Global ETD Search

101	Regulação da expressão de SH3BGRL2, D53, PRAME, DAP12 e calcineurina A beta por BCR-ABL e consequências biológicas dessa regulação na LMC. / BCR-ABL-mediated regulation of SH3BGRL2, D53, PRAME, DAP12 e Calcineurin A beta and biological consequences of this regulation on CML. Carvalho, Daniel Diniz de 23 November 2009 (has links) Sabe-se que TRAIL é capaz de matar células tumorais de forma seletiva e que TRAIL tem sua expressão reduzida em diversos tumores, porém pouco se sabe sobre os mecanismos responsáveis pela sua inibição. Tendo em vista que a expressão de TRAIL pode ser regulada pelo Ácido Retinóico; que PRAME é capaz de inibir a via do ácido retinóico através da proteína EZH2 e que nós observamos anteriormente que a expressão de TRAIL esta diminuída em pacientes com LMC, nós decidimos investigar a associação entre PRAME, EZH2 e TRAIL na LMC. Nós demonstramos que PRAME, mas não EZH2, tem sua expressão aumentada em células BCR-ABL+ e sua expressão está associada com a progressão da LMC. Alem disto, existe uma correlação positiva entre PRAME e BCR-ABL e negativa entre PRAME e TRAIL nestes pacientes. A inibição da expressão de PRAME ou EZH2 por RNAi induziu um aumento da expressão de TRAIL. Estes dados revelam um novo mecanismo de regulação responsável por diminuir a expressão de TRAIL, e geram novos possíveis alvos para a terapia da LMC e, possivelmente, também para outros tumores. / TRAIL was shown to selectively kill tumor cells. Not surprisingly, TRAIL is down-regulated in a variety of tumor cells, but the mechanism responsible for TRAIL inhibition remains elusive. Because TRAIL can be regulate by retinoic acid; PRAME was shown to inhibit transcription of retinoic acid receptor target genes through the polycomb protein EZH2; and we have found that TRAIL is inversely correlated with BCR-ABL in CML patients, we decided to investigate the association of PRAME, EZH2 and TRAIL in BCR-ABL-positive leukemia. Here, we demonstrate that PRAME, but not EZH2, is up-regulated in BCR-ABL cells and is associated with the progression of disease in CML patients. In addition, PRAME expression is positively correlated with BCR-ABL and negatively with TRAIL in these patients. Importantly, knocking down of PRAME or EZH2 by RNA interference restores TRAIL expression. Our data reveal a novel regulatory mechanism responsible for lowering TRAIL expression and provide the basis of alternative targets for combined therapeutic strategies for CML. PRAME PRAME Apoptose Apoptosis BCR-ABL BCR-ABL Células cultivadas de tumor Chronic Myeloid Leukemia Cultured tumor cells Expressão gênica (Regulação) EZH2 EZH2 Gene expression (Regulation) Leucemia Mielóide Crônica TRAIL TRAIL
102	Relação entre o oncogene BCR-ABL e os receptores de tipo TOLL (TLR). / Relationship between the oncogene BCR-ABL and Toll-like receptors (TLR). Zenteno, María Emilia 17 November 2010 (has links) Recentemente, a expressão gênica dos receptores TLR foi encontrada em diversos tipos de células tumorais. A sua participação na biologia do câncer é controversa já que foram descritas ações pró e anti-tumorais após a ativação de sua sinalização. Na Leucemia Mielóide Crônica (LMC) nada se tem demonstrado. BCR-ABL é uma oncoproteína quimérica cujo sítio tirosina quinasa constitutivamente ativado promove inúmeras vias de sinalizações que desencadeia a transformação celular. Este trabalho se inicia com a hipótese de existir uma relação entre o oncogene BCR-ABL e a expressão dos receptores TLRs. Nós verificamos em células murinas TonB210.1 com expressão de BCR-ABL induzível por doxiciclina que Tlr1 e Tlr2 tem sua expressão gênica relativa aumentada na presença da oncoproteína. A regulação positiva de Tlr1 é dependente da ação tirosina quinasa de BCR-ABL. Também mostramos que as vias p38 e JNK estão reprimindo a expressão de Tlr1 induzida por BCR-ABL enquanto que a via ERK é utilizada pelo BCR-ABL para promovê-la. Por outro lado, observamos que a ligação de TLR1/TLR2 com seu agonista sintético Pam3CSK4 em células TonB210.1 BCR-ABL positivas induz um aumento da produção de IL-6 e leva ao aumento da resistência a morte quando induzida pelas drogas Ara-C e VP16. Em conclusão, estes resultados indicam que BCR-ABL esta regulando a expressão gênica de alguns TLRs. Por tanto esses dados contribuem para a compreensão sobre o comportamento de células tumorais BCR-ABL positivas em um contexto de infecção e por conseqüência, dão margem