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Showing 101 to 109 of 109 (0.062 seconds)Spelling suggestions: "subject:"tyrosine kinase""
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Small molecule FGF receptor inhibitors block FGFR-dependent urothelial carcinoma growth in vitro and in vivoLamont, F.R., Tomlinson, D.C., Cooper, Patricia A., Shnyder, Steven, Chester, J.D., Knowles, M.A. January 2011 (has links)
No / BACKGROUND: Activating mutations of FGFR3 are frequently identified in superficial urothelial carcinoma (UC) and increased expression of FGFR1 and FGFR3 are common in both superficial and invasive UC. METHODS: The effects of inhibition of receptor activity by three small molecule inhibitors (PD173074, TKI-258 and SU5402) were investigated in a panel of bladder tumour cell lines with known FGFR expression levels and FGFR3 mutation status. RESULTS: All inhibitors prevented activation of FGFR3, and inhibited downstream MAPK pathway signalling. Response was related to FGFR3 and/or FGFR1 expression levels. Cell lines with the highest levels of FGFR expression showed the greatest response and little or no effect was measured in normal human urothelial cells or in UC cell lines with activating RAS gene mutations. In sensitive cell lines, the drugs induced cell cycle arrest and/or apoptosis. IC(50) values for PD173074 and TKI-258 were in the nanomolar concentration range compared with micromolar concentrations for SU5402. PD173074 showed the greatest effects in vitro and in vivo significantly delayed the growth of subcutaneous bladder tumour xenografts. CONCLUSION: These results indicate that inhibition of FGFR1 and wild-type or mutant FGFR3 may represent a useful therapeutic approach in patients with both non-muscle invasive and muscle invasive UC.
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| 102 |
L’oncogène Src et les protéines de la famille Bcl-2 : une coopération coupable : implication de la protéine Bik dans la résistance à l’apoptose de cellules transformées par l’oncogène Src / The src oncogene and the Bcl-2 family proteins : a guilty cooperation : Implication of the Bik protein in the resistance to apoptosis of Src-transformed cellsLopez, Jonathan 04 May 2010 (has links)
La protéine tyrosine kinase c-Src est surexprimée et activée dans de nombreux cancers. De manière remarquable, Src est activé dans plus de 80% des adénocarcinomes coliques où il joue un rôle dans la carcinogenèse et la progression vers un phénotype métastatique. c-Src et son homologue viral v-Src activent un grand nombre de voies cellulaires permettant à la tumeur de proliférer, de résister à la mort cellulaire et d’acquérir des capacités accrues de migration et d’angiogenèse. Au cours de ma thèse nous avons mis en évidence un mécanisme inattendu d’échappement à l’apoptose de fibroblastes murins surexprimant de manière stable v-Src et de plusieurs lignées tumorales humaines (coliques en particulier) présentant une activité c-Src dérégulée. Nous avons montré que Src stimule la dégradation protéasomedépendantede la protéine Bik, un membre pro-apoptotique de la famille Bcl-2, connu pour être un suppresseur de tumeurs. Cette régulation post-traductionnelle du niveau d’expression de Bik est à l’origine d’une forte résistance de la voie mitochondriale de l’apoptose. L’inhibition de l’activité kinase de Src ou le blocage de la dégradation de Bik par le protéasome permettent de restaurer des concentrations normales de la protéine Bik dans les cellules transformées et de les restaurer efficacement l’apoptose. En revanche, l’inhibition des protéines anti-apoptotiques de la famille Bcl-2 par l’ABT-737 semble moins efficace. Par ailleurs, nous avons également contribué à mettre en évidence le rôle anti-migratoire et anti-invasif du lithium sur des cellules transformées par Src. Le mécanisme moléculaire mis en jeu implique l’activation redox des protéines tyrosine phosphatases cellulaires. Enfin, nous avons participé à l’étude de peptides mimant les hélices centrales d’insertion de Bax, Bcl-xL et