P-glycoproteins in pathology: The multidrug resistance gene family in humans
Identifieur interne : 003119 ( Main/Exploration ); précédent : 003118; suivant : 003120P-glycoproteins in pathology: The multidrug resistance gene family in humans
Auteurs : Ronald S. Weinstein [États-Unis] ; Jerome R. Kuszak [États-Unis] ; Larry F. Kluskens [États-Unis] ; John S. Coon [États-Unis]Source :
- Human Pathology [ 0046-8177 ] ; 1990.
English descriptors
- Teeft :
- Acad, Adhesion plaques, Amplification, Assay, Biochem biophys, Biochim biophys acta, Biol, Biol chem, Biophys, Cancer cells, Carcinoma, Carcinoma cells, Cdna, Cell biol, Cell lines, Chemotherapy, Chinese hamster cells, Clin, Clin oncol, Clinical trials, Colon, Cytoplasmic, Cytoplasmic domain, Drug resistance, Efflux, Epitope, Expressors, Fojo, Gene, Gene amplification, Gene family, Glycoprotein, Gottesman, Hamster, Heterogeneity, High affinity, High expressors, High level, High levels, Human cancer, Human gene, Human pathology volume, Human tumors, Hybridization, Immunostaining, Intracellular, Intrinsic drug resistance, Jnci, Leukemia cells, Ling, Lipophilic, Localization, Lumenal, Lumenal membrane, Malignant, Mdr2, Mdr2 genes, Mdrl, Mdrl expression, Mdrl gene, Mdrl gene amplification, Mdrl mrna, Mdrl mrna expression, Mdrp, Mdrs, Membrane, Moab, Molecular weight, Monoclonal, Monoclonal antibodies, Monoclonal antibody, Mrna, Mrna expression, Mrna levels, Multidrug, Multidrug resistance, Multiple myeloma, Myeloma, Nat1, Normal organs, Normal tissues, Northern blot, Nucleic acid probes, Oncol, Other hand, Ovary, Paraffin, Paraffin section, Plasma membrane, Plasma membranes, Proc, Proc nat1 acad, Recurrent tumors, Roninson, Sarcoma, Transporter, Tsuruo, Tumor cells, Verapamil, Weinstein, Willingham.
Abstract
Abstract: Many cancers do not respond to chemotherapy on primary exposure to drugs, thus manifesting intrinsic drug resistance. Other cancers that do initially respond subsequently become resistant to the same drugs and simultaneously to other drugs to which the patient has had no previous exposure. This is a form of acquired drug resistance. There is a pressing need to better understand the mechanisms of drug resistance and to use this information to develop strategies for the chemosensitization of drug-resistant tumors. A goal of the pathology laboratory is to offer chemosensitivity tests that identify intrinsic or acquired resistance of tumors to specific drugs or classes of drugs to enable the clinician to tailor therapy to the biology of cancers in individual patients.Multidrug resistance is one type of drug resistance. It can be present in either an intrinsic or acquired form. The human gene that confers human multidrug resistance, the MDR1 gene, has been cloned and classified as a member of the MDR gene family. Its encoded protein, called Mdr1, is an energy-driven membrane efflux transporter that maintains intracellular concentrations of certain chemotherapeutic drugs at nontoxic levels. Useful model systems for studying multidrug resistance have been developed in several research laboratories. Applying selection pressure by exposing cultured cancer cells to escalating doses of natural product anti-cancer drugs allows cross-resistant cell lines to be produced which share patterns of drug resistance with human cancers. A common feature of these drug-resistant lines is the expression of Mdr1. Using techniques of genetic engineering, molecular probes have been developed that can be used to measure MDR1 mRNA and MDR1 gene amplification. Mdr can be measured by immunochemistry methods. Currently, such measurements are being used to stratify patients in clinical trials designed to determine if chemosensitization by inhibition of the pump function of Mdr is a clinically useful therapeutic strategy. If sucessful, Mdr/MDR1 mRNA laboratory testing might significantly increase the clinical laboratory's role in cancer patient management.
