Susan Gueble, MD, PhD
Assistant Professor of Therapeutic RadiologyDownloadHi-Res Photo
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Therapeutic Radiology
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Assistant Professor of Therapeutic Radiology
Biography
Dr. Susan Gueble is a physician-scientist and Assistant Professor of Therapeutic Radiology. She received her MD and PhD degrees as part of the medical scientist training program (MSTP) at Yale School of Medicine and completed her residency in radiation oncology at Yale-New Haven Hospital. Her clinical focus is in caring for patients with gynecologic, prostate, or genitourinary malignancies using radiation treatment. Her primary clinical practice is in Trumbull, CT. Her research focuses on the mechanisms of novel DNA modifying agents and DNA damage response pathways, with the goal of translating her findings into therapeutic strategies for the treatment of cancer.
Appointments
Therapeutic Radiology
Assistant ProfessorPrimary
Other Departments & Organizations
Education & Training
- Resident
- Yale New Haven Hospital (2023)
- Chief Resident
- Yale-New Haven Hospital (2023)
- Intern
- Saint Mary's Hospital (2019)
- MD
- Yale School of Medicine (2018)
- PhD
- Yale University, Experimental Pathology (2018)
- BS
- Yale University, Physics, Molecular Biophysics & Biochemistry (2010)
Research
Overview
Medical Subject Headings (MeSH)
Alkylating Agents; Antineoplastic Agents; Biomarkers; DNA Damage; DNA Repair; Gastrointestinal Neoplasms; Melanoma; Molecular Targeted Therapy; Radiation Oncology
ORCID
0000-0002-8043-1147
Research at a Glance
Yale Co-Authors
Frequent collaborators of Susan Gueble's published research.
Publications Timeline
A big-picture view of Susan Gueble's research output by year.
Research Interests
Research topics Susan Gueble is interested in exploring.
Peter M. Glazer, MD, PhD
Kingson Lin, MD/PhD
Ranjit S. Bindra, MD, PhD
Anna Marie Pyle, PhD
Demetrios Braddock, MD, PhD
Gregory A Breuer, MD/PhD
15Publications
992Citations
DNA Repair
DNA Damage
Biomarkers
Alkylating Agents
Publications
Featured Publications
Mechanism-based design of agents that selectively target drug-resistant glioma
Lin K, Gueble SE, Sundaram RK, Huseman ED, Bindra RS, Herzon SB. Mechanism-based design of agents that selectively target drug-resistant glioma. Science 2022, 377: 502-511. PMID: 35901163, PMCID: PMC9502022, DOI: 10.1126/science.abn7570.Peer-Reviewed Original ResearchCitationsAltmetric
2024
Mechanism of Action of KL-50, a Candidate Imidazotetrazine for the Treatment of Drug-Resistant Brain Cancers
Huseman E, Lo A, Fedorova O, Elia J, Gueble S, Lin K, Sundaram R, Oh J, Liu J, Menges F, Rees M, Ronan M, Roth J, Batista V, Crawford J, Pyle A, Bindra R, Herzon S. Mechanism of Action of KL-50, a Candidate Imidazotetrazine for the Treatment of Drug-Resistant Brain Cancers. Journal Of The American Chemical Society 2024, 146: 18241-18252. PMID: 38815248, PMCID: PMC11409917, DOI: 10.1021/jacs.3c06483.Peer-Reviewed Original ResearchAltmetricConceptsDNA repair capacityDifferential DNA repair capacityDNA interstrand cross-linksRepair capacityInterstrand cross-linksDisplacement of fluorideDNA repairCross-linkingAberrant DNA repairLesionsHealthy tissueBrain cancerRing openingHealthy cellsMGMTSelective chemotherapyGenotoxic agentsTumorChemical DNA modificationsCancerMultistep processRepair
2022
The Role of PARP Inhibitors in Patients with Primary Malignant Central Nervous System Tumors
Gueble SE, Vasquez JC, Bindra RS. The Role of PARP Inhibitors in Patients with Primary Malignant Central Nervous System Tumors. Current Treatment Options In Oncology 2022, 23: 1566-1589. PMID: 36242713, DOI: 10.1007/s11864-022-01024-5.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsCitationsMeSH Keywords and ConceptsConceptsHomologous recombination deficiencyPrimary CNS tumorsCNS tumorsClinical trialsPARP inhibitorsPreclinical evidencePrimary malignant central nervous system tumorMalignant central nervous system tumorsCentral nervous system tumorsImmune checkpoint inhibitorsStandard treatment modalityInitial clinical trialsEarly phase trialsNervous system tumorsCentral nervous tumorsExtracranial cancerCheckpoint inhibitorsDevastating malignancyStandard therapyOngoing trialsCombination therapyTreatment optionsTreatment modalitiesSystem tumorsPhase trialsOncometabolites as Regulators of DNA Damage Response and Repair
