2022
732MO The combination of ICT01, a γ9δ2 T cell-activating mAb, plus pembrolizumab induces a broad antitumor immune response and disease control in patients with CPI-failure melanoma, NSCLC and bladder cancer: EVICTION trial
Champiat S, Wermke M, Vicier C, de Bono J, Jungels C, Vey N, Kotecki N, Wetzko K, Ruhnke L, Garralda E, de Aguiar V, Lorusso P, de Gassart A, Valentin E, Brune P, Iche M, Leparquier C, Olive D, Marabelle A, Frohna P. 732MO The combination of ICT01, a γ9δ2 T cell-activating mAb, plus pembrolizumab induces a broad antitumor immune response and disease control in patients with CPI-failure melanoma, NSCLC and bladder cancer: EVICTION trial. Annals Of Oncology 2022, 33: s877-s878. DOI: 10.1016/j.annonc.2022.07.858.Peer-Reviewed Original Research
2020
A phase I study of ALX148, a CD47 blocker, in combination with standard anticancer antibodies and chemotherapy regimens in patients with advanced malignancy.
Chow L, Gainor J, Lakhani N, Lee K, Chung H, Lee J, LoRusso P, Bang Y, Hodi F, Santana-Davila R, Fanning P, Squifflet P, Jin F, Wan H, Kuo T, Pons J, Randolph S, Messersmith W. A phase I study of ALX148, a CD47 blocker, in combination with standard anticancer antibodies and chemotherapy regimens in patients with advanced malignancy. Journal Of Clinical Oncology 2020, 38: 3056-3056. DOI: 10.1200/jco.2020.38.15_suppl.3056.Peer-Reviewed Original ResearchAdverse eventsCheckpoint inhibitorsData cutoffAdvanced malignanciesImmune responseNeck squamous cell cancerCommon being fatigueSquamous cell cancerStandard chemotherapy regimensAdaptive immune responsesHost immune responseAnti-cancer antibodiesCombination cohortAdvanced diseaseChemotherapy regimensGastroesophageal cancerStandard chemotherapyCell cancerPlatinum therapyExcellent tolerabilityHistoric controlsPharmacodynamic markersImmune cellsClinical activityTumor biopsiesTrial in progress: A phase II open-label, randomized study of PARP inhibition (olaparib) either alone or in combination with anti-PD-L1 therapy (atezolizumab) in homologous DNA repair (HDR) deficient, locally advanced or metastatic non-HER2-positive breast cancer.
LoRusso P, Pilat M, Santa-Maria C, Connolly R, Roesch E, Afghahi A, Han H, Nanda R, Wulf G, Assad H, Park H, Dees E, Force J, Noonan A, Brufsky A, Abramson V, Haley B, Buys S, Sharon E, Schalper K. Trial in progress: A phase II open-label, randomized study of PARP inhibition (olaparib) either alone or in combination with anti-PD-L1 therapy (atezolizumab) in homologous DNA repair (HDR) deficient, locally advanced or metastatic non-HER2-positive breast cancer. Journal Of Clinical Oncology 2020, 38: tps1102-tps1102. DOI: 10.1200/jco.2020.38.15_suppl.tps1102.Peer-Reviewed Original ResearchPositive breast cancerPo bidPARP inhibitionBreast cancerImmune responseOpen-label phase II clinical trialAdaptive anti-tumor immune responsesAnti-tumor immune responsePhase II clinical trialMarked lymphocyte infiltrationPD-1 blockadePD-L1 expressionPre-treatment biopsiesProgression-free survivalAntitumor immune responseImmune checkpoint blockadeMajority of patientsBRCA 1/2 mutationsTumor immune contextureBiopsy time pointsHomologous DNA repairPARP inhibitor olaparibMonotherapy armCombination armImmune contexture
2019
A phase I study of ALX148, a CD47 blocker, in combination with established anticancer antibodies in patients with advanced malignancy.
Chow L, Gainor J, Lakhani N, Chung H, Lee K, Lee J, LoRusso P, Bang Y, Hodi F, Fanning P, Zhao Y, Jin F, Wan H, Pons J, Randolph S, Messersmith W. A phase I study of ALX148, a CD47 blocker, in combination with established anticancer antibodies in patients with advanced malignancy. Journal Of Clinical Oncology 2019, 37: 2514-2514. DOI: 10.1200/jco.2019.37.15_suppl.2514.Peer-Reviewed Original ResearchCheckpoint inhibitorsImmune responseNon-small cell lung cancerPK/PD characteristicsNeck squamous cell carcinomaGastroesophageal junction cancerCell lung cancerSquamous cell carcinomaHost immune responseData cutoffAdvanced malignanciesAdverse eventsJunction cancerObjective responseRefractory diseaseTumor histologyExcellent tolerabilityCell carcinomaPharmacodynamic markersLung cancerImmune cellsAnticancer antibodiesAST increasePatientsALT increase
2016
Antibody–Drug Conjugates (ADCs) in Clinical Development
McLaughlin J, LoRusso P. Antibody–Drug Conjugates (ADCs) in Clinical Development. 2016, 321-344. DOI: 10.1002/9781119060727.ch13.Peer-Reviewed Original ResearchAntibody-drug conjugatesCytotoxic agentsMonoclonal antibodiesLocal immune responseFavorable safety profileConventional cytotoxic chemotherapyConventional cytotoxic agentsDifferent antibody–drug conjugatesImmune-stimulating agentsAnti-neoplastic agentsCytotoxic chemotherapySafety profileCancer patientsIL-2Clinical trialsImmune responseClinical developmentOncologist's abilityImproved efficacyPhase IDrug conjugatesAntibodiesEfficacyTarget effectsToxicity