cleared too rapidly from the body, while high doses will lead to toxic side effects. A better understanding of the source of this variability will lead to improvements in the manner in which chemotherapy is administered and would represent a welcome advance for cancer patients. The rate of breakdown of drugs in the body is largely determined by the levels of enzymes called cytochrome P450s (CYPs) in the liver. In humans CYP3A4 is responsible for the disposal of more than half of all drugs including several important chemotherapeutic agents. Clinical studies have found that the presence of an inflammatory response to tumours in tissues outside the liver reduces hepatic CYP3A4 activity. Factors released by immune as well as malignant cells within the tumour circulate via the bloodstream to the liver where they alter expression of many genes including CYPs. The study of the regulation of human genes is inherently difficult. It is nearly impossible to gain access to many body tissues in either healthy or sick individuals to examine co-ordinated gene function (or dysregulation). For this reason we made a transgenic mouse model of human CYP3A4 regulation which enables the human situation to be studied. In this project we will identify the tumour-derived factors which switch off the CYP3A4 transgene and analyse the signalling pathways within liver cells which mediate the response. A knowledge of this mechanism will permit the rational design of therapeutic strategies aimed at making chemotherapy safer and more effective. The availability of convenient animal models enables testing prior to clinical application.

Funding Amount $AUD 504,000.00

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant

Click to explore relationships graph
Identifiers
Viewed: [[ro.stat.viewed]]