Bid, représentant les trois sous-groupes de protéines de la famille Bcl-2. Nous avons comparé leur comportement vis-à-vis d’une monocouche lipidique mimant la membrane mitochondriale externe ainsi que leur capacité à perméabiliser des mitochondries isolées. Nos résultats nous ont permis de proposer que les fragments centraux d’insertion membranaire des protéines Bcl-2 seraient directement impliqués dans la divergence fonctionnelle des différents sous groupes qui composent la famille / C-Src tyrosine kinase is overexpressed and activated in a number of cancers. Remarkably, Src is deregulated in more than 80% of colorectal adenocarcinoma, playing a role in carcinogenesis and progression toward a metastatic phenotype. c-Src and v-Src activate a large number of intracellular pathways which allow the tumor to proliferate, to evade the cell death machinery and to acquired enhanced migratory and angiogenic abilities. During my PhD, we discovered an unknown mechanism to evade apoptosis developed by murine fibroblasts stably overexpressing v-Src and by some human tumor cell lines with c-Srcb deregulation. We have shown that Src stimulate the proteasomal degradation of the Bik protein, a proapoptotic member of the Bcl-2 family proteins known to act as a tumor suppressor. This post-translationnal regulation of the Bik protein expression level leads to a strong resistance of the mitochondrial pathway of apoptosis. Inhibition of the Src kinase activity or of the Bik proteasome-dependent degradation restore normal levels of the Bik protein and efficiently resensitize these cells to apoptosis. Inhibition of the antiapoptotic Bcl-2 proteins by ABT737 seems to be less efficient in these cells. We also contribute to show that lithium suppresses motility and invasivity of v-Src transformed cells. The molecular mechanism involve a redox activation of the protein tyrosine phosphatases. Finally, we compared the membrane behavior and the ability to permeabilize mitochondria of synthetic peptides derived from the central helical hairpin of Bax,Bcl-xL and Bid. We showed that these structurally analogous domains have distinct membrane behavior which could account for the functional divergence between the Bcl-2 family members
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| 103 |
Acompanhamento molecular de pacientes com leucemia mielóide crônica tratados com mesilato de imatinibe e avaliação dos mecanismos de resistência ao tratamento: mutação do gene BCR-ABL e expressão dos genes MDR1 e BCRP / Molecular monitoring of patients with chronic myeloid leukemia treated with imatinib mesylate and evaluation of treatment resistance mechanisms: mutation of BCR-ABL and expression of MDR1 and BCRP genesNardinelli, Luciana 25 March 2009 (has links)
A leucemia mielóide crônica (LMC) é caracterizada pela translocação (9;22) que dá origem ao gene quimérico BCR-ABL. Este gene codifica uma proteína com atividade tirosina quinase, p210, constitutivamente ativa. O três mecanismos envolvidos na patogênese da LMC são o aumento da proliferação celular, alteração da adesão celular ao estroma e matriz medular e inibição da apoptose. A introdução do mesilato de imatinibe (MI), um inibidor de tirosina quinase, revolucionou o tratamento da LMC levando pacientes em fase crônica a remissões duráveis, porém uma parcela destes não responde ou perde a resposta ao longo do tratamento. Os mecanismos de resistência ao MI podem ser classificados como independentes de BCR-ABL (a1- glicoproteína ácida e genes de resistência a múltiplas drogas) ou dependentes de BCR-ABL (superexpressão de BCR-ABL e mutações do domínio quinase do gene ABL). Objetivo: avaliar a presença de mutações no domínio quinase do gene ABL e a expressão dos genes de resistência a múltiplas drogas MDR1 e BCRP em amostras pré-tratamento com MI, acompanhar estes pacientes mensalmente através da quantificação de transcritos BCR-ABL e quando ocorrer resistência reavaliar a presença de mutações do domínio quinase do ABL e a expressão dos genes de resistência a múltiplas drogas. Material e