2019
Unlocking PARP inhibitor efficacy for HRD-negative cancers using the alphalex tumor targeting platform inhibitor efficacy for HRD-negative cancers using the alphalex tumor targeting platform.
Bindra R, Sundaram R, Aiello R, Marshall D, Bourassa P, Csengery J, Zhang Q, Robinson B, lopresti-Morrow L, Bechtold J, Tylaska L, Paradis T, Paralkar V, Hellsund P, Glazer P. Unlocking PARP inhibitor efficacy for HRD-negative cancers using the alphalex tumor targeting platform inhibitor efficacy for HRD-negative cancers using the alphalex tumor targeting platform. Journal Of Clinical Oncology 2019, 37: e14664-e14664. DOI: 10.1200/jco.2019.37.15_suppl.e14664.Peer-Reviewed Original ResearchHomologous recombination deficiencyHRD statusAnti-cancer agentsClinical trialsSignificant bone marrow toxicityTumor cellsInhibitor efficacyPhase I clinical trialIND-enabling studiesDose-limiting toxicityBone marrow toxicitySignificant tumor cell killingSmall molecule anti-cancer agentNormal tissue toxicityTumor cell killingTumor-targeting approachesPARP inhibitor efficacyRelevant chemotherapyVivo tumor modelsMarrow toxicityBRCA1/2 mutationsComplete sparingBone marrowSolid tumorsChemotherapy
2017
A cell-penetrating antibody inhibits human RAD51 via direct binding
Turchick A, Hegan DC, Jensen RB, Glazer PM. A cell-penetrating antibody inhibits human RAD51 via direct binding. Nucleic Acids Research 2017, 45: 11782-11799. PMID: 29036688, PMCID: PMC5714174, DOI: 10.1093/nar/gkx871.Peer-Reviewed Original ResearchConceptsHomology-directed repairMolecular basisDirect bindingSynthetic lethal killingPre-clinical developmentBRCA2-deficient cancer cellsCell-penetrating antibodiesAnti-cancer agentsLupus autoantibodiesHuman Rad51DNA repairDNA bindingRAD51N-terminusCancer cellsSilico molecular modelingFunction mutationsCancer therapySpecific inhibitorDNANovel inhibitorsAttractive targetComplementarity-determining regionsMolecular modelingCell penetration