Url:
DOI: 10.1016/0046-8177(90)90073-E
Affiliations:
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Coon</name><affiliation wicri:level="2"><country>États-Unis</country><placeName><region type="state">Illinois</region></placeName><wicri:cityArea>Department of Pathology, Rush University and Rush-Presbyterian-St Luke's Medical Center, Chicago</wicri:cityArea></affiliation></author></analytic><monogr></monogr><series><title level="j">Human Pathology</title><title level="j" type="abbrev">YHUPA</title><idno type="ISSN">0046-8177</idno><imprint><publisher>ELSEVIER</publisher><date type="published" when="1990">1990</date><biblScope unit="volume">21</biblScope><biblScope unit="issue">1</biblScope><biblScope unit="page" from="34">34</biblScope><biblScope unit="page" to="48">48</biblScope></imprint><idno type="ISSN">0046-8177</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0046-8177</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Acad</term><term>Adhesion plaques</term><term>Amplification</term><term>Assay</term><term>Biochem biophys</term><term>Biochim biophys acta</term><term>Biol</term><term>Biol chem</term><term>Biophys</term><term>Cancer cells</term><term>Carcinoma</term><term>Carcinoma cells</term><term>Cdna</term><term>Cell biol</term><term>Cell lines</term><term>Chemotherapy</term><term>Chinese hamster cells</term><term>Clin</term><term>Clin oncol</term><term>Clinical trials</term><term>Colon</term><term>Cytoplasmic</term><term>Cytoplasmic domain</term><term>Drug resistance</term><term>Efflux</term><term>Epitope</term><term>Expressors</term><term>Fojo</term><term>Gene</term><term>Gene amplification</term><term>Gene family</term><term>Glycoprotein</term><term>Gottesman</term><term>Hamster</term><term>Heterogeneity</term><term>High affinity</term><term>High expressors</term><term>High level</term><term>High levels</term><term>Human cancer</term><term>Human gene</term><term>Human pathology volume</term><term>Human tumors</term><term>Hybridization</term><term>Immunostaining</term><term>Intracellular</term><term>Intrinsic drug resistance</term><term>Jnci</term><term>Leukemia cells</term><term>Ling</term><term>Lipophilic</term><term>Localization</term><term>Lumenal</term><term>Lumenal membrane</term><term>Malignant</term><term>Mdr2</term><term>Mdr2 genes</term><term>Mdrl</term><term>Mdrl expression</term><term>Mdrl gene</term><term>Mdrl gene amplification</term><term>Mdrl mrna</term><term>Mdrl mrna expression</term><term>Mdrp</term><term>Mdrs</term><term>Membrane</term><term>Moab</term><term>Molecular weight</term><term>Monoclonal</term><term>Monoclonal antibodies</term><term>Monoclonal antibody</term><term>Mrna</term><term>Mrna expression</term><term>Mrna levels</term><term>Multidrug</term><term>Multidrug resistance</term><term>Multiple myeloma</term><term>Myeloma</term><term>Nat1</term><term>Normal organs</term><term>Normal tissues</term><term>Northern blot</term><term>Nucleic acid probes</term><term>Oncol</term><term>Other hand</term><term>Ovary</term><term>Paraffin</term><term>Paraffin section</term><term>Plasma membrane</term><term>Plasma membranes</term><term>Proc</term><term>Proc nat1 acad</term><term>Recurrent tumors</term><term>Roninson</term><term>Sarcoma</term><term>Transporter</term><term>Tsuruo</term><term>Tumor cells</term><term>Verapamil</term><term>Weinstein</term><term>Willingham</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Abstract: Many cancers do not respond to chemotherapy on primary exposure to drugs, thus manifesting intrinsic drug resistance. Other cancers that do initially respond subsequently become resistant to the same drugs and simultaneously to other drugs to which the patient has had no previous exposure. This is a form of acquired drug resistance. There is a pressing need to better understand the mechanisms of drug resistance and to use this information to develop strategies for the chemosensitization of drug-resistant tumors. A goal of the pathology laboratory is to offer chemosensitivity tests that identify intrinsic or acquired resistance of tumors to specific drugs or classes of drugs to enable the clinician to tailor therapy to the biology of cancers in individual patients.Multidrug resistance is one type of drug resistance. It can be present in either an intrinsic or acquired form. The human gene that confers human multidrug resistance, the MDR1 gene, has been cloned and classified as a member of the MDR gene family. Its encoded protein, called Mdr1, is an energy-driven membrane efflux transporter that maintains intracellular concentrations of certain chemotherapeutic drugs at nontoxic levels. Useful model systems for studying multidrug resistance have been developed in several research laboratories. Applying selection pressure by exposing cultured cancer cells to escalating doses of natural product anti-cancer drugs allows cross-resistant cell lines to be produced which share patterns of drug resistance with human cancers. A common feature of these drug-resistant lines is the expression of Mdr1. Using techniques of genetic engineering, molecular probes have been developed that can be used to measure MDR1 mRNA and MDR1 gene amplification. Mdr can be measured by immunochemistry methods. Currently, such measurements are being used to stratify patients in clinical trials designed to determine if chemosensitization by inhibition of the pump function of Mdr is a clinically useful therapeutic strategy. If sucessful, Mdr/MDR1 mRNA laboratory testing might significantly increase the clinical laboratory's role in cancer patient management.</div></front></TEI><affiliations><list><country><li>États-Unis</li></country><region><li>Illinois</li></region></list><tree><country name="États-Unis"><region name="Illinois"><name sortKey="Weinstein, Ronald S" sort="Weinstein, Ronald S" uniqKey="Weinstein R" first="Ronald S." last="Weinstein">Ronald S. Weinstein</name></region><name sortKey="Coon, John S" sort="Coon, John S" uniqKey="Coon J" first="John S." last="Coon">John S. Coon</name><name sortKey="Kluskens, Larry F" sort="Kluskens, Larry F" uniqKey="Kluskens L" first="Larry F." last="Kluskens">Larry F. Kluskens</name><name sortKey="Kuszak, Jerome R" sort="Kuszak, Jerome R" uniqKey="Kuszak J" first="Jerome R." last="Kuszak">Jerome R. Kuszak</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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