ao estudo de novos alvos de fator de risco para a LMC. / Recently, the gene expression of TLR receptors have been described in several kinds of tumour cells. Its participation in cancer biology is controversial because roles were already been described in pro and anti-tumoral activities after their signaling activation. In Chronic Myeloid Leukemia (CML) there are no published data. BCR-ABL is a quimeric protein and its tyrosine-kinase site is activated constitutively. Thus, many signaling pathways are activated and several cell processes are altered thereby resulting in cellular transformation. This work has started with the hypothesis that a putative relationship between the oncogene BCR-ABL and the expression of TLR receptors could exists. We verified in murine cells TonB210.1 BCR-ABL expression inducible by doxycicline that Tlr1 and Tlr2 have their relative gene expression up-regulated in the presence of the oncoprotein. Therefore the Tlr1 regulation is dependent of BCR-ABL tyrosine kinase action. Using MAPK inhibitors we showed that p38 and JNK pathways are suppressing the TLR1 induction by BCR-ABL while ERK pathway is used by the oncoprotein for promote it. On the other hand, we observed in TonB210.1 BCR-ABL positive cells that the binding of TLR1/TLR2 heterodimer to their synthetic agonist Pam3CSK4 induced an increased production of IL-6 and when these cells were induced by Ara-C and VP-16 drugs the apoptosis resistance increased. In conclusion, these results indicate that the oncoprotein regulates the gene expression of some TLRs. Therefore, this fact gives us data about the behavior of BCR-ABL positive tumor cells in the context of infection and in consequence the study of new risk factor targets for CML. Acute myeloid leukemia BCR-ABL BCR-ABL Cancer Câncer Cell receptors Cultured cells from tumor (Histology) Leucemia mielóide aguda Neoplasias Neoplasms Oncogenes Oncogenes Oncoproteínas Oncoproteins Receptores celulares TLR TLR
103	STAT3 contributes to resistance towards BCR-ABL inhibitors in a bone marrow microenvironment model of drug resistance in chronic myeloid leukemia cells / Bewry, Nadine N. January 2009 (has links) Dissertation (Ph.D.)--University of South Florida, 2009. / Includes vita. Includes bibliographical references. Also available online.
104	STAT3 contributes to resistance towards BCR-ABL inhibitors in a bone marrow microenvironment model of drug resistance in chronic myeloid leukemia cells Bewry, Nadine N. January 2009 (has links) Dissertation (Ph.D.)--University of South Florida, 2009. / Title from PDF of title page. Document formatted into pages; contains 149 pages. Includes vita. Includes bibliographical references.
105	FÖRETAGSREKONSTRUKTION OCH PERSONLIGT ANSVAR : om rekonstruktionsmål och borgenärsskydd Vedin Forsberg, Jonas January 2017 (has links) Ett företag med ekonomiska problem kan, enligt lagen om företagsrekonstruktion (LFR), ges möjlighet att rekonstruera verksamheten genom ett särskilt förfarande, en företagsrekonstruktion. Syftet med institutet är att livskraftiga bolag som har tillfälliga ekonomiska problem ska kunna komma på fötter igen och därmed undvika att bolaget försätts i konkurs med den värdeförstöring det typiskt sett innebär, både företags- och samhällsekonomiskt. En lyckad företagsrekonstruktion är ofta till fördel för flera olika intressenter: bolaget som sådant, de anställda, borgenärerna och samhället i stort. Det finns därför ett uttryckligt mål om att företag ska rekonstrueras om förutsättningar för en lyckad företagsrekonstruktion finns. Inom ramen för det bolags- och skatterättsliga regelverken finns vissa handlingsdirigerande ansvarsregler för bolagets företrädare, som en motvikt till den aktiebolagsrättsliga principen om frihet från personligt ansvar. I 25 kap. aktiebolagslagen (ABL) finns de s.k. kapitalbristreglerna som föreskriver att styrelsen, för att undvika personligt ansvar för bolagets förpliktelser, måste handla på ett visst sätt när bolagets aktiekapital understiger hälften av det registrerade aktiekapitalet. Tillika finns det s.k. företrädaransvaret i 59 kap. skatteförfarandelagen (SFL) som innebär att en företrädare för ett bolag kan bli solidariskt ansvarig för bolagets skatteskulder som inte betalats på förfallodagen, om inte företrädaren vidtagit verksamma åtgärder för avveckling av bolaget. Syftet med uppsatsen är att undersöka och analysera ansvarsreglerna i förhållande till målet med att