Gueble SE, Bindra RS. Oncometabolites as Regulators of DNA Damage Response and Repair. Seminars In Radiation Oncology 2022, 32: 82-94. PMID: 34861999, DOI: 10.1016/j.semradonc.2021.09.004.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsCitationsAltmetricMeSH Keywords and ConceptsConceptsDNA damage responseDamage responseDDR defectsMultiple DNA repair pathwaysSynthetic lethal interactionsDNA repair pathwaysRepair pathwaysLethal interactionsDiverse mechanismsOncometaboliteCancer therapyCertain cancersNew mechanismTherapeutic strategiesSmall intermediatesBiologyRegulatorPathwayMechanismRepairDDRMetabolismDysregulationDefectsResponse
2019
Cediranib suppresses homology-directed DNA repair through down-regulation of BRCA1/2 and RAD51
Kaplan AR, Gueble SE, Liu Y, Oeck S, Kim H, Yun Z, Glazer PM. Cediranib suppresses homology-directed DNA repair through down-regulation of BRCA1/2 and RAD51. Science Translational Medicine 2019, 11 PMID: 31092693, PMCID: PMC6626544, DOI: 10.1126/scitranslmed.aav4508.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsMeSH KeywordsAnimalsBRCA1 ProteinBRCA2 ProteinCell Line, TumorDNA RepairDown-RegulationE2F4 Transcription FactorFemaleGene Expression Regulation, NeoplasticHumansMice, NudePoly(ADP-ribose) Polymerase InhibitorsQuinazolinesRad51 RecombinaseReceptors, Platelet-Derived Growth FactorTumor HypoxiaVascular Endothelial Growth Factor Receptor-2Xenograft Model Antitumor AssaysConceptsHomology-directed DNA repairDNA repairE2F transcription factor 4Protein phosphatase 2ATranscription factor 4DNA repair inhibitorsPhosphatase 2ARAD51 recombinaseTranscriptional corepressorMouse tumor xenograftsSynthetic lethalityGene expressionRB2/Mouse bone marrowGrowth factor receptor inhibitionRepair inhibitorsUnknown mechanismPlatelet-derived growth factor receptor inhibitionFactor 4Human tumorsInhibitor olaparibPARP inhibitorsMutationsCombination of cediranibCancer therapy
2018
PTEN Regulates Non-Homologous End Joining by Epigenetic Induction of NHEJ1/XLF
Sulkowski PL, Scanlon SE, Oeck S, Glazer PM. PTEN Regulates Non-Homologous End Joining by Epigenetic Induction of NHEJ1/XLF. Molecular Cancer Research 2018, 16: molcanres.0581.2017. PMID: 29739874, PMCID: PMC6072556, DOI: 10.1158/1541-7786.mcr-17-0581.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsDNA double-strand breaksKey DNA repair pathwaysCytotoxic DNA lesionsXRCC4-like factorPatient-derived melanomasDNA repair pathwaysDouble-strand breaksNovel regulatory roleTumor suppressor geneSuppression of PTENHistone acetyltransferasesDSB repairGenomic analysisNHEJ defectsNonhomologous endRepair pathwaysGene promoterNovel functionRegulatory acetylationNHEJ deficiencyDNA lesionsRegulatory roleSuppressor geneNHEJ DSB repairNHEJ
2017
Suppression of homology-dependent DNA double-strand break repair induces PARP inhibitor sensitivity in VHL-deficient human renal cell carcinoma
Scanlon SE, Hegan DC, Sulkowski PL, Glazer PM. Suppression of homology-dependent DNA double-strand break repair induces PARP inhibitor sensitivity in VHL-deficient human renal cell carcinoma. Oncotarget 2017, 9: 4647-4660. PMID: 29435132, PMCID: PMC5797003, DOI: 10.18632/oncotarget.23470.Peer-Reviewed Original ResearchCitationsAltmetricConceptsDouble-strand break repairDNA double-strand break repairBreak repairHomologous recombinationHomology-dependent DNA double-strand break repairGene expressionHuman clear cell renal carcinomaHuman renal cell carcinomaVon Hippel-Lindau (VHL) tumor suppressor geneDNA double-strand breaksDNA repair gene expressionHr gene expressionRadiation-induced DNA double-strand breaksImpaired DNA double-strand break repairPro-growth stateDouble-strand breaksDNA repair genesRepair gene expressionDNA repair defectsTumor suppressor genePARP inhibitor sensitivityRenal cancer cellsTranscriptional reprogrammingGene repressionRenal carcinoma samplesAnti-tumor Activity of miniPEG-γ-Modified PNAs to Inhibit MicroRNA-210 for Cancer Therapy