Métodos: Foram avaliados 61 pacientes com LMC em fase crônica. A pesquisa de mutações do domínio quinase foi realizada pela técnica de seqüenciamento direto e a expressão relativa dos genes de resistência a múltiplas drogas foi avaliada por PCR em tempo real. A quantificação absoluta do número de transcritos BCR-ABL foi realizada pela técnica de PCR em tempo real utilizando-se o sistema Taqman de sondas de hibridização. Resultados: Nas amostras pré-tratamento dos 61 pacientes estudados não foram detectadas mutações. Quando relacionamos o aumento da expressão dos genes MDR1 e BCRP à resposta citogenética completa aos 12 meses de tratamento não houve diferença estatística significativa (p>0,05). Quanto ao número de transcritos BCR-ABL, observamos que os pacientes que apresentaram menos de 1% pela escala internacional aos 3 meses de tratamento atingiram a RMM em período menor (7 meses) do que os que apresentaram mais de 1% (12 meses) com diferença estatística significativa (p = 0,03). Conclusões: As mutações do domínio quinase do gene BCR-ABL nas amostras pré-tratamento não foram detectadas ou pela sensibilidade da técnica de seqüenciamento direto (10%) ou porque tais mutações são mais freqüentes nas fases acelerada e blástica. A expressão dos genes de resistência a múltiplas drogas (MDR1) e BCRP) em pacientes com LMC-FC ao diagnóstico não apresentou correlação com o aparecimento de resistência secundária ao MI. Além disso a quantificação mensal dos transcritos BCR-ABL aos 3 meses pode ser considerada um marcador com valor prognóstico. / Chronic myeloid leukemia is characterized by t(9;22) translocation. The chimeric gene BCR-ABL encodes a p210BCRABL protein with constitutive tyrosine kinase activity which is directly related to CML pathogenesis. The imatinib mesylate, a tyrosine kinase inhibitor, is the first-choice treatment for patients in chronic phase but some patients show primary resistance or relapse after initial response. The mechanisms of resistance to the imatinib mesylate treatment are BCR-ABL dependent (amplification of BCR-ABL and mutation of kinase domain of BCR-ABL) or independent of BCR-ABL (1-acid glycoprotein and expression of multidrug resistance genes). Objective: The objective of this work was to evaluate the mechanisms of resistance (kinase domain mutation and MDR1 and BCRP genes expression) to imatinib mesylate in pretreatment samples, quantify of BCR-ABL transcript on a monthly follow up plan, and to re-evaluate the mechanisms of resistance in the absence or loss of treatment response. Patients and Methods: We have evaluated 61 pretreatment samples derived from chronic phase CML patients. The number of BCR-ABL transcripts was quantified by RTQ-PCR with taqman probes and MDR1 and BCRP expression were evaluated by RTQ-PCR with Syber Green. Mutations within the BCR-ABL kinase domain were screened by direct sequencing and we also have screened the T315I mutation in pretreatment samples by allele-specific PCR. Results:We detected no mutations in the 61 pretreatment samples. The correlation analysis between the expression of MDR1/BCRP genes and the cytogenetic response at 12 months of treatment revealed no significant statistical difference (p = > 0.05). The results of BCR-ABL quantification in the follow up of our cohort indicated that patients who had transcripts <1% by the international scale at 3 months of therapy are more likely to achieve rapid MMR (median of 7 months) than those who had >1% (median of 12 months) (p = 0,03). Conclusions: As expected, the kinase domain mutations of BCR-ABL in pretreatment samples of CML chronic phase patients are not detectable by direct sequencing because of the sensitivity of the assay (10%) and also because these mutations are more common in accelerated phase and blast crisis. About the expression of multidrug resistance genes MDR1 and BCRP, they showed no correlation with secondary resistance to imatinib mesylate. And finally the number of BCR-ABL transcripts at 3 months of treatment can be considered a marker with prognostic value.