rekonstruera livskraftiga verksamheter enligt lagen om företagsrekonstruktion. Detta görs bl.a. genom att anlägga ett gäldenärs- och ett borgenärsperspektiv på respektive regelverk för att utreda hur väl olika intressen tillgodoses. I uppsatsen används rättsdogmatisk metod. Slutsatsen är att en företrädare måste ta hänsyn till samtliga regelverk samt att ansvarsregleringen påverkar möjligheterna till en lyckad företagsrekonstruktion på ett negativt sätt. Vidare konstateras med grund i analysen att det torde vara möjligt att i dagsläget inom ramen för domstolarnas verksamhet undanta kapitalbristreglerna i 25 kap. ABL och företrädaransvaret i 59 kap. SFL under en pågående företagsrekonstruktion eftersom LFR tillgodoser gäldenärsoch borgenärsintresset på ett likvärdigt eller bättre sätt. Det föreslås även att samtliga regelverk borde ses över inom ramen för en gemensam utredning. / A company with financial problems, according to the Swedish Company Reorganisation Act, is to be given the opportunity to reconstruct the business through a particular procedure, a company reconstruction. The purpose of the institute is to ensure that viable companies with temporary financial problems get back on their feet and thereby avoid bankruptcy and value-destruction. A successful company reconstruction is often beneficial to several stakeholders: the company as such, employees, creditors and society at large. There is, therefore, an explicit goal that companies should be reconstructed if the prerequisites for a successful company reconstruction exist. Under the corporate and tax laws, there are certain action-based liability rules for the company's representatives, as a counterweight to the corporate law principle of freedom from personal liability. Chapter 25 of the Swedish Companies Act contains the so-called Capital Shortage Rules which stipulate that, in order to avoid personal liability for the company's obligations, the Board must act in a certain way when the company's equity capital is less than half of the registered share capital. There is also the so-called Tax Liability of Representatives in Chapter 59 of the Swedish Tax Procedures Act, which means that a representative of a company may become jointly and severally liable for the company's tax liabilities not paid on the due date unless the representative has taken effective measures to wind up the business. The purpose of this thesis is to investigate and analyse the liability rules in relation to the ability to reconstruct viable activities under the Company Reorganisation Act. This is done by establishing a debtor perspective and a creditor perspective on each regulatory framework to investigate how well different interests are met. In the thesis, a legal dogmatic method is used. The conclusion is that a representative must take into account all the regulations and that the liability regulation negatively affects the prospects for successful company restructuring. Furthermore, it is stated in the analysis that it would be possible to exclude, in the context of the courts, the capital shortage rules in Chapter 25 of the Companies Act and representative responsibility in Chapter 59 of the Tax Procedures Act during an ongoing company restructuring as the Company Reorganisation Act meets both the debtors interest and creditors interest in an equivalent or better way. It is also proposed that all regulations should be reviewed within the framework of a joint Swedish Government Official Report. rekonstruktion företagsrekonstruktion kapitalbristreglerna ABL SFL aktiebolagslagen ansvarsregler skatteförfarandelagen företrädaransvar insolvensrätt personligt ansvar obestånd obeståndsrätt konkurs kapitalbrist kontrollbalansräkning KBR 59 kap. SFL 25 kap. ABL borgenärsperspektiv gäldenärsperspektiv tvängslikvidation medansvar Law Juridik
