2023
Trial in progress: A phase 1, first-in-human, open-label, multicenter, dose-escalation and dose-expansion study of ASP3082 in patients with previously treated advanced solid tumors and KRAS G12D mutations.
Tolcher A, Park W, Wang J, Spira A, Janne P, Lee H, Gill S, LoRusso P, Herzberg B, Goldman J, Morgensztern D, Berlin J, Kasi A, Fujii H, Pelster M. Trial in progress: A phase 1, first-in-human, open-label, multicenter, dose-escalation and dose-expansion study of ASP3082 in patients with previously treated advanced solid tumors and KRAS G12D mutations. Journal Of Clinical Oncology 2023, 41: tps764-tps764. DOI: 10.1200/jco.2023.41.4_suppl.tps764.Peer-Reviewed Original ResearchKRAS G12DAdverse eventsLung cancerKRAS G12D mutationCancer cellsEastern Cooperative Oncology Group performance statusSolid tumorsNon-small cell lung cancerMetastatic solid tumor malignanciesSolid Tumors version 1.1Dose-escalation cohortsDose-expansion studyPhase 2 doseDisease control rateObjective response rateSerious adverse eventsAdvanced solid tumorsResponse Evaluation CriteriaDose-limiting toxicityPancreatic ductal cancerPhase 1 studyCell lung cancerDuration of responseSolid tumor malignanciesG12D mutationGenome-wide analysis of aberrant position and sequence of plasma DNA fragment ends in patients with cancer
Budhraja K, McDonald B, Stephens M, Contente-Cuomo T, Markus H, Farooq M, Favaro P, Connor S, Byron S, Egan J, Ernst B, McDaniel T, Sekulic A, Tran N, Prados M, Borad M, Berens M, Pockaj B, LoRusso P, Bryce A, Trent J, Murtaza M. Genome-wide analysis of aberrant position and sequence of plasma DNA fragment ends in patients with cancer. Science Translational Medicine 2023, 15: eabm6863. PMID: 36630480, PMCID: PMC10080578, DOI: 10.1126/scitranslmed.abm6863.Peer-Reviewed Original ResearchConceptsGenome-wide analysisNucleotide frequenciesDNA fragmentsGenome-wide differencesFragment endsNovel cancer diagnosticsCopy number amplificationChromatin accessibilityGenomic regionsGenomic positionsGC contentDNA sequencesSequencing dataDifferent cancer typesNumber amplificationCell typesCellular originSomatic mutationsCancer cellsFragment lengthCell-free DNADNACancer typesFragmentsSequence
2021
866 RBN-2397, a novel, potent, and selective PARP7 inhibitor, induces tumor-intrinsic type I interferon responses and adaptive immunity in preclinical models and patient tumors
Kuplast-Barr K, Kuplast-Barr K, Johnson M, Patel M, Yap T, Falchook G, LoRusso P, Abo R, Liu C, Manyak E, Cleary L, Bozon V, Parasuraman S, Keilhack H, McEachern K. 866 RBN-2397, a novel, potent, and selective PARP7 inhibitor, induces tumor-intrinsic type I interferon responses and adaptive immunity in preclinical models and patient tumors. Journal For ImmunoTherapy Of Cancer 2021, 9: a907-a907. DOI: 10.1136/jitc-2021-sitc2021.866.Peer-Reviewed Original ResearchPreclinical modelsPatient tumor biopsiesTumor biopsiesAdaptive immunityCancer cellsHuman phase 1 studyTumor-specific immune memoryCD8 T cell infiltrationTumor microenvironmentPhase I clinical studyType IAdvanced solid tumorsPhase 1 studyT cell infiltrationGranzyme B expressionDurable tumor regressionAdaptive immune responsesInterferon-stimulated gene expressionImmune stimulatory effectsType I interferon responseCytosolic nucleic acidsType I interferonActivated T cellsNon-tumor tissuesI interferon response