2024
PTMoreR-enabled cross-species PTM mapping and comparative phosphoproteomics across mammals
Wang S, Di Y, Yang Y, Salovska B, Li W, Hu L, Yin J, Shao W, Zhou D, Cheng J, Liu D, Yang H, Liu Y. PTMoreR-enabled cross-species PTM mapping and comparative phosphoproteomics across mammals. Cell Reports Methods 2024, 4: 100859. PMID: 39255793, PMCID: PMC11440062, DOI: 10.1016/j.crmeth.2024.100859.Peer-Reviewed Original ResearchConceptsP-siteSurrounding amino acid sequenceKinase-substrate networkQuantitative phosphoproteomic analysisFunctional enrichment analysisPhosphoproteomic resultsKinase motifsComparative phosphoproteomicsPTM sitesPhosphorylation eventsPhosphoproteomic analysisProteomic analysisEnrichment analysisMammalian speciesSpeciesEvolutionary anglePhosphoproteomeMotifEnvironmental factorsNon-human speciesPTMProteomicsKinaseMammalsProteinThe CUL5 E3 ligase complex negatively regulates central signaling pathways in CD8+ T cells
Liao X, Li W, Zhou H, Rajendran B, Li A, Ren J, Luan Y, Calderwood D, Turk B, Tang W, Liu Y, Wu D. The CUL5 E3 ligase complex negatively regulates central signaling pathways in CD8+ T cells. Nature Communications 2024, 15: 603. PMID: 38242867, PMCID: PMC10798966, DOI: 10.1038/s41467-024-44885-0.Peer-Reviewed Original ResearchConceptsCD8+ T cellsT cellsCancer immunotherapyMouse CD8+ T cellsAnti-tumor immunityTumor growth inhibition abilityAnti-tumor effectsInhibition of neddylationCD8Effector functionsTCR stimulationIL2 signalingCentral signaling pathwaysCore signaling pathwaysEffector activityNegative regulatory mechanismsTranslational implicationsImmunotherapyGrowth inhibition abilityCytokine signalingTCRProteomic alterationsSignaling pathwayCancerCRISPR-based screens
2023
Calponin 2 regulates ketogenesis to mitigate acute kidney injury
Gui Y, Palanza Z, Gupta P, Li H, Pan Y, Wang Y, Hargis G, Kreutzer D, Wang Y, Bastacky S, Liu Y, Liu S, Zhou D. Calponin 2 regulates ketogenesis to mitigate acute kidney injury. JCI Insight 2023, 8: e170521. PMID: 37751293, PMCID: PMC10721266, DOI: 10.1172/jci.insight.170521.Peer-Reviewed Original ResearchConceptsAcute kidney injuryEstrogen receptor 2Fatty acid oxidationKidney injuryKidney fibrosisCalponin 2Ketone body β-hydroxybutyrateTubular cell deathBody β-hydroxybutyrateSirtuin 5Endogenous ketogenesisKidney functionReceptor 2Protein posttranslational modificationsRate-limiting enzymeFAO pathwayMitochondrial sirtuin 5Animal kidneysΒ-hydroxybutyrateOrgan performanceCell proliferationSynthase 2FibrosisPosttranslational modificationsInjury
2021
A PKD-MFF signaling axis couples mitochondrial fission to mitotic progression
Pangou E, Bielska O, Guerber L, Schmucker S, Agote-Arán A, Ye T, Liao Y, Puig-Gamez M, Grandgirard E, Kleiss C, Liu Y, Compe E, Zhang Z, Aebersold R, Ricci R, Sumara I. A PKD-MFF signaling axis couples mitochondrial fission to mitotic progression. Cell Reports 2021, 35: 109129. PMID: 34010649, DOI: 10.1016/j.celrep.2021.109129.Peer-Reviewed Original ResearchConceptsMitochondrial fission factorProtein kinase DMitochondrial fissionMitotic progressionMFF-dependent mitochondrial fissionGenome integrityChromosome segregationDynamic organellesKinase DMitochondrial receptorDaughter cellsFission factorMammalian cellsMitotic checkpointCell divisionFusion eventsInterphasic cellsCell survivalProtein 1PhosphorylationMitochondriaCellsFissionDynaminOrganelles
2020
Multi-in-One: Multiple-Proteases, One-Hour-Shot Strategy for Fast and High-Coverage Phosphoproteomic Investigation
Gao X, Li Q, Liu Y, Zeng R. Multi-in-One: Multiple-Proteases, One-Hour-Shot Strategy for Fast and High-Coverage Phosphoproteomic Investigation. Analytical Chemistry 2020, 92: 8943-8951. PMID: 32479063, DOI: 10.1021/acs.analchem.0c00906.Peer-Reviewed Original ResearchGerm‐free and microbiota‐associated mice yield small intestinal epithelial organoids with equivalent and robust transcriptome/proteome expression phenotypes
Hausmann A, Russo G, Grossmann J, Zünd M, Schwank G, Aebersold R, Liu Y, Sellin ME, Hardt W. Germ‐free and microbiota‐associated mice yield small intestinal epithelial organoids with equivalent and robust transcriptome/proteome expression phenotypes. Cellular Microbiology 2020, 22: e13191. PMID: 32068945, PMCID: PMC7317401, DOI: 10.1111/cmi.13191.Peer-Reviewed Original Research
2017
Protein kinase D at the Golgi controls NLRP3 inflammasome activation
Zhang Z, Meszaros G, He WT, Xu Y, de Fatima Magliarelli H, Mailly L, Mihlan M, Liu Y, Gámez M, Goginashvili A, Pasquier A, Bielska O, Neven B, Quartier P, Aebersold R, Baumert TF, Georgel P, Han J, Ricci R. Protein kinase D at the Golgi controls NLRP3 inflammasome activation. Journal Of Experimental Medicine 2017, 214: 2671-2693. PMID: 28716882, PMCID: PMC5584123, DOI: 10.1084/jem.20162040.Peer-Reviewed Original Research
2010
Proteomic mining in the dysplastic liver of WHV/c‐myc mice – insights and indicators for early hepatocarcinogenesis
Liu Y, Li C, Xing Z, Yuan X, Wu Y, Xu M, Tu K, Li Q, Wu C, Zhao M, Zeng R. Proteomic mining in the dysplastic liver of WHV/c‐myc mice – insights and indicators for early hepatocarcinogenesis. The FEBS Journal 2010, 277: 4039-4053. PMID: 20807235, DOI: 10.1111/j.1742-4658.2010.07795.x.Peer-Reviewed Original ResearchConceptsHepatocellular carcinomaMouse modelFK506-binding protein 4C-myc miceTransgenic mouse modelEarly HCC diagnosisAsymptomatic processC-myc-induced hepatocarcinogenesisDysplastic liversFerritin heavy chainHCC diagnosisTissue microarrayImmunohistochemical analysisStage IIITumor onsetPutative biomarkersSerum samplesWestern blottingEarly detectionControl casesEarly hepatocarcinogenesisProtein 4Cancer initiationProtein expression profilesDysplastic stage