2020
Discernment between candidate mechanisms for KRAS G13D colorectal cancer sensitivity to EGFR inhibitors
McFall T, Schomburg N, Rossman K, Stites E. Discernment between candidate mechanisms for KRAS G13D colorectal cancer sensitivity to EGFR inhibitors. Cell Communication And Signaling 2020, 18: 179. PMID: 33153459, PMCID: PMC7643456, DOI: 10.1186/s12964-020-00645-3.Peer-Reviewed Original ResearchConceptsKRAS mutationsKRAS G13DEGFR inhibitorsColorectal cancerSensitivity to EGFR inhibitorsRas-GTP levelsSensitivity to cetuximabClinical trial evidenceWild-type RasGTPase activityKRAS G13D mutationBind NF1Tumor suppressor NF1EGFR inhibitionG13D mutationKRASCetuximabBiophysical studiesTrial evidenceG13DWild-typeNF1MutationsCellular modelEGFR
2019
A systems mechanism for KRAS mutant allele–specific responses to targeted therapy
McFall T, Diedrich J, Mengistu M, Littlechild S, Paskvan K, Sisk-Hackworth L, Moresco J, Shaw A, Stites E. A systems mechanism for KRAS mutant allele–specific responses to targeted therapy. Science Signaling 2019, 12 PMID: 31551296, PMCID: PMC6864030, DOI: 10.1126/scisignal.aaw8288.Peer-Reviewed Original ResearchConceptsEpidermal growth factor receptorWild-type Ras activationColorectal cancerSensitivity to EGFR inhibitionEpidermal growth factor receptor inhibitionKRAS mutantEGFR-independent mannerAllele-specific responsesRas activationGrowth factor receptorTumor suppressor neurofibrominPatient tumorsAntibody cetuximabTargeted therapyMechanisms of EGFR signalingCRC patientsEGFR inhibitionCancer treatment decisionsRAS mutationsFactor receptorKRASTherapeutic strategiesTreatment decisionsEGFR signalingPatients