2024
A Phase II Trial of the WEE1 Inhibitor Adavosertib in SETD2-Altered Advanced Solid Tumor Malignancies (NCI 10170)
Maldonado E, Rathmell W, Shapiro G, Takebe N, Rodon J, Mahalingam D, Trikalinos N, Kalebasty A, Parikh M, Boerner S, Balido C, Krings G, Burns T, Bergsland E, Munster P, Ashworth A, LoRusso P, Aggarwal R. A Phase II Trial of the WEE1 Inhibitor Adavosertib in SETD2-Altered Advanced Solid Tumor Malignancies (NCI 10170). Cancer Research Communications 2024, 4: 1793-1801. PMID: 38920407, PMCID: PMC11264598, DOI: 10.1158/2767-9764.crc-24-0213.Peer-Reviewed Original ResearchSolid tumor malignanciesStable diseaseTumor malignancyAdverse eventsDepth of tumor responseLoss of H3K36me3Median duration of treatmentAdvanced solid tumor malignanciesClear cell renal cell carcinomaMinor tumor regressionsProlonged stable diseaseArchival tumor tissuePhase II studyCell renal cell carcinomaPhase II trialRenal cell carcinomaDuration of treatmentArchival tissue samplesSimon's two-stageTumor responseTumor regressionII trialMedian durationII studySETD2 mutationsEfficacy and Safety of the MDM2–p53 Antagonist Brigimadlin (BI 907828) in Patients with Advanced Biliary Tract Cancer: A Case Series
Yamamoto N, Tolcher A, Hafez N, Lugowska I, Ramlau R, Macarulla T, Geng J, Li J, Teufel M, Märten A, LoRusso P. Efficacy and Safety of the MDM2–p53 Antagonist Brigimadlin (BI 907828) in Patients with Advanced Biliary Tract Cancer: A Case Series. OncoTargets And Therapy 2024, 17: 267-280. PMID: 38567193, PMCID: PMC10986405, DOI: 10.2147/ott.s440979.Peer-Reviewed Original ResearchBiliary tract cancerAdvanced biliary tract cancerAdverse eventsDose reduction due to adverse eventsBiliary tract cancer casesChemotherapy plus immunotherapyPhase Ia/Ib trialPD-1 inhibitorsSecond-line optionAnti-tumor activityStable diseasePartial responsePD-1Treatment discontinuationCase seriesSafety profilePatientsImprove outcomesMolecular heterogeneityCancerMDM2-p53DiseaseImmunotherapyDoseEfficacyEfficacy and safety of brigimadlin (BI 907828), an MDM2–p53 antagonist, in patients (pts) with advanced biliary tract cancer: Data from two phase Ia/Ib dose-escalation/expansion trials.
Macarulla T, Yamamoto N, Tolcher A, Hafez N, Lugowska I, Ramlau R, Geng J, Li J, Teufel M, Maerten A, LoRusso P. Efficacy and safety of brigimadlin (BI 907828), an MDM2–p53 antagonist, in patients (pts) with advanced biliary tract cancer: Data from two phase Ia/Ib dose-escalation/expansion trials. Journal Of Clinical Oncology 2024, 42: 487-487. DOI: 10.1200/jco.2024.42.3_suppl.487.Peer-Reviewed Original ResearchBiliary tract cancerTreatment-related AEsAdvanced biliary tract cancerMonotherapy trialsStable diseasePartial responseCombination trialsMouse double minute 2MDM2-p53 antagonistsEscalating dosesSolid tumorsCases of biliary tract cancerTP53 wild-type tumorsAnti-PD-1 antibodyStandard-of-care chemotherapyData cut-offWild-type tumorsAdvanced/metastatic solid tumorsResponding ptsMDM2-p53MDM2 amplified tumorsDouble minute 2MDM2-amplifiedAmpullary adenocarcinomaCell cycle arrest
2023
A Phase I Dose-Escalation Study of LY3405105, a Covalent Inhibitor of Cyclin-Dependent Kinase 7, Administered to Patients With Advanced Solid Tumors