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| 104 |
New Diagnostic and Therapeutic Approaches in Adrenocortical Cancer / Ny Diagnostik och Behandling av Patienter med BinjurebarkscancerKhan, Tanweera S January 2004 (has links)
<p>Adrenocortical cancer (ACC) is a rare disease that is often difficult to diagnose, and therefore often presents at an advanced stage. Various cytotoxic treatments have been tried with little success. Evaluation of new diagnostic methods and improvement of medical therapies are therefore crucial.</p><p>The diagnostic potential of 11C-metomidate positron emission tomography (PET) was evaluated in eleven ACC patients. PET visualized all viable tumors with high tracer uptake, including two lesions that CT failed to detect. Necrotic or fibrotic tumors were PET negative. Medication with adrenal steroid inhibitors and chemotherapy may decrease the tracer uptake.</p><p>We performed a phase-II study with streptozocin and o,p’-DDD (SO) combination therapy in 40 ACC patients. The SO therapy was found to have impact on the disease-free interval (P = 0.02) as well as on survival (P = 0.01) in patients who received adjuvant therapy after curative resection. Complete or partial response was obtained in 36.4% of patients with measurable disease.</p><p>The efficacy and tolerability of combination therapy with vincristine, cisplatin, teniposide, and cyclophosphamide (OPEC) were evaluated in eleven patients with advanced ACC after failure of SO therapy. The median survival was 21 months from the start of treatment. A partial response was achieved in two patients. Adverse events were mainly restricted to grade 1-2 toxicities, and grade 3 toxicities were observed in only two cycles.</p><p>We tested 21 ACC tumors to analyze the expression of receptor tyrosine kinases and 15 ACC for mutation analysis of c-Kit exon 11, which can be targeted by antagonists such as imatinib. All ACCs expressed one or more kinases: c-Kit in 19 ACC and phospho-c-Kit in three while 14 ACCs expressed PDGFR-beta, suggesting the potential usefulness of tyrosine kinase inhibitors. No c-Kit mutations were detected in exon 11. Further evaluation of other mutations targeted by this drug may be needed.</p>
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| 105 |
New Diagnostic and Therapeutic Approaches in Adrenocortical Cancer / Ny Diagnostik och Behandling av Patienter med BinjurebarkscancerKhan, Tanweera S January 2004 (has links)
Adrenocortical cancer (ACC) is a rare disease that is often difficult to diagnose, and therefore often presents at an advanced stage. Various cytotoxic treatments have been tried with little success. Evaluation of new diagnostic methods and improvement of medical therapies are therefore crucial. The diagnostic potential of 11C-metomidate positron emission tomography (PET) was evaluated in eleven ACC patients. PET visualized all viable tumors with high tracer uptake, including two lesions that CT failed to detect. Necrotic or fibrotic tumors were PET negative. Medication with adrenal steroid inhibitors and chemotherapy may decrease the tracer uptake. We performed a phase-II study with streptozocin and o,p’-DDD (SO) combination therapy in 40 ACC patients. The SO therapy was found to have impact on the disease-free interval (P = 0.02) as well as on survival (P = 0.01) in patients who received adjuvant therapy after curative resection. Complete or partial response was obtained in 36.4% of patients with measurable disease. The efficacy and tolerability of combination therapy with vincristine, cisplatin, teniposide, and cyclophosphamide (OPEC) were evaluated in eleven patients with advanced ACC after failure of SO therapy. The median survival was 21 months from the start of treatment. A partial response was achieved in two patients. Adverse events were mainly restricted to grade 1-2 toxicities, and grade 3 toxicities were observed in only two cycles. We tested 21 ACC tumors to analyze the expression of receptor tyrosine kinases and 15 ACC for mutation analysis of c-Kit exon 11, which can be targeted by antagonists such as imatinib. All ACCs expressed one or more kinases: c-Kit in 19 ACC and phospho-c-Kit in three while 14 ACCs expressed PDGFR-beta, suggesting the potential usefulness of tyrosine kinase inhibitors. No c-Kit mutations were detected in exon 11. Further evaluation of other mutations targeted by this drug may be needed.
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Tumor suppressive effects of the Beta-2 adrenergic receptor and the small GTPase RhoBCarie, Adam E. January 2008 (has links)
Dissertation (Ph.D.)--University of South Florida, 2008. / Title from PDF of title page. Document formatted into pages; contains 201 pages. Includes vita. Includes bibliographical references.
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| 107 |
Arabidopsis Serine/Threonine/Tyrosine Protein Kinase : Implications in Growth And DEvelopmentIyappan, R January 2015 (has links) (PDF)
Protein phosphorylation is a key cellular regulatory mechanism. Phosphorylation can either activate or inhibit the function of a particular protein. Activation of protein kinases has been implicated in response to light, pathogen attack, growth regulators, stress and nutrient deficiency in plants. Most of the intracellular signaling pathways use protein phosphorylation to create
signals and conduct them further. Identification of the physiological substrates for the protein kinase enables the understanding of how the signaling networks function and how they are disturbed under adverse conditions. Identification of the physiological substrates for the kinase is
limited by the low stoichiometry of protein phosphorylation inside the cell. Although, recent advances in mass spectrometric techniques have increased the identification of phosphorylated protein in the cell, the precise connection between the kinase and identified phosphorylated protein is not established. Dual-specificity kinases that phosphorylate on serine, threonine and
tyrosine residues have been identified and characterized in plants. However, the in vivo
substrates for most of these kinases have not been identified. Recently a manganese-dependent dual-specificity STY protein kinase (STYK) has been identified from Arabidopsis thaliana which has been suggested to play a role in plant growth, development and in systemic acquired resistance. The identification of the physiological substrate for AtSTYK may help in understanding the signal transduction pathway the kinase in involved and how it is perturbed in
different physiological condition.