106	Regulação da expressão de SH3BGRL2, D53, PRAME, DAP12 e calcineurina A beta por BCR-ABL e consequências biológicas dessa regulação na LMC. / BCR-ABL-mediated regulation of SH3BGRL2, D53, PRAME, DAP12 e Calcineurin A beta and biological consequences of this regulation on CML. Daniel Diniz de Carvalho 23 November 2009 (has links) Sabe-se que TRAIL é capaz de matar células tumorais de forma seletiva e que TRAIL tem sua expressão reduzida em diversos tumores, porém pouco se sabe sobre os mecanismos responsáveis pela sua inibição. Tendo em vista que a expressão de TRAIL pode ser regulada pelo Ácido Retinóico; que PRAME é capaz de inibir a via do ácido retinóico através da proteína EZH2 e que nós observamos anteriormente que a expressão de TRAIL esta diminuída em pacientes com LMC, nós decidimos investigar a associação entre PRAME, EZH2 e TRAIL na LMC. Nós demonstramos que PRAME, mas não EZH2, tem sua expressão aumentada em células BCR-ABL+ e sua expressão está associada com a progressão da LMC. Alem disto, existe uma correlação positiva entre PRAME e BCR-ABL e negativa entre PRAME e TRAIL nestes pacientes. A inibição da expressão de PRAME ou EZH2 por RNAi induziu um aumento da expressão de TRAIL. Estes dados revelam um novo mecanismo de regulação responsável por diminuir a expressão de TRAIL, e geram novos possíveis alvos para a terapia da LMC e, possivelmente, também para outros tumores. / TRAIL was shown to selectively kill tumor cells. Not surprisingly, TRAIL is down-regulated in a variety of tumor cells, but the mechanism responsible for TRAIL inhibition remains elusive. Because TRAIL can be regulate by retinoic acid; PRAME was shown to inhibit transcription of retinoic acid receptor target genes through the polycomb protein EZH2; and we have found that TRAIL is inversely correlated with BCR-ABL in CML patients, we decided to investigate the association of PRAME, EZH2 and TRAIL in BCR-ABL-positive leukemia. Here, we demonstrate that PRAME, but not EZH2, is up-regulated in BCR-ABL cells and is associated with the progression of disease in CML patients. In addition, PRAME expression is positively correlated with BCR-ABL and negatively with TRAIL in these patients. Importantly, knocking down of PRAME or EZH2 by RNA interference restores TRAIL expression. Our data reveal a novel regulatory mechanism responsible for lowering TRAIL expression and provide the basis of alternative targets for combined therapeutic strategies for CML. PRAME Apoptose BCR-ABL Células cultivadas de tumor Expressão gênica (Regulação) EZH2 Leucemia Mielóide Crônica TRAIL PRAME Apoptosis BCR-ABL Chronic Myeloid Leukemia Cultured tumor cells EZH2 Gene expression (Regulation) TRAIL
107	Relação entre o oncogene BCR-ABL e os receptores de tipo TOLL (TLR). / Relationship between the oncogene BCR-ABL and Toll-like receptors (TLR). María Emilia Zenteno 17 November 2010 (has links) Recentemente, a expressão gênica dos receptores TLR foi encontrada em diversos tipos de células tumorais. A sua participação na biologia do câncer é controversa já que foram descritas ações pró e anti-tumorais após a ativação de sua sinalização. Na Leucemia Mielóide Crônica (LMC) nada se tem demonstrado. BCR-ABL é uma oncoproteína quimérica cujo sítio tirosina quinasa constitutivamente ativado promove inúmeras vias de sinalizações que desencadeia a transformação celular. Este trabalho se inicia com a hipótese de existir uma relação entre o oncogene BCR-ABL e a expressão dos receptores TLRs. Nós verificamos em células murinas TonB210.1 com expressão de BCR-ABL induzível por doxiciclina que Tlr1 e Tlr2 tem sua expressão gênica relativa aumentada na presença da oncoproteína. A regulação positiva de Tlr1 é dependente da ação tirosina quinasa de BCR-ABL. Também mostramos que as vias p38 e JNK estão reprimindo a expressão de Tlr1 induzida por BCR-ABL enquanto que a via ERK é utilizada pelo BCR-ABL para promovê-la. Por outro lado, observamos que a ligação de TLR1/TLR2 com seu agonista sintético Pam3CSK4 em células TonB210.1 BCR-ABL positivas induz um aumento da produção de IL-6 e leva ao aumento da resistência a morte quando induzida pelas drogas Ara-C e VP16. Em conclusão, estes resultados indicam que BCR-ABL esta regulando a expressão gênica de alguns TLRs. Por tanto esses dados contribuem para a compreensão sobre o comportamento de células tumorais BCR-ABL positivas em um contexto de infecção e por conseqüência, dão margem ao estudo de novos alvos de fator de risco para a LMC. / Recently, the gene expression of TLR receptors have been described in several kinds of tumour cells. Its participation in cancer biology is controversial because roles were already been described in pro and anti-tumoral activities after their signaling activation. In Chronic Myeloid Leukemia (CML) there are no published data. BCR-ABL is a quimeric protein and its tyrosine-kinase site is activated constitutively. Thus, many signaling pathways are activated and several cell processes are altered thereby resulting in cellular transformation. This work has started with the hypothesis