Search results for " Myelogenous"

showing 10 items of 90 documents

Interleukin 3- receptor targeted exosomes inhibit in vitro and in vivo chronic myelogenous Leukemia cell growth

2017

Despite Imatinib (IM), a selective inhibitor of Bcr-Abl, having led to improved prognosis in Chronic Myeloid Leukemia (CML) patients, acquired resistance and long-term adverse effects is still being encountered. There is, therefore, urgent need to develop alternative strategies to overcome drug resistance. According to the molecules expressed on their surface, exosomes can target specific cells. Exosomes can also be loaded with a variety of molecules, thereby acting as a vehicle for the delivery of therapeutic agents. In this study, we engineered HEK293T cells to express the exosomal protein Lamp2b, fused to a fragment of Interleukin 3 (IL3). The IL3 receptor (IL3-R) is overexpressed in CML…

0301 basic medicineMedicine (miscellaneous)PharmacologyEngineered exosomeExosomesInterleukin 3Antineoplastic AgentMiceHEK293 Cellhemic and lymphatic diseasesDrug CarrierPharmacology Toxicology and Pharmaceutics (miscellaneous)Drug CarriersChronic myeloid leukemiaMyeloid leukemiaChronic myeloid leukemia; Drug delivery; Drug resistance; Engineered exosomes; Interleukin 3; Animals; Antineoplastic Agents; Cell Line Tumor; Cell Proliferation; Disease Models Animal; Drug Carriers; Exosomes; HEK293 Cells; Heterografts; Humans; Imatinib Mesylate; Leukemia Myelogenous Chronic BCR-ABL Positive; Mice; Receptors Interleukin-3; Treatment Outcome3. Good healthTreatment OutcomeImatinib MesylateHeterograftsHeterograftResearch Papermedicine.drugHumanEngineered exosomesAntineoplastic Agents03 medical and health sciencesIn vivoCell Line TumorLeukemia Myelogenous Chronic BCR-ABL PositivemedicineAnimalsHumansneoplasmsInterleukin 3.Interleukin 3Cell Proliferationbusiness.industryAnimalImatinibmedicine.diseaseMicrovesiclesReceptors Interleukin-3ExosomeDisease Models AnimalHEK293 Cells030104 developmental biologyImatinib mesylateDrug resistanceCancer cellDrug deliverybusinessChronic myelogenous leukemia
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SWATH-MS based quantitative proteomics analysis reveals that curcumin alters the metabolic enzyme profile of CML cells by affecting the activity of m…

2018

Background Chronic myelogenous leukemia (CML) is a myeloproliferative disorder caused by expression of the chimeric BCR-ABL tyrosine kinase oncogene, resulting from the t(9;22) chromosomal translocation. Imatinib (gleevec, STI-571) is a selective inhibitor of BCR-ABL activity highly effective in the treatment of CML. However, even though almost all CML patients respond to treatment with imatinib or third generation inhibitors, these drugs are not curative and need to be taken indefinitely or until patients become resistant. Therefore, to get a definitive eradication of leukemic cells, it is necessary to find novel therapeutic combinations, for achieving greater efficacy and fewer side effec…

0301 basic medicineProteomicsCancer ResearchCurcuminCML cellsCellReceptors Cytoplasmic and NuclearKaryopherinsTransfectionlcsh:RC254-282Mass SpectrometrymiR-22/IPO7/HIF-1α axis03 medical and health scienceschemistry.chemical_compound0302 clinical medicinemiR-22/IPO7/HIF-1α axiSettore BIO/13 - Biologia Applicatahemic and lymphatic diseasesCell Line TumorLeukemia Myelogenous Chronic BCR-ABL PositivemedicineHumansCML cells; Curcumin; miR-22/IPO7/HIF-1α axis; SWATH-MS; Oncology; Cancer ResearchOncogeneChemistryResearchCML cellImatinibTransfectionmedicine.diseaseHypoxia-Inducible Factor 1 alpha Subunitlcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens3. Good healthMicroRNAs030104 developmental biologymedicine.anatomical_structureOncology030220 oncology & carcinogenesisCancer researchCurcuminSWATH-MSK562 CellsTyrosine kinaseK562 cellsChronic myelogenous leukemiamedicine.drug
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Curcumin modulates chronic myelogenous leukemia exosomes composition and affects angiogenic phenotype, via exosomal miR-21

