2009
Replicative Senescence as an Intrinsic Tumor-Suppressor Mechanism
Chang S. Replicative Senescence as an Intrinsic Tumor-Suppressor Mechanism. 2009, 201-217. DOI: 10.1007/978-1-4419-1075-2_8.Peer-Reviewed Original ResearchDysfunctional telomeresGenomic instabilityIntrinsic tumor suppressor mechanismsDNA damage response pathwayProtein-DNA complexesDamage response pathwayTumor suppressor mechanismEukaryotic chromosomal endsEnds of chromosomesP53-dependent senescenceAbsence of p53Complex cytogenetic profileTriggers senescenceDDR pathwaysResponse pathwaysChromosomal endsReplicative senescenceTelomere dysfunctionCellular senescenceOnset of cancerTelomeresSenescenceCancer progressionEpithelial tissuesHuman carcinomas
2008
Telomere dysfunction and tumour suppression: the senescence connection
Deng Y, Chan SS, Chang S. Telomere dysfunction and tumour suppression: the senescence connection. Nature Reviews Cancer 2008, 8: 450-458. PMID: 18500246, PMCID: PMC3688269, DOI: 10.1038/nrc2393.Peer-Reviewed Original ResearchConceptsTelomere dysfunctionDysfunctional telomeresDNA damage responseKey PointsTelomeresEukaryotic chromosomesGenome instabilityShelterin complexApoptotic programDamage responseRepetitive sequencesCellular senescenceTelomeric endTumor suppressionProtein resultsP53 pathwayMutant p53TelomeresSpontaneous tumorigenesisSenescenceTumorigenesisMouse modelChromosomesDysfunctionProteinApoptosisInitiation of Genomic Instability, Cellular Senescence, and Organismal Aging by Dysfunctional Telomeres
Chang S. Initiation of Genomic Instability, Cellular Senescence, and Organismal Aging by Dysfunctional Telomeres. 2008, 57-75. DOI: 10.1007/978-3-540-73709-4_4.Peer-Reviewed Original ResearchDysfunctional telomeresOrganismal agingCellular senescenceDNA damage responseLinear chromosomesShelterin complexDamage responseTelomeric repeatsGenomic instabilityTelomeric structureTelomeresSenescenceFunction resultsProteinImportant roleChromosomesMouse modelRepeatsTelomeraseDNAProgressive lossP53ActivationComplexesAging
2007
Telomere dysfunction suppresses spontaneous tumorigenesis in vivo by initiating p53‐dependent cellular senescence
Cosme-Blanco W, Shen MF, Lazar AJ, Pathak S, Lozano G, Multani AS, Chang S. Telomere dysfunction suppresses spontaneous tumorigenesis in vivo by initiating p53‐dependent cellular senescence. EMBO Reports 2007, 8: 497-503. PMID: 17396137, PMCID: PMC1866197, DOI: 10.1038/sj.embor.7400937.Peer-Reviewed Original ResearchConceptsP53-dependent cellular senescenceSpontaneous tumorigenesisCellular senescenceCellular senescence pathwaysSenescence pathwaysCell cycle arrestSkin carcinomasSenescence markersTumorigenesisMiceDysfunctional telomeresTumor suppressionTelomere dysfunctionP53ApoptosisVivoSuppressionCarcinomaDysfunctionPathwaySenescenceWRN at telomeres: implications for aging and cancer
Multani AS, Chang S. WRN at telomeres: implications for aging and cancer. Journal Of Cell Science 2007, 120: 713-721. PMID: 17314245, DOI: 10.1242/jcs.03397.Peer-Reviewed Original ResearchConceptsWerner syndromeHuman Werner syndromePremature aging syndromesRecent genetic evidenceAge-related pathologiesGenome stabilityWRN deficiencyTelomere maintenanceDNA replicationGenetic evidenceSingle gene defectsTelomere dysfunctionCellular senescenceAging syndromesMolecular levelPremature agingEarly cancer onsetWRNGene defectsCancer onsetMajor roleTelomeresSenescenceRapid onsetProtein
2004
A mouse model of Werner Syndrome: what can it tell us about aging and cancer?
Chang S. A mouse model of Werner Syndrome: what can it tell us about aging and cancer? The International Journal Of Biochemistry & Cell Biology 2004, 37: 991-999. PMID: 15743673, DOI: 10.1016/j.biocel.2004.11.007.Peer-Reviewed Original ResearchConceptsMolecular mechanismsWerner syndromePremature agingConsequent cellular responsesGene functionMammalian agingDysfunctional telomeresGenetic pathwaysReplicative senescenceTelomere dysfunctionCellular responsesGenetic platformProgeroid syndromesMolecular levelMouse modelRecent studiesAging processTelomeresSenescenceTumorigenesisPathwayMechanismAgingCancerSyndromeEssential role of limiting telomeres in the pathogenesis of Werner syndrome
Chang S, Multani AS, Cabrera NG, Naylor ML, Laud P, Lombard D, Pathak S, Guarente L, DePinho RA. Essential role of limiting telomeres in the pathogenesis of Werner syndrome. Nature Genetics 2004, 36: 877-882. PMID: 15235603, DOI: 10.1038/ng1389.Peer-Reviewed Original ResearchConceptsWerner syndromeCultured cellsComplex cellular phenotypesElevated genomic instabilityDNA damage fociPremature aging syndromesWRN deficiencyReplicative senescenceCellular phenotypesGenomic instabilityAging syndromesGenetic dataMutational inactivationPremature senescenceChromosomal instabilityTelomerase expressionHair grayingPremature agingDisease phenotypeEssential roleWRNMice nullSenescenceAutosomal recessive diseaseType II diabetes
1999
Longevity, Stress Response, and Cancer in Aging Telomerase-Deficient Mice
Rudolph K, Chang S, Lee H, Blasco M, Gottlieb G, Greider C, DePinho R. Longevity, Stress Response, and Cancer in Aging Telomerase-Deficient Mice. Cell 1999, 96: 701-712. PMID: 10089885, DOI: 10.1016/s0092-8674(00)80580-2.Peer-Reviewed Original ResearchConceptsOrganismal aging processTelomerase-null miceTelomerase-deficient miceTelomere functionOrganismal levelTelomere maintenanceCellular senescenceOverall fitnessPhysiological processesStress responseHematopoietic ablationGenetic instabilityTelomere lengthNull miceCritical roleLife spanWound healingAging processSpontaneous malignanciesSenescenceOrganismsFitnessPathophysiological symptomsRoleMice