that a putative relationship between the oncogene BCR-ABL and the expression of TLR receptors could exists. We verified in murine cells TonB210.1 BCR-ABL expression inducible by doxycicline that Tlr1 and Tlr2 have their relative gene expression up-regulated in the presence of the oncoprotein. Therefore the Tlr1 regulation is dependent of BCR-ABL tyrosine kinase action. Using MAPK inhibitors we showed that p38 and JNK pathways are suppressing the TLR1 induction by BCR-ABL while ERK pathway is used by the oncoprotein for promote it. On the other hand, we observed in TonB210.1 BCR-ABL positive cells that the binding of TLR1/TLR2 heterodimer to their synthetic agonist Pam3CSK4 induced an increased production of IL-6 and when these cells were induced by Ara-C and VP-16 drugs the apoptosis resistance increased. In conclusion, these results indicate that the oncoprotein regulates the gene expression of some TLRs. Therefore, this fact gives us data about the behavior of BCR-ABL positive tumor cells in the context of infection and in consequence the study of new risk factor targets for CML. BCR-ABL Câncer Leucemia mielóide aguda Neoplasias Oncogenes Oncoproteínas Receptores celulares TLR Acute myeloid leukemia BCR-ABL Cancer Cell receptors Cultured cells from tumor (Histology) Neoplasms Oncogenes Oncoproteins TLR
108	Novel Therapeutic Targets for Ph+ Chromosome Leukemia and Its Leukemia Stem Cells: A Dissertation Peng, Cong 19 May 2010 (has links) The human Philadelphia chromosome (Ph) arises from a translocation between chromosomes 9 and 22 [t(9;22)(q34;q11)]. The resulting chimeric BCR-ABLoncogene encodes a constitutively activated, oncogenic tyrosine kinase that induces chronic myeloid leukemia (CML) and B-cell acute lymphoblastic leukemia (B-ALL). The BCR-ABL tyrosine kinase inhibitor (TKI), imatinib mesylate, induces a complete hematologic and cytogenetic response in the majority of CML patients, but is unable to completely eradicate BCR-ABL–expressing leukemic cells, suggesting that leukemia stem cells are not eliminated. Over time, patients frequently become drug resistant and develop progressive disease despite continued treatment. Two major reasons cause the imatinib resistance. The first one is the BCR-ABL kinase domain mutations which inhibit the interaction of BCR-ABL kinase domain with imatinib; the second one is the residual leukemia stem cells (LSCs) in the patients who are administrated with imatinib. To overcome these two major obstacles in CML treatment, new strategies need further investigation. As detailed in Chapter II, we evaluated the therapeutic effect of Hsp90 inhibition by using a novel water-soluble Hsp90 inhibitor, IPI-504, in our BCR-ABL retroviral transplantation mouse model. We found that BCR-ABL mutants relied more on the HSP90 function than WT BCR-ABL in CML. More interestingly, inhibition of HSP90 in CML leukemia stem cells with IPI-504 significantly decreases the survival and proliferation of CML leukemia stem cells in vitro and in vivo. Consistent with these findings, IPI-504 treatment achieved significant prolonged survival of CML and B-ALL mice. IPI-504 represents a novel therapeutic approach whereby inhibition of Hsp90 in CML patients and Ph+ ALL may significantly advance efforts to develop a cure for these diseases. The rationale underlying the use of IPI-504 for kinase inhibitor–resistant CML has implications for other cancers that display oncogene addiction to kinases that are Hsp90 client proteins. Although we proved that inhibition of Hsp90 could restrain LSCs in vitro and in vivo, it is still unclear how to define specific targets in LSCs and eradicate LSCs. In Chapter III, we took advantage of our CML mouse model and compared the global gene expression signature between normal HSCs and LSCs to identify the downregulation of Pten in CML LSCs. CML develops faster when Pten is deleted in Ptenfl/fl mice. On the other hand, Pten overexpression significantly delays the CML development and impairs leukemia stem cell function. mTOR is a major downstream of Pten-Akt pathway and it is always activated or overepxressed when Pten is mutated or deleted in human cancers. In our study, we found that inhibition of mTOR by rapamycin inhibited proliferation and induced apoptosis of LSCs. Notably, our study also confirmed a recent clinical report that Pten has been downregulated in human CML patient LSCs. In summary, our results proved the tumor suppressor role of Pten in CML mouse model. Although the mechanisms of Pten in leukemia stem cells still need further study, Pten and its downstream, such as Akt and mTOR, should be more attractive in LSCs study. Philadelphia Chromosome Leukemia Myelogenous Chronic BCR-ABL Positive Fusion Proteins bcr-abl Stem Cells PTEN Phosphohydrolase Amino Acids, Peptides, and Proteins Cancer Biology Cells Enzymes and Coenzymes Genetic Phenomena Hemic and Lymphatic Diseases Neoplasms