2016

Abstract: Tumor derived exosomes are vesicles which contain proteins and microRNAs that mediate cell-cell communication and are involved in angiogenesis and tumor progression. Curcumin derived from the plant Curcuma longa, shows anticancer effects. Exosomes released by CML cells treated with Curcumin contain a high amount of miR-21 that is shuttled into the endothelial cells in a biologically active form. The treatment of HUVECs with CML Curcu-exosomes reduced RhoB expression and negatively modulated endothelial cells motility. We showed that the addition of CML control exosomes to HUVECs caused an increase in IL8 and VCAM1 levels, but Curcu-exosomes reversed these effects thus attenuating …

0301 basic medicineProteomicsCurcuminProteomeAngiogenesisRHOBNeovascularization PhysiologicAntineoplastic AgentsexosomesExosome03 medical and health scienceschemistry.chemical_compound0302 clinical medicineSettore BIO/13 - Biologia ApplicataCell Line TumorLeukemia Myelogenous Chronic BCR-ABL PositiveHuman Umbilical Vein Endothelial CellsMedicineHumansInterleukin 8MARCKSMyristoylated Alanine-Rich C Kinase SubstrateCMLBiologyCells CulturedNeovascularization Pathologicbusiness.industryexosomes curcumin miR-21 CMLMicrovesiclesCell biologyMicroRNAs030104 developmental biologyOncologychemistryGene Expression RegulationSettore CHIM/09 - Farmaceutico Tecnologico Applicativo030220 oncology & carcinogenesisImmunologyCurcuminmiR-21Human medicinebusinessK562 CellsK562 cellsResearch PaperOncotarget
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Chronic myelogenous leukaemia exosomes modulate bone marrow microenvironment through activation of epidermal growth factor receptor

2016

Abstract Chronic myelogenous leukaemia (CML) is a clonal myeloproliferative disorder. Recent evidence indicates that altered crosstalk between CML and mesenchymal stromal cells may affect leukaemia survival; moreover, vesicles released by both tumour and non‐tumour cells into the microenvironment provide a suitable niche for cancer cell growth and survival. We previously demonstrated that leukaemic and stromal cells establish an exosome‐mediated bidirectional crosstalk leading to the production of IL8 in stromal cells, thus sustaining the survival of CML cells. Human cell lines used are LAMA84 (CML cells), HS5 (stromal cells) and bone marrow primary stromal cells; gene expression and protei…

0301 basic medicineStromal cellchronic myeloid leukaemiaEGFRBone Marrow CellsexosomesBiologyInterleukin 8AmphiregulinBone Marrow Stromal Cell03 medical and health sciencesAmphiregulinSettore BIO/13 - Biologia Applicatahemic and lymphatic diseasesCell Line TumorLeukemia Myelogenous Chronic BCR-ABL PositivemedicineCell AdhesionHumansInterleukin 8Epidermal growth factor receptorRNA MessengerPhosphorylationRNA Small InterferingAnnexin A2SNAILMesenchymal stem cellInterleukin-8Cell BiologyOriginal ArticlesMicrovesiclesCell biologyErbB Receptors030104 developmental biologymedicine.anatomical_structureCellular MicroenvironmentMatrix Metalloproteinase 9Cancer cellChronic Myelogenous Leukemia Exosomes; Interleukin 8; Bone Marrow Stromal Cells; EGFRbiology.proteinMolecular MedicineOriginal ArticleBone marrowSnail Family Transcription FactorsChronic Myelogenous Leukemia ExosomeStromal Cellsepidermal growth factor receptor
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Effects of Pimozide Derivatives on pSTAT5 in K562 Cells

2017

STAT5 is a transcription factor, a member of the STAT family of signaling proteins. STAT5 is involved in many types of cancer, including chronic myelogenous leukemia (CML), in which this protein is found constitutively activated as a consequence of BCR-ABL expression. The neuroleptic drug pimozide was recently reported to act as an inhibitor of STAT5 phosphorylation and is capable of inducing apoptosis in CML cells in vitro. Our research group has synthesized simple derivatives of pimozide with cytotoxic activity and that are able to decrease the levels of phosphorylated STAT5. In this work we continued the search for novel STAT5 inhibitors, synthesizing compounds in which the benzoimidazol…

