Reduction in drug-induced DNA double-strand breaks associated with beta1 integrin-mediated adhesion correlates with drug resistance in U937 cells

We previously showed that adhesion of myeloma cells to fibronectin (FN) by means of beta1 integrins causes resistance to certain cytotoxic drugs. The study described here found that adhesion of U937 human histiocytic lymphoma cells to FN provides a survival advantage with respect to damage induced b...

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Published in:Blood 2001-09, Vol.98 (6), p.1897
Main Authors: Hazlehurst, L A, Valkov, N, Wisner, L, Storey, J A, Boulware, D, Sullivan, D M, Dalton, W S
Format: Article
Language:English
Subjects:
Antineoplastic Agents - pharmacology
Apoptosis
Cell Adhesion
Cell Nucleus - metabolism
Cell Survival - drug effects
Comet Assay
DNA Damage
DNA Topoisomerases, Type II - metabolism
DNA-Binding Proteins
Doxorubicin - pharmacology
Drug Resistance, Neoplasm
Etoposide - pharmacology
Fibronectins - metabolism
Humans
Integrin beta1 - physiology
Mitoxantrone - pharmacology
Receptors, Fibronectin - physiology
Topoisomerase II Inhibitors
U937 Cells
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container_issue 6
container_start_page 1897
container_title Blood
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creator Hazlehurst, L A
Valkov, N
Wisner, L
Storey, J A
Boulware, D
Sullivan, D M
Dalton, W S
description We previously showed that adhesion of myeloma cells to fibronectin (FN) by means of beta1 integrins causes resistance to certain cytotoxic drugs. The study described here found that adhesion of U937 human histiocytic lymphoma cells to FN provides a survival advantage with respect to damage induced by the topoisomerase (topo) II inhibitors mitoxantrone, doxorubicin, and etoposide. Apoptosis induced by a topo II inhibitor is thought to be initiated by DNA damage. The neutral comet assay was used to determine whether initial drug-induced DNA damage correlated with cellular-adhesion-mediated drug resistance. Cellular adhesion by means of beta1 integrins resulted in a 40% to 60% reduction in mitoxantrone- and etoposide-induced DNA double-strand breaks. When the mechanisms regulating the initial drug-induced DNA damage were examined, a beta1 integrin-mediated reduction in drug-induced DNA double-strand breaks was found to correlate with reduced topo II activity and decreased salt-extractable nuclear topo IIbeta protein levels. Confocal studies showed changes in the nuclear localization of topo IIbeta; however, alterations in the nuclear-to-cytoplasmic ratio of topo IIbeta in FN-adhered cells were not significantly different. Furthermore, after a high level of salt extraction of nuclear proteins, higher levels of topo IIbeta-associated DNA binding were observed in FN-adhered cells than in cells in suspension. Together, these data suggest that topo IIbeta is more tightly bound to the nucleus of FN-adhered cells. Thus, FN adhesion by means of beta1 integrins appears to protect U937 cells from initial drug-induced DNA damage by reducing topo II activity secondarily to alterations in the nuclear distribution of topo IIbeta.
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Confocal studies showed changes in the nuclear localization of topo IIbeta; however, alterations in the nuclear-to-cytoplasmic ratio of topo IIbeta in FN-adhered cells were not significantly different. Furthermore, after a high level of salt extraction of nuclear proteins, higher levels of topo IIbeta-associated DNA binding were observed in FN-adhered cells than in cells in suspension. Together, these data suggest that topo IIbeta is more tightly bound to the nucleus of FN-adhered cells. 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subjects Antineoplastic Agents - pharmacology
Apoptosis
Cell Adhesion
Cell Nucleus - metabolism
Cell Survival - drug effects
Comet Assay
DNA Damage
DNA Topoisomerases, Type II - metabolism
DNA-Binding Proteins
Doxorubicin - pharmacology
Drug Resistance, Neoplasm
Etoposide - pharmacology
Fibronectins - metabolism
Humans
Integrin beta1 - physiology
Mitoxantrone - pharmacology
Receptors, Fibronectin - physiology
Topoisomerase II Inhibitors
U937 Cells
title Reduction in drug-induced DNA double-strand breaks associated with beta1 integrin-mediated adhesion correlates with drug resistance in U937 cells
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