2020
Defining tumor resistance to PD-1 pathway blockade: recommendations from the first meeting of the SITC Immunotherapy Resistance Taskforce
Kluger HM, Tawbi HA, Ascierto ML, Bowden M, Callahan MK, Cha E, Chen HX, Drake CG, Feltquate DM, Ferris RL, Gulley JL, Gupta S, Humphrey RW, LaVallee TM, Le DT, Hubbard-Lucey VM, Papadimitrakopoulou VA, Postow MA, Rubin EH, Sharon E, Taube JM, Topalian SL, Zappasodi R, Sznol M, Sullivan RJ. Defining tumor resistance to PD-1 pathway blockade: recommendations from the first meeting of the SITC Immunotherapy Resistance Taskforce. Journal For ImmunoTherapy Of Cancer 2020, 8: e000398. PMID: 32238470, PMCID: PMC7174063, DOI: 10.1136/jitc-2019-000398.Peer-Reviewed Original ResearchConceptsCancer immunotherapyClinical definitionNew agentsPD-1/PD-L1 blockadePD-1 pathway blockadeConsensus clinical definitionPD-L1 blockadeDeath receptor-1Immunotherapy of cancerStandard of careClinical trial designTreatment discontinuationMechanisms of resistancePathway blockadeClinical trialsConfirmatory scanPrimary resistancePatient benefitSecondary resistanceTrial designTreatment approachesUnmet needReceptor 1Tumor resistancePattern of response
2018
Fibrinogen-like Protein 1 Is a Major Immune Inhibitory Ligand of LAG-3
Wang J, Sanmamed MF, Datar I, Su TT, Ji L, Sun J, Chen L, Chen Y, Zhu G, Yin W, Zheng L, Zhou T, Badri T, Yao S, Zhu S, Boto A, Sznol M, Melero I, Vignali DAA, Schalper K, Chen L. Fibrinogen-like Protein 1 Is a Major Immune Inhibitory Ligand of LAG-3. Cell 2018, 176: 334-347.e12. PMID: 30580966, PMCID: PMC6365968, DOI: 10.1016/j.cell.2018.11.010.Peer-Reviewed Original ResearchConceptsFibrinogen-like protein 1MHC-IILAG-3Major histocompatibility complex class IILymphocyte activation gene-3Histocompatibility complex class IILiver-secreted proteinsImmune inhibitory receptorsProtein 1Immune evasion mechanismsCell immunityTumor immunityPoor prognosisCancer immunotherapyCancer patientsInhibitory receptorsEvasion mechanismsHuman cancer cellsCell activationClass IIMouse tumorsMonoclonal antibodiesCancer cellsInhibitory ligandsInhibitory function
2017
Workshop on challenges, insights, and future directions for mouse and humanized models in cancer immunology and immunotherapy: a report from the associated programs of the 2016 annual meeting for the Society for Immunotherapy of cancer
Zloza A, Karolina Palucka A, Coussens LM, Gotwals PJ, Headley MB, Jaffee EM, Lund AW, Sharpe AH, Sznol M, Wainwright DA, Wong KK, Bosenberg MW. Workshop on challenges, insights, and future directions for mouse and humanized models in cancer immunology and immunotherapy: a report from the associated programs of the 2016 annual meeting for the Society for Immunotherapy of cancer. Journal For ImmunoTherapy Of Cancer 2017, 5: 77. PMID: 28923102, PMCID: PMC5604351, DOI: 10.1186/s40425-017-0278-6.Peer-Reviewed Original ResearchConceptsImmunotherapy of cancerCancer immunologyHumanized modelImmunotherapy researchImmune-targeted therapiesAntitumor immune responseCancer immunotherapy researchCancer immunotherapyImmune responseMurine modelMouse modelImmunotherapyPredictive valueSubsequent panel discussionNational HarborAnnual MeetingImmunologyDrug developmentCancerMiceFuture directionsImmunocompetentTherapyCancer modeling
2011
Blockade of the B7-H1/PD-1 pathway for cancer immunotherapy.
Flies DB, Sandler BJ, Sznol M, Chen L. Blockade of the B7-H1/PD-1 pathway for cancer immunotherapy. The Yale Journal Of Biology And Medicine 2011, 84: 409-21. PMID: 22180678, PMCID: PMC3238327.Peer-Reviewed Original ResearchConceptsB7-H1/PDTumor-associated antigensImmune responseCancer immunotherapyMolecular pathwaysCancer-specific immune responsesImmune-mediated destructionSpecific immune responseCancer immunotherapy researchAnti-cancer effectsCoinhibitory functionImmunotherapeutic modalitiesCoinhibitory moleculesClinical evidenceImmunotherapy researchMalignant diseaseNew immunotherapeuticsImmune cellsImmune functionStromal cellsCancerMonoclonal antibodiesCancer cellsImmunotherapyCurrent knowledge