Therefore, the main objectives of my current study are,
To identify the physiological substrates of the AtSTY dual specificity kinase (STYK).
1) Identification of the substrates by using genetic, proteomic and biochemical
approaches.
2) Biochemical characterization of the substrate phosphorylation.
3) Identifying the biochemical function of the substrate protein.
4) Assessing the significance of substrate phosphorylation.
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| 108 |
Acompanhamento molecular de pacientes com leucemia mielóide crônica tratados com mesilato de imatinibe e avaliação dos mecanismos de resistência ao tratamento: mutação do gene BCR-ABL e expressão dos genes MDR1 e BCRP / Molecular monitoring of patients with chronic myeloid leukemia treated with imatinib mesylate and evaluation of treatment resistance mechanisms: mutation of BCR-ABL and expression of MDR1 and BCRP genesLuciana Nardinelli 25 March 2009 (has links)
A leucemia mielóide crônica (LMC) é caracterizada pela translocação (9;22) que dá origem ao gene quimérico BCR-ABL. Este gene codifica uma proteína com atividade tirosina quinase, p210, constitutivamente ativa. O três mecanismos envolvidos na patogênese da LMC são o aumento da proliferação celular, alteração da adesão celular ao estroma e matriz medular e inibição da apoptose. A introdução do mesilato de imatinibe (MI), um inibidor de tirosina quinase, revolucionou o tratamento da LMC levando pacientes em fase crônica a remissões duráveis, porém uma parcela destes não responde ou perde a resposta ao longo do tratamento. Os mecanismos de resistência ao MI podem ser classificados como independentes de BCR-ABL (a1- glicoproteína ácida e genes de resistência a múltiplas drogas) ou dependentes de BCR-ABL (superexpressão de BCR-ABL e mutações do domínio quinase do gene ABL). Objetivo: avaliar a presença de mutações no domínio quinase do gene ABL e a expressão dos genes de resistência a múltiplas drogas MDR1 e BCRP em amostras pré-tratamento com MI, acompanhar estes pacientes mensalmente através da quantificação de transcritos BCR-ABL e quando ocorrer resistência reavaliar a presença de mutações do domínio quinase do ABL e a expressão dos genes de resistência a múltiplas drogas. Material e Métodos: Foram avaliados 61 pacientes com LMC em fase crônica. A pesquisa de mutações do domínio quinase foi realizada pela técnica de seqüenciamento direto e a expressão relativa dos genes de resistência a múltiplas drogas foi avaliada por PCR em tempo real. A quantificação absoluta do número de transcritos BCR-ABL foi realizada pela técnica de PCR em tempo real utilizando-se o sistema Taqman de sondas de hibridização. Resultados: Nas amostras pré-tratamento dos 61 pacientes estudados não foram detectadas mutações. Quando relacionamos o aumento da expressão dos genes MDR1 e BCRP à resposta citogenética completa aos 12 meses de tratamento não houve diferença estatística significativa (p>0,05). Quanto ao número de transcritos BCR-ABL, observamos que os pacientes que apresentaram menos de 1% pela escala internacional aos 3 meses de tratamento atingiram a RMM em período menor (7 meses) do que os que apresentaram mais de 1% (12 meses) com diferença estatística significativa (p = 0,03). Conclusões: As mutações do domínio quinase do gene BCR-ABL nas amostras pré-tratamento não foram detectadas ou pela sensibilidade da técnica de seqüenciamento direto (10%) ou porque tais mutações são mais freqüentes nas fases acelerada e blástica. A expressão dos genes de resistência a múltiplas drogas (MDR1) e BCRP) em pacientes com LMC-FC ao diagnóstico não apresentou correlação com o aparecimento de resistência secundária ao MI. Além disso a quantificação mensal dos transcritos BCR-ABL aos 3 meses pode ser considerada um marcador com valor prognóstico. / Chronic myeloid leukemia is characterized by t(9;22) translocation. The chimeric gene BCR-ABL encodes a p210BCRABL protein with constitutive tyrosine kinase activity which is directly related to CML pathogenesis. The imatinib mesylate, a tyrosine kinase