Garralda E, Schram A, Bedard P, Schwartz G, Yuen E, McNeely S, Ribeiro S, Cunningham J, Wang Y, Urunuela A, Xu X, LoRusso P. A Phase I Dose-Escalation Study of LY3405105, a Covalent Inhibitor of Cyclin-Dependent Kinase 7, Administered to Patients With Advanced Solid Tumors. The Oncologist 2023, 29: e131-e140. PMID: 37531083, PMCID: PMC10769797, DOI: 10.1093/oncolo/oyad215.Peer-Reviewed Original ResearchConceptsTreatment-related adverse eventsAdvanced solid tumorsCyclin-dependent kinase 7Adverse eventsSolid tumorsPhase I dose-escalation studyI dose-escalation studyLimited clinical activityGastrointestinal adverse eventsDose-escalation studyDose-limiting toxicityPhase I trialBest overall responsePeak-trough fluctuationKinase 7Common toxicitiesStable diseaseAbdominal painPrimary endpointSecondary endpointsAdult patientsPartial responseComplete responseI trialMedian timeA pilot study of volumetric and density tumor analysis of ACC patients treated with vorinostat in a phase II clinical trial
Malarkey M, Toscano A, Bagheri M, Solomon J, Machado L, LoRusso P, Chen A, Folio L, Goncalves P. A pilot study of volumetric and density tumor analysis of ACC patients treated with vorinostat in a phase II clinical trial. Heliyon 2023, 9: e18680. PMID: 37593628, PMCID: PMC10428039, DOI: 10.1016/j.heliyon.2023.e18680.Peer-Reviewed Original ResearchACC patientsClinical trialsTarget lesionsSolid tumorsPhase II clinical trialPilot studyPhase 2 trialResponse Evaluation CriteriaSalivary gland cancerRare salivary gland cancerSystemic therapy efficacyStable diseaseGland cancerLung lesionsComputed tomography (CT) examsCystic carcinomaTherapy responseBlinded observersTomography examsTherapy efficacyLesionsInter-observer variationPatientsAppropriate evaluationTrialsQuantitative DNA Repair Biomarkers and Immune Profiling for Temozolomide and Olaparib in Metastatic Colorectal Cancer
Cecchini M, Zhang J, Wei W, Sklar J, Lacy J, Zhong M, Kong Y, Zhao H, DiPalermo J, Devine L, Stein S, Kortmansky J, Johung K, Bindra R, LoRusso P, Schalper K. Quantitative DNA Repair Biomarkers and Immune Profiling for Temozolomide and Olaparib in Metastatic Colorectal Cancer. Cancer Research Communications 2023, 3: 1132-1139. PMID: 37387791, PMCID: PMC10305782, DOI: 10.1158/2767-9764.crc-23-0045.Peer-Reviewed Original ResearchConceptsWhole-exome sequencingMGMT protein expressionColorectal cancerStable diseaseQuantitative immunofluorescenceT cellsProtein expressionPromoter hypermethylationLow MGMT protein expressionPARP inhibitorsRadiographic tumor regressionMetastatic colorectal cancerAdvanced colorectal cancerPretreatment tumor biopsiesEffector T cellsTumor-infiltrating lymphocytesMGMT proteinDNA repair biomarkersBaseline CD8Eligible patientsIncreased CD8Methylguanine-DNA methyltransferaseObjective responseProgressive diseaseImmune markersNCI 7977: A Phase I Dose-Escalation Study of Intermittent Oral ABT-888 (Veliparib) Plus Intravenous Irinotecan Administered in Patients with Advanced Solid Tumors
Cecchini M, Walther Z, Wei W, Hafez N, Pilat M, Boerner S, Durecki D, Eder J, Schalper K, Chen A, LoRusso P. NCI 7977: A Phase I Dose-Escalation Study of Intermittent Oral ABT-888 (Veliparib) Plus Intravenous Irinotecan Administered in Patients with Advanced Solid Tumors. Cancer Research Communications 2023, 3: 1113-1117. PMID: 37377610, PMCID: PMC10292219, DOI: 10.1158/2767-9764.crc-22-0485.Peer-Reviewed Original ResearchConceptsDose-limiting toxicityHomologous recombination deficiencyPARP inhibitorsStable diseaseWeekly irinotecanObjective responseDay 1Day 3Solid tumorsPhase I dose-escalation studyTwice daily days 1I dose-escalation studyPhase I clinical trialDaily days 1Dose level 1Doses of veliparibGrade 3 neutropeniaMultiple-dose schedulesProgression-free survivalAdvanced solid tumorsDose-escalation studyEvaluable patientsNonoverlapping toxicitiesDose scheduleSystemic treatmentA phase 1a dose-escalation study of PY159, a monoclonal antibody targeting TREM1 (triggering receptor expressed on myeloid cells 1).