0301 basic medicineantiproliferationApoptosisPharmacologyBiochemistryAntineoplastic Agent0302 clinical medicinePimozidehemic and lymphatic diseasesDrug DiscoverySTAT5 Transcription FactorCytotoxic T cellPhosphorylationGeneral Pharmacology Toxicology and PharmaceuticsBCR-ABL-expressing leukemia; STAT5 inhibitors; antiproliferation; apoptosis; pimozideSTAT5Molecular StructurebiologyPimozidefood and beverages030220 oncology & carcinogenesisMolecular MedicinePhosphorylationHumanmedicine.drugAntineoplastic AgentsNOStructure-Activity Relationship03 medical and health sciencesK562 CellmedicineHumansTranscription factorCell ProliferationPharmacologyDose-Response Relationship DrugCell growthSTAT5 inhibitorsOrganic ChemistryApoptosiSTAT5 inhibitormedicine.disease030104 developmental biologyPharmacology Toxicology and Pharmaceutics (all)biology.proteinCancer researchBCR-ABL-expressing leukemiaDrug Screening Assays AntitumorK562 CellsK562 cellsChronic myelogenous leukemiaChemMedChem
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Chronic Myelogenous Leukemia: Approaches to Pharmacological Resistance

2017

Chronic myelogenous leukemia (CML) is a clonal myeloproliferative disorder characterized by the reciprocal t (9:22) chromosomal translocation. This rearrangement produces the socalled Philadelphia chromosome carrying the chimeric Bcr-Abl oncoprotein, p210, responsible of disease progression [1]. Because of its critical role in pathogenesis, the scientific community had focused on targeting Bcr–Abl for treatment of CML. For many years Imatinib (IM), as selective inhibitor of the Tyr-Kinase activity of the oncoprotein, was used to treat CML patients [2]. From 2000 some data relative to IM resistance were available. There are many mechanisms responsible of IM resistance, more often point mutat…

0301 basic medicinebusiness.industryChronic lymphocytic leukemiaAleukemic leukemiamedicine.diseaseOmicsChronic Myelogenus Leukemia pharmacological resistance03 medical and health sciencesLeukemia030104 developmental biology0302 clinical medicineSettore BIO/13 - Biologia Applicata030220 oncology & carcinogenesisImmunologymedicineHairy cell leukemiabusinessChronic myelogenous leukemiaJournal of Leukemia
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COVID-19 in Philadelphia-negative myeloproliferative disorders: a GIMEMA survey

2020

2019-20 coronavirus outbreakPediatricsmedicine.medical_specialtyCancer ResearchCoronavirus disease 2019 (COVID-19)EpidemiologySevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)Pneumonia ViralPhiladelphia chromosomeSeverity of Illness IndexMyeloproliferative diseaseBetacoronavirusMyeloproliferative DisordersLeukemia Myelogenous Chronic BCR-ABL PositiveCorrespondenceNitrilesmedicineHumansPhiladelphia ChromosomeBetacoronavirus COVID-19 Coronavirus Infections Cross-Sectional Studies Disease Progression Humans Italy Leukemia Myelogenous Chronic BCR-ABL Positive Philadelphia Chromosome Pneumonia Viral Pyrazoles SARS-CoV-2 Severity of Illness Index Survival Analysis PandemicsPandemicsPhiladelphia negativebusiness.industrySARS-CoV-2Disease progressionCOVID-19Hematologymedicine.diseaseSurvival AnalysisCross-Sectional StudiesPyrimidinesItalyOncologyDisease ProgressionPyrazolesbusinessCoronavirus InfectionsCoronavirus InfectionsLeukemia
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Synthesis, antiproliferative activity and possible mechanism of action of novel 2-acetamidobenzamides bearing the 2-phenoxy functionality.