109	Quantitative prediction of long-term molecular response in TKI-treated CML – Lessons from an imatinib versus dasatinib comparison Glauche, Ingmar, Kuhn, Matthias, Baldow, Christoph, Schulze, Philipp, Rothe, Tino, Liebscher, Hendrik, Roy, Amit, Wang, Xiaoning, Roeder, Ingo 14 December 2018 (has links) Longitudinal monitoring of BCR-ABL transcript levels in peripheral blood of CML patients treated with tyrosine kinase inhibitors (TKI) revealed a typical biphasic response. Although second generation TKIs like dasatinib proved more efficient in achieving molecular remission compared to first generation TKI imatinib, it is unclear how individual responses differ between the drugs and whether mechanisms of drug action can be deduced from the dynamic data. We use time courses from the DASISION trial to address statistical differences in the dynamic response between first line imatinib vs. dasatinib treatment cohorts and we analyze differences between the cohorts by fitting an established mathematical model of functional CML treatment to individual time courses. On average, dasatinib-treated patients show a steeper initial response, while the long-term response only marginally differed between the treatments. Supplementing each patient time course with a corresponding confidence region, we illustrate the consequences of the uncertainty estimate for the underlying mechanisms of CML remission. Our model suggests that the observed BCR-ABL dynamics may result from different, underlying stem cell dynamics. These results illustrate that the perception and description of CML treatment response as a dynamic process on the level of individual patients is a prerequisite for reliable patient-specific response predictions and treatment optimizations. info:eu-repo/classification/ddc/520 ddc:520
110	Targeting Drug Resistance in Chronic Myeloid Leukemia: A Dissertation Ma, Leyuan 08 November 2016 (has links) Inhibiting BCR-ABL kinase activity with tyrosine kinase inhibitors (TKIs) has been the frontline therapy for CML. Resistance to TKIs frequently occurs, but the mechanisms remain elusive. First, to uncover survival pathways involved in TKI resistance in CML, I conducted a genome-wide RNAi screen in human CML cells to identify genes governing cellular sensitivity to the first generation TKI called IM (Gleevec). I identified genes converging on and activating the MEK/ERK pathway through transcriptional up-regulation of PRKCH. Combining IM with a MEK inhibitor synergistically kills TKI-resistant CML cells and CML stem cells. Next, I performed single cell RNA-seq to compare expression profiles of CML stem cells and hematopoietic stem cells isolated from the same patient. Among the genes that are preferentially expressed in CML stem cells is PIM2, which encodes a pro-survival serine-threonine kinase that phosphorylates and inhibits the pro-apoptotic protein BAD. Inhibiting PIM2 function sensitizes CML stem cells to IM-induced apoptosis and prevents disease relapse in a CML mouse model. Last, I devised a CRISPR-Cas9 based strategy to perform insertional mutagenesis at a defined genomic location in murine hematopoietic Ba/F3 cells. As proof of principle, we showed its capability to perform unbiased, saturated point mutagenesis in a 9 amino acid region of BCR-ABL encompassing the socalled “gatekeeper” residue, an important determinant of TKI binding. We found that the ranking order of mutations from the screen correlated well with their prevalence in IM-resistant CML patients. Overall, my findings reveal novel resistance mechanisms in CML and provide alternative therapeutic strategies. Leukemia Myelogenous Chronic BCR-ABL Positive Antineoplastic Agents Drug Resistance Neoplasm Chronic Myeloid Leukemia Dissertations, UMMS Drug Resistance, Neoplasm Cellular and Molecular Physiology Hemic and Lymphatic Diseases Medicinal Chemistry and Pharmaceutics Neoplasms Oncology Pharmacology Therapeutics

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