Winer I, Patnaik A, Barve M, Kummar S, Schenk E, LoRusso P, Yeku O, Fu S, Jahchan N, Myers M, Liang L, Deegan D, Jackson L, Li Y, Reyno L, Chamberlain M. A phase 1a dose-escalation study of PY159, a monoclonal antibody targeting TREM1 (triggering receptor expressed on myeloid cells 1). Journal Of Clinical Oncology 2023, 41: 2523-2523. DOI: 10.1200/jco.2023.41.16_suppl.2523.Peer-Reviewed Original ResearchSingle agentDose levelsNon-small cell lung cancerAdvanced refractory solid tumorsDose-escalation study designImmune-related adverse eventsTriple-negative breast cancerImmune checkpoint inhibitorsAcceptable safety profileDose-escalation studyRefractory solid tumorsCell lung cancerArchival tumor tissueEnrollment of subjectsImmune-related reactionsDose proportionalECOG PSRECIST 1.1Stable diseaseTREM1 expressionCheckpoint inhibitorsAdverse eventsPartial responseRadiographic responseGynecologic cancerA phase 2 study of the WEE1 inhibitor AZD1775 in SETD2-deficient advanced solid tumor malignancies.
Maldonado E, Rathmell W, Shapiro G, Rodon Ahnert J, Mahalingam D, Trikalinos N, Rezazadeh A, Adorno Febles V, Parikh M, Boerner S, Krings G, Takebe N, LoRusso P, Aggarwal R. A phase 2 study of the WEE1 inhibitor AZD1775 in SETD2-deficient advanced solid tumor malignancies. Journal Of Clinical Oncology 2023, 41: 3104-3104. DOI: 10.1200/jco.2023.41.16_suppl.3104.Peer-Reviewed Original ResearchClear cell renal cell carcinomaSolid tumor malignanciesClinical benefit rateObjective response rateDuration of responseTumor malignancyEvaluable ptsStable diseaseObjective responseAdverse eventsTumor regressionMetastatic clear cell renal cell carcinomaAdvanced solid tumor malignanciesMetastatic solid tumor malignanciesCommon adverse eventsDurable stable diseaseECOG PS 0RECIST 1.1 criteriaSubset of ptsPhase 2 studyCohort of patientsCell renal cell carcinomaNext-generation sequencing panelBest overall responseRenal cell carcinomaMulticenter Phase 2 Trial of the PARP Inhibitor Olaparib in Recurrent IDH1 and IDH2-Mutant Glioma
Fanucci K, Pilat M, Shyr D, Shyr Y, Boerner S, Li J, Durecki D, Drappatz J, Puduvalli V, Lieberman F, Gonzalez J, Giglio P, Ivy S, Bindra R, Omuro A, LoRusso P. Multicenter Phase 2 Trial of the PARP Inhibitor Olaparib in Recurrent IDH1 and IDH2-Mutant Glioma. Cancer Research Communications 2023, 3: 192-201. PMID: 36968138, PMCID: PMC10035510, DOI: 10.1158/2767-9764.crc-22-0436.Peer-Reviewed Original ResearchConceptsProgression-free survivalMedian progression-free survivalProlonged stable diseaseStable diseasePhase II trialGrade 4 tumorsII trialOlaparib monotherapyGrade 2Multicenter phase 2 trialSingle-arm phase II trialWorld Health Organization classificationMedian overall survivalNeuro-Oncology criteriaPhase 2 trialOverall response rateFuture patient stratