Featured Publications
The Advantages of Targeted Protein Degradation Over Inhibition: An RTK Case Study
Burslem GM, Smith BE, Lai AC, Jaime-Figueroa S, McQuaid DC, Bondeson DP, Toure M, Dong H, Qian Y, Wang J, Crew AP, Hines J, Crews CM. The Advantages of Targeted Protein Degradation Over Inhibition: An RTK Case Study. Cell Chemical Biology 2017, 25: 67-77.e3. PMID: 29129716, PMCID: PMC5831399, DOI: 10.1016/j.chembiol.2017.09.009.Peer-Reviewed Original ResearchConceptsReceptor tyrosine kinasesProtein familyProtein degradationTyrosine kinaseDownstream signaling responseTargeted Protein DegradationDevelopment of PROTACsTargeted degradationEndogenous proteinsSignaling responseChimera technologyCell proliferationPROTACsPROTAC technologyKinaseKinase inhibitorsLigand showAdvantages of degradationReceptor tyrosine kinase inhibitorsTyrosine kinase inhibitorsInhibitionDegradationFamilyPowerful toolProteolysisModular PROTAC Design for the Degradation of Oncogenic BCR‐ABL
Lai AC, Toure M, Hellerschmied D, Salami J, Jaime‐Figueroa S, Ko E, Hines J, Crews CM. Modular PROTAC Design for the Degradation of Oncogenic BCR‐ABL. Angewandte Chemie International Edition 2015, 55: 807-810. PMID: 26593377, PMCID: PMC4733637, DOI: 10.1002/anie.201507634.Peer-Reviewed Original ResearchCatalytic in vivo protein knockdown by small-molecule PROTACs
Bondeson DP, Mares A, Smith IE, Ko E, Campos S, Miah AH, Mulholland KE, Routly N, Buckley DL, Gustafson JL, Zinn N, Grandi P, Shimamura S, Bergamini G, Faelth-Savitski M, Bantscheff M, Cox C, Gordon DA, Willard RR, Flanagan JJ, Casillas LN, Votta BJ, den Besten W, Famm K, Kruidenier L, Carter PS, Harling JD, Churcher I, Crews CM. Catalytic in vivo protein knockdown by small-molecule PROTACs. Nature Chemical Biology 2015, 11: 611-617. PMID: 26075522, PMCID: PMC4629852, DOI: 10.1038/nchembio.1858.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntineoplastic AgentsBinding SitesBiocatalysisBreast NeoplasmsFemaleHumansMCF-7 CellsMiceModels, MolecularMolecular Targeted TherapyNeoplasm ProteinsNeoplasm TransplantationProteasome Endopeptidase ComplexProtein BindingProteolysisReceptor-Interacting Protein Serine-Threonine Kinase 2Receptors, EstrogenSmall Molecule LibrariesUbiquitinUbiquitinationVon Hippel-Lindau Tumor Suppressor Protein
2022
Hijacking Methyl Reader Proteins for Nuclear-Specific Protein Degradation
Nalawansha DA, Li K, Hines J, Crews CM. Hijacking Methyl Reader Proteins for Nuclear-Specific Protein Degradation. Journal Of The American Chemical Society 2022, 144: 5594-5605. PMID: 35311258, PMCID: PMC10331457, DOI: 10.1021/jacs.2c00874.Peer-Reviewed Original ResearchConceptsE3 ligase complexLigase complexProtein degradationReader proteinsMethyl readersE3 ligaseProteasomal degradationPROTAC designProtein levelsProteinLigand pairsDrug discovery paradigmPROTACsNatural mechanismGeneralizable approachComplexesDiscovery paradigmCUL4BRD2DegradationLigaseL3MBTL3FKBP12Biological evaluationPromising strategy
2021
Modulation of Phosphoprotein Activity by Phosphorylation Targeting Chimeras (PhosTACs)