2015

Several new 2-(2-phenoxyacetamido)benzamides 17a-v, 21 and 22 were synthesized by stirring in pyridine the acid chlorides 16a-e and the appropriate5-R-4-R1-2-aminobenzamide 15a-e and initially evaluated in vitro for antiproliferative activity against the K562 (human chronic myelogenous leukemia) cell line. Some of synthesized compounds were evaluated for their in vitro antiproliferative activity against the full NCI tumor cell line panel derived from nine clinically isolated cancer types (leukemia, non-small cell lung, colon, CNS, melanoma, ovarian, renal, prostate and breast). The most active compounds caused an arrest of K562 cells in the G0-G1 phase of cell cycle and induction of apoptos…

3003Clinical BiochemistryCellPharmaceutical ScienceAntineoplastic AgentsApoptosisAntiproliferative activityPharmacologyG0/G1 arrestBiochemistryArticle2-(2-Phenoxyacetamido)benzamideAntineoplastic AgentStructure-Activity RelationshipBenzamideSettore BIO/10 - BiochimicaCell Line TumorDrug DiscoveryG1 Phase Cell Cycle CheckpointK562 CellmedicineHumansMolecular BiologyCell ProliferationCell growthChemistryDrug Discovery3003 Pharmaceutical ScienceOrganic ChemistryApoptosiCell cyclemedicine.diseaseCaspaseSettore CHIM/08 - Chimica FarmaceuticaG1 Phase Cell Cycle CheckpointsLeukemiamedicine.anatomical_structureMicroscopy FluorescenceCell cultureApoptosisCaspasesBenzamidesMolecular MedicineDrug Screening Assays AntitumorK562 CellsPro-caspase 3HumanK562 cellsChronic myelogenous leukemiaBioorganicmedicinal chemistry
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Genesis of variant Philadelphia chromosome translocations in chronic myelocytic leukemia.

2003

The Philadelphia (Ph) chromosome is found in more than 90% of chronic myelocytic leukemia (CML) patients. In most cases, it results from the reciprocal t(9;22)(q34;q11), with the ABL proto-oncogene from 9q34 fused to the breakpoint cluster region (BCR) locus on 22q11. In 5%-10% of patients with CML, the Ph chromosome originates from variant translocations, involving various breakpoints in addition to 9q34 and 22q11. In our investigation, three CML cases with complex Ph translocations have been analyzed by G-banding and fluorescence in situ hybridization (FISH). FISH with breakpoint-spanning probes for the BCR and ABL genes revealed information about the genesis of complex Ph translocations.…

AdultGenetic MarkersMaleCancer Researchmedicine.medical_specialtyChromosomes Human Pair 22Chromosomal translocationLocus (genetics)BiologyPhiladelphia chromosomeProto-Oncogene MasTranslocation Genetichemic and lymphatic diseasesLeukemia Myelogenous Chronic BCR-ABL PositiveGeneticsmedicineHumansPhiladelphia ChromosomeMolecular BiologyIn Situ Hybridization FluorescenceGeneticsABLmedicine.diagnostic_testChromosomes Human Pair 11BreakpointCytogeneticsbreakpoint cluster regionGenetic VariationMiddle Agedmedicine.diseaseChromosome BandingKaryotypingFemaleChromosomes Human Pair 9Fluorescence in situ hybridizationCancer genetics and cytogenetics
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The new HFA/ICOS risk assessment tool to identify patients with chronic myeloid leukaemia at high risk of cardiotoxicity

2022

AimsTyrosine kinase inhibitors (TKIs) used to treat chronic myeloid leukaemia (CML) can cause cardiovascular adverseevents. So far, the Systematic Coronary Risk Evaluation (SCORE) charts of the European Society of Cardiology (ESC) have beenused to identify cancer patients at increased cardiovascular risk. The primary aim of our study was to evaluate the usefulnessof the new cardiovascular risk assessment model proposed by the Cardio-Oncology Study Group of the Heart Failure Associ-ation (HFA) of the ESC in collaboration with the International Cardio-Oncology Society (ICOS) to stratify the cardiovascular riskin CML patients, compared with SCORE risk charts. The secondary aim was to establish…

AdultHeart FailureMaleAspirinMiddle AgedRisk AssessmentCardio-oncology Cardiovascular prevention Chronic myeloid leukaemia Nilotinib Ponatinib Cardiovascular toxicityCardiotoxicityInducible T-Cell Co-Stimulator ProteinLeukemia Myelogenous Chronic BCR-ABL PositiveChronic DiseaseHumansFemaleCardiology and Cardiovascular MedicineAgedRetrospective StudiesESC Heart Failure
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