Z01 BC 005725 (Z01) | |||
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Title | ABC Transporters in Human Disease and Multidrug Resistance | ||
Institution | NCI, Bethesda, MD | ||
Principal Investigator | Dean, Michael | NCI Program Director | N/A |
Cancer Activity | N/A | Division | CCR |
Funded Amount | $579,181 | Project Dates | 10/01/1991 - N/A |
Fiscal Year | 2008 | Project Type | Intramural |
Research Topics w/ Percent Relevance | Cancer Types w/ Percent Relevance | ||
Cancer (100.0%) Digestive Diseases (20.0%) Neurosciences Research (10.0%) |
Breast Cancer (40.0%) Central Nervous System - Not Including Brain (10.0%) Eye (10.0%) Kidney Cancer (10.0%) Kidney Disease (10.0%) Lung (10.0%) Nervous System (10.0%) Pancreas (10.0%) Prostate (10.0%) Stomach (10.0%) |
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Research Type | |||
Interactions of Genes and/or Genetic Polymorphisms with Exogenous and/or Endogenous Factors Resources and Infrastructure Related to Etiology |
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Abstract | |||
The transport of molecules into and out of the cell is one of the most critical functions of living organisms. A large reason for the failure of chemotherapy in many cases is drug resistance. Pumps that remove toxins from cells are critically important in the resistance of tumors. In addition a number of genetic diseases are caused by defects in transport proteins. The ATP-binding cassette (ABC) gene family codes for transporter proteins pumping a variety of compounds across the membranes of cells and tissues. Overexpression of ABC transporters is an important cause of multidrug resistance to chemotherapy agents and these genes are mutated in diverse human diseases. ABC genes in cancer stem cells Several ABC genes are expressed in cancer stem cells allowing for an innate resistance to cancer therapy. <I>ABCG2</I> is an important drug resistance gene and we have screened for and identified new inhibitors to the protein encoded by this gene. One of these is a new class of compounds known as botrylamides. The botrylamides are found in marine sponges and are simple enough chemically that derivatives can be synthesized and a structure/function relationship determined. <I>ABCG2</I> is an important marker and resistance factor in cancer stem cells. Several of these compounds can be shown to inhibit substrate binding and/or ATPase activity of the protein. The ABCB5 gene, that we identified over 10 years ago has been shown to be a marker for melanoma stem cells. We are developing antibodies against this protein and are expressing the protein in culture to further study its function. Metabolomics to study ABC gene Function To understand the function of the <I>ABCC6</I> gene causing pseudoxanthoma elasticum we have initiated a metabolomics study. Urine from male patients has been used to generate metabolite profiles. We have also initiated studies of serum and urine from <I>Abcc6</I> -/- mice and from yeast cell deficient in an ABCC subfamily gene. These studies should aid us in identifying the substrate of this transporter. The complete complement of ABC genes was characterized in the sea urchin, a major model organism for development and cell biology. Animal models We find that the sea urchin has a dramatically expanded complement of drug transporter genes as well as orthologs of many human disease genes. In addition we have characterized the complement of ABC genes in the planktic crustacean Daphnia a globally distributed organism of central importance for the ecology of lakes and ponds. Daphnia is not only the first crustacean, but also the first non-insect arthropod to have its genome sequence determined. |