inhibitor, is the first-choice treatment for patients in chronic phase but some patients show primary resistance or relapse after initial response. The mechanisms of resistance to the imatinib mesylate treatment are BCR-ABL dependent (amplification of BCR-ABL and mutation of kinase domain of BCR-ABL) or independent of BCR-ABL (1-acid glycoprotein and expression of multidrug resistance genes). Objective: The objective of this work was to evaluate the mechanisms of resistance (kinase domain mutation and MDR1 and BCRP genes expression) to imatinib mesylate in pretreatment samples, quantify of BCR-ABL transcript on a monthly follow up plan, and to re-evaluate the mechanisms of resistance in the absence or loss of treatment response. Patients and Methods: We have evaluated 61 pretreatment samples derived from chronic phase CML patients. The number of BCR-ABL transcripts was quantified by RTQ-PCR with taqman probes and MDR1 and BCRP expression were evaluated by RTQ-PCR with Syber Green. Mutations within the BCR-ABL kinase domain were screened by direct sequencing and we also have screened the T315I mutation in pretreatment samples by allele-specific PCR. Results:We detected no mutations in the 61 pretreatment samples. The correlation analysis between the expression of MDR1/BCRP genes and the cytogenetic response at 12 months of treatment revealed no significant statistical difference (p = > 0.05). The results of BCR-ABL quantification in the follow up of our cohort indicated that patients who had transcripts <1% by the international scale at 3 months of therapy are more likely to achieve rapid MMR (median of 7 months) than those who had >1% (median of 12 months) (p = 0,03). Conclusions: As expected, the kinase domain mutations of BCR-ABL in pretreatment samples of CML chronic phase patients are not detectable by direct sequencing because of the sensitivity of the assay (10%) and also because these mutations are more common in accelerated phase and blast crisis. About the expression of multidrug resistance genes MDR1 and BCRP, they showed no correlation with secondary resistance to imatinib mesylate. And finally the number of BCR-ABL transcripts at 3 months of treatment can be considered a marker with prognostic value.
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Imatinib radiosensitizes bladder cancer by targeting homologous recombinationQiao, B., Kerr, M., Groselj, B., Teo, M.T., Knowles, M.A., Bristow, R.G., Phillips, Roger M., Kiltie, A.E. January 2013 (has links)
No / Radiotherapy is a major treatment modality used to treat muscle-invasive bladder cancer, with patient outcomes similar to surgery. However, radioresistance is a significant factor in treatment failure. Cell-free extracts of muscle-invasive bladder tumors are defective in nonhomologous end-joining (NHEJ), and this phenotype may be used clinically by combining radiotherapy with a radiosensitizing drug that targets homologous recombination, thereby sparing normal tissues with intact NHEJ. The response of the homologous recombination protein RAD51 to radiation is inhibited by the small-molecule tyrosine kinase inhibitor imatinib. Stable RT112 bladder cancer Ku knockdown (Ku80KD) cells were generated using short hairpin RNA technology to mimic the invasive tumor phenotype and also RAD51 knockdown (RAD51KD) cells to show imatinib's pathway selectivity. Ku80KD, RAD51KD, nonsilencing vector control, and parental RT112 cells were treated with radiation in combination with either imatinib or lapatinib, which inhibits NHEJ and cell survival assessed by clonogenic assay. Drug doses were chosen at approximately IC40 and IC10 (nontoxic) levels. Imatinib radiosensitized Ku80KD cells to a greater extent than RAD51KD or RT112 cells. In contrast, lapatinib radiosensitized RAD51KD and RT112 cells but not Ku80KD cells. Taken together, our findings suggest a new application for imatinib in concurrent use with radiotherapy to treat muscle-invasive bladder cancer. Cancer Res; 73(5); 1611-20. (c)2012 AACR.
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