Search results for "CHEMOSENSITIVITY"

showing 5 items of 5 documents

Roles of TP53 in determining therapeutic sensitivity, growth, cellular senescence, invasion and metastasis.

2016

TP53 is a critical tumor suppressor gene that regulates cell cycle progression, apoptosis, cellular senescence and many other properties critical for control of normal cellular growth and death. Due to the pleiotropic effects that TP53 has on gene expression and cellular physiology, mutations at this tumor suppressor gene result in diverse physiological effects. T53 mutations are frequently detected in numerous cancers. The expression of TP53 can be induced by various agents used to treat cancer patients such as chemotherapeutic drugs and ionizing radiation. Radiation will induce Ataxia telangiectasia mutated (ATM) and other kinases that results in the phosphorylation and activation of TP53…

0301 basic medicineCancer Researchendocrine system diseasesMetastasimedicine.disease_causeMetastasisAntineoplastic AgentInvasionNeoplasmsTP53Neoplasm Metastasisbcl-2-Associated X ProteinAza CompoundProto-Oncogene ProteinApoptosis Regulatory ProteinbiologyCell CyclemiRMicroRNACell cycleCell biologyNeoplasm MetastasiGene Expression Regulation NeoplasticNutlin-3 chemosensitivityMdm2Molecular MedicineHumanSignal TransductionCyclin-Dependent Kinase Inhibitor p21Tumor suppressor genemiRsAntineoplastic AgentsCellular senescenceTP53; miRs; MDM2; Nutlin-3 chemosensitivity; Cellular senescence ; Invasion; Metastasis03 medical and health sciencesBcl-2-associated X proteinGeneticMDM2Proto-Oncogene ProteinsmicroRNAGeneticsmedicineHumansNeoplasm InvasivenessneoplasmsMolecular BiologyCell ProliferationNeoplasm InvasiveneAza CompoundsOncomirBridged Bicyclo Compounds HeterocyclicMicroRNAs030104 developmental biologyTumor progressionbiology.proteinNeoplasmTumor Suppressor Protein p53CarcinogenesisApoptosis Regulatory Proteins
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Identification of biological targets through the correlation between cell line chemosensitivity and protein expression pattern.

2021

Matching biological data sequences is one of the most interesting ways to discover new bioactive compounds. In particular, matching cell chemosensitivity with a protein expression profile can be a useful approach to predict the activity of compounds against definite biological targets. In this review, we discuss this correlation. First, we analyze case studies in which some known drugs, acting on known targets, show a good correlation between their antiproliferative activities and protein expression when a large panel of tumor cells is considered. Then, we highlight how the application of in silico methods based on the correlation between cell line chemosensitivity and gene/protein expressi…

0301 basic medicineIn silicoCellAntineoplastic AgentsComputational biologyBiologyCorrelationNCI-60 cell lines panel03 medical and health sciences0302 clinical medicineCell Line TumorNeoplasmsDrug DiscoverymedicineHumansComputer SimulationMolecular Targeted TherapyChemosensitivityGeneBiological target; Chemosensitivity; NCI-60 cell lines panel; Protein expression patternPharmacologyBiological dataBiological activitySettore CHIM/08 - Chimica FarmaceuticaBiological target Chemosensitivity NCI-60 cell lines panel Protein expression patternGene Expression Regulation Neoplastic030104 developmental biologymedicine.anatomical_structureCell cultureBiological targetBiological target030220 oncology & carcinogenesisProtein expression patternDrug discovery today
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Role of the progesterone receptor for paclitaxel resistance in primary breast cancer

2007

Paclitaxel plays an important role in the treatment of primary breast cancer. However, a substantial proportion of patients treated with paclitaxel does not appear to derive any benefit from this therapy. We performed a prospective study using tumour cells isolated from 50 primary breast carcinomas. Sensitivity of primary tumour cells to paclitaxel was determined in a clinically relevant range of concentrations (0.85-27.2 microg ml(-1) paclitaxel) using an ATP assay. Chemosensitivity data were used to study a possible association with immunohistochemically determined oestrogen and progesterone receptor (ER and PR) status, as well as histopathological parameters. Progesterone receptor (PR) m…

