Ultra-sensitive molecular residual disease detection through whole genome sequencing with single-read error correction
Li X, Liu T, Bacchiocchi A, Li M, Cheng W, Wittkop T, Mendez F, Wang Y, Tang P, Yao Q, Bosenberg M, Sznol M, Yan Q, Faham M, Weng L, Halaban R, Jin H, Hu Z. Ultra-sensitive molecular residual disease detection through whole genome sequencing with single-read error correction. EMBO Molecular Medicine 2024, 16: 2188-2209. PMID: 39164471, PMCID: PMC11393307, DOI: 10.1038/s44321-024-00115-0.Peer-Reviewed Original ResearchMolecular residual diseaseCirculating tumor DNAWhole-genome sequencingCell-free DNAGenome sequenceDetection of molecular residual diseaseCirculating tumor DNA detectionResidual disease detectionConsistent with clinical outcomesVariant allele frequencyResidual diseaseMelanoma patientsMonitoring immunotherapyTumor DNAEsophageal cancerClinical outcomesColorectal cancerWGS technologiesAllele frequenciesCancerDNAAnalytical sensitivitySequenceImmunotherapyRelapseCombined BET and MEK Inhibition synergistically suppresses melanoma by targeting YAP1
Hu R, Hou H, Li Y, Zhang M, Li X, Chen Y, Guo Y, Sun H, Zhao S, Liao M, Cao D, Yan Q, Chen X, Yin M. Combined BET and MEK Inhibition synergistically suppresses melanoma by targeting YAP1. Theranostics 2024, 14: 593-607. PMID: 38169595, PMCID: PMC10758063, DOI: 10.7150/thno.85437.Peer-Reviewed Original ResearchConceptsMEK inhibitor resistanceMEK inhibitor trametinibTrametinib treatmentInhibitor resistanceInhibitor trametinibMelanoma patientsYAP1 expressionMEK inhibitionBRAF-mutant melanoma patientsResistance to MEK inhibitionYAP1 inhibitionResistance to trametinibMelanoma growth <i>inInhibition of BRD4Trametinib resistanceAntitumor effectMelanoma growthTrametinibNHWD-870YAP1 inhibitorDrug resistanceMelanomaMelanoma samplesMelanoma cellsBRD4 depletion