Chen PH, Hu Z, An E, Okeke I, Zheng S, Luo X, Gong A, Jaime-Figueroa S, Crews CM. Modulation of Phosphoprotein Activity by Phosphorylation Targeting Chimeras (PhosTACs). ACS Chemical Biology 2021, 16: 2808-2815. PMID: 34780684, PMCID: PMC10437008, DOI: 10.1021/acschembio.1c00693.Peer-Reviewed Original ResearchConceptsSer/Thr phosphataseChemical biology approachPP2A holoenzymeProtein dephosphorylationBiology approachProtein substratesTranscriptional activationProtein phosphorylationCatalytic subunitCell biologyReporter geneProtein activityRetinoblastoma proteinOff-target effectsCritical proteinsDephosphorylationTernary complexPhosphorylationKinase inhibitorsFOXO3aPROTACsProteinChimerasPhosphataseDrug resistanceProteolysis targeting chimeras (PROTACs) come of age: entering the third decade of targeted protein degradation
Bond MJ, Crews CM. Proteolysis targeting chimeras (PROTACs) come of age: entering the third decade of targeted protein degradation. RSC Chemical Biology 2021, 2: 725-742. PMID: 34212149, PMCID: PMC8190915, DOI: 10.1039/d1cb00011j.Peer-Reviewed Original ResearchMajor advances in targeted protein degradation: PROTACs, LYTACs, and MADTACs
Alabi SB, Crews C. Major advances in targeted protein degradation: PROTACs, LYTACs, and MADTACs. Journal Of Biological Chemistry 2021, 296: 100647. PMID: 33839157, PMCID: PMC8131913, DOI: 10.1016/j.jbc.2021.100647.Peer-Reviewed Original ResearchConceptsProtein degradationProtein degradation pathwaysProteolysis targeting chimera (PROTAC) technologyUbiquitin-proteasome systemEndo-lysosomal pathwaySmall molecule inhibitorsDruggable spaceChemical toolsInnovative chemical toolMolecular glueChimera technologyProtein moleculesDegradation pathwayOutstanding questionsCurrent understandingMajor advancesPathwayAutophagyPROTACsDegradationCellsInhibitorsAdvances
2020
Targeted Degradation of Oncogenic KRASG12C by VHL-Recruiting PROTACs
Bond MJ, Chu L, Nalawansha DA, Li K, Crews CM. Targeted Degradation of Oncogenic KRASG12C by VHL-Recruiting PROTACs. ACS Central Science 2020, 6: 1367-1375. PMID: 32875077, PMCID: PMC7453568, DOI: 10.1021/acscentsci.0c00411.Peer-Reviewed Original Research
2015
HaloPROTACS: Use of Small Molecule PROTACs to Induce Degradation of HaloTag Fusion Proteins
Buckley DL, Raina K, Darricarrere N, Hines J, Gustafson JL, Smith IE, Miah AH, Harling JD, Crews CM. HaloPROTACS: Use of Small Molecule PROTACs to Induce Degradation of HaloTag Fusion Proteins. ACS Chemical Biology 2015, 10: 1831-1837. PMID: 26070106, PMCID: PMC4629848, DOI: 10.1021/acschembio.5b00442.Peer-Reviewed Original ResearchConceptsChemical probesMore drug-like propertiesFusion proteinSmall-molecule PROTACsProtein degradationDrug-like propertiesE3 ligase ligandChemical genetic toolsSpecific E3 ligasesProtein of interestVHL ligandsHaloTag fusion proteinsE3 ligasesGenetic toolsHeterobifunctional moleculesNumerous proteinsHaloPROTACLigandsPROTACsProteinNovel classAttractive strategyDegradationProbeLigasesSmall molecule‐induced catalytic ubiquitination of non‐natural substrates
Bondeson D, Pancevac C, Kruidenier L, Carter P, Churcher I, Crews C. Small molecule‐induced catalytic ubiquitination of non‐natural substrates. The FASEB Journal 2015, 29 DOI: 10.1096/fasebj.29.1_supplement.573.43.Peer-Reviewed Original Research