Cancer Researchmedicine.medical_specialtyReceptor StatusPaclitaxelmedicine.medical_treatmentBreast Neoplasmsprogesterone receptorchemistry.chemical_compoundBreast cancerInternal medicineProgesterone receptormedicineHumansRNA Messengerprimary tumour cellsChemotherapyBase SequenceDose-Response Relationship Drugbusiness.industryAntineoplastic AgentsPhytogenic/therapeutic use/Base Sequence/Breast Neoplasms/Pathology/DNA Probes/Dose-Response RelationshipDrug/Drug ResistanceNeoplasm/Humans/Immunohistochemistry/Paclitaxel/RNAMessenger/genetics/ReceptorsProgesterone/physiologyindividualized chemotherapymedicine.diseaseAntineoplastic Agents PhytogenicImmunohistochemistryIn vitrochemosensitivityEndocrinologyOncologyPaclitaxelchemistryDrug Resistance NeoplasmCancer researchImmunohistochemistryTranslational TherapeuticsDNA ProbesReceptors ProgesteroneBreast carcinomabusinessBritish Journal of Cancer
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CASP8 SNP D302H (rs1045485) is associated with worse survival in MYCN-amplified neuroblastoma patients

2014

Background Neuroblastoma is a pediatric cancer that exhibits a wide clinical spectrum ranging from spontaneous regression in low-risk patients to fatal disease in high-risk patients. The identification of single nucleotide polymorphisms (SNPs) may help explain the heterogeneity of neuroblastoma and assist in identifying patients at higher risk for poor survival. SNPs in the TP53 pathway are of special importance, as several studies have reported associations between TP53 pathway SNPs and cancer. Of note, less than 2% of neuroblastoma tumors have a TP53 mutation at diagnosis. Patients and Methods We selected 21 of the most frequently studied SNPs in the TP53 pathway and evaluated their assoc…

OncologyGenotyping TechniquesMedizinlcsh:MedicineGenome-wide association studyPROGRESSIONSUSCEPTIBILITYBioinformaticsNeuroblastomaCHEMOSENSITIVITYMedicine and Health SciencesMissense mutationlcsh:ScienceOncogene ProteinsCaspase 8N-Myc Proto-Oncogene ProteinMultidisciplinaryCELL-LINENuclear ProteinsCANCERAPOPTOSISGENOTYPEGene Expression Regulation NeoplasticResearch Articlemedicine.medical_specialtySingle-nucleotide polymorphismBiologyN-Myc Proto-Oncogene ProteinPolymorphism Single NucleotideDisease-Free SurvivalMDM2 SNP309Molecular GeneticsNeuroblastomaInternal medicineCASPASE-8medicineGeneticsCancer GeneticsSNPHumansneoplasmsNeoplasm StagingClinical GeneticsP53lcsh:RGene AmplificationCancerInfantBiology and Life Sciencesmedicine.diseasePediatric cancerGeriatricsGenetics of Diseaselcsh:Q
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Correlation between cell line chemosensitivity and protein expression pattern as new approach for the design of targeted anticancer small molecules

2022

BACKGROUND AND RATIONALE: Over the past few decades, several databases with a significant amount of biological data related to cancer cells and anticancer agents (e.g.: National Cancer Institute database, NCI; Cancer Cell Line Encyclopedia, CCLE; Genomic and Drug Sensitivity in Cancer portal, GDSC) have been developed. The huge amount of heterogeneous biological data extractable from these databanks (among all, drug response and protein expression) provides a real foundation for predictive cancer chemogenomics, which aims to investigate the relationships between genomic traits and the response of cancer cells to drug treatment with the aim to identify novel therapeutic molecules and targets…

antiproliferative activitychemosensitivityCdc25structure-basedligand-basedanticancer drugtargeted therapyprotein expressionDRUDITNCI60Settore CHIM/08 - Chimica Farmaceutica
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