Gupta A, Quijano E, Liu Y, Bahal R, Scanlon SE, Song E, Hsieh WC, Braddock DE, Ly DH, Saltzman WM, Glazer PM. Anti-tumor Activity of miniPEG-γ-Modified PNAs to Inhibit MicroRNA-210 for Cancer Therapy. Molecular Therapy - Nucleic Acids 2017, 9: 111-119. PMID: 29246289, PMCID: PMC5633812, DOI: 10.1016/j.omtn.2017.09.001.Peer-Reviewed Original ResearchCitationsAltmetricConceptsMiR-210Human tumor xenograftsAnti-tumor activityHistopathological analysisTherapeutic approachesMicroRNA-210Tumor xenograftsOncogenic miRTumor cellsHypoxic cellsAnticancer therapyHuman cancersCell proliferationCancer therapyConsiderable necrosisSignificant delayTherapyOncogenic microRNAsInhibition strategiesCellsMicroRNAsFibrosisXenograftsNecrosisTumorsNickel induces transcriptional down-regulation of DNA repair pathways in tumorigenic and non-tumorigenic lung cells
Scanlon SE, Scanlon CD, Hegan DC, Sulkowski PL, Glazer PM. Nickel induces transcriptional down-regulation of DNA repair pathways in tumorigenic and non-tumorigenic lung cells. Carcinogenesis 2017, 38: 627-637. PMID: 28472268, PMCID: PMC5862357, DOI: 10.1093/carcin/bgx038.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsHomology-dependent DNA double-strand break repairDNA repair pathwaysRepair pathwaysHigh-fidelity DNA repair pathwayDNA double-strand break repairMismatch repairDouble-strand break repairDNA double-strand breaksGlobal transcriptional patternsDNA repair proteinsRadiation-induced DNA double-strand breaksDouble-strand breaksTranscriptional repressionDirect DNA damageHost-cell reactivation assayEpigenetic remodelingTranscriptional patternsTranscriptional changesBreak repairDNA mutagenesisGenomic instabilityRepair proteinsHeavy metals nickelLung cellsTumor growth2-Hydroxyglutarate produced by neomorphic IDH mutations suppresses homologous recombination and induces PARP inhibitor sensitivity
Sulkowski PL, Corso CD, Robinson ND, Scanlon SE, Purshouse KR, Bai H, Liu Y, Sundaram RK, Hegan DC, Fons NR, Breuer GA, Song Y, Mishra-Gorur K, De Feyter HM, de Graaf RA, Surovtseva YV, Kachman M, Halene S, Günel M, Glazer PM, Bindra RS. 2-Hydroxyglutarate produced by neomorphic IDH mutations suppresses homologous recombination and induces PARP inhibitor sensitivity. Science Translational Medicine 2017, 9 PMID: 28148839, PMCID: PMC5435119, DOI: 10.1126/scitranslmed.aal2463.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsIsocitrate dehydrogenase 1PARP inhibitor sensitivityPossible therapeutic strategiesHomologous recombination defectsTherapeutic strategiesTumor xenograftsInhibitor sensitivityPathologic processesSmall molecule inhibitorsIDH1/2 mutationsTumor progressionIDH2 mutationsMutant IDHPolymerase inhibitorsGlioma cellsTumor cellsHR deficiencyPARP inhibitionIDH mutationsInhibitory effectDehydrogenase 1Neomorphic activityMutant IDH1 enzymeDependent dioxygenasesMutant cells
Academic Achievements & Community Involvement
activity American Society for Radiation Oncology
Professional OrganizationsMemberDetails2019 - Presentactivity American Brachytherapy Society
Professional OrganizationsMemberDetails2023 - Presentactivity Radiation Research Society
Professional OrganizationsMemberDetails2023 - Presenthonor NIH Director's Early Independence Award
National AwardNational Institutes of HealthDetails09/20/2023United Stateshonor Spector Family Fund for Clinical Research and Investigation Award
Yale School of Medicine AwardYale Physician Scientist Development Award (YPSDA) and Yale Center for Clinical Investigation (YCCI) Scholars ProgramDetails07/01/2023
Clinical Care
Overview
Clinical Specialties
Gynecologic Radiotherapy; Prostate & Genitourinary Radiotherapy
Fact Sheets
Metastatic Cancer
Learn More on Yale MedicineCervical Dysplasia
Learn More on Yale MedicineBone Cancer
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Yale Therapeutic Radiology
Academic Office
Hunter Building
15 York Street, Ste 313C
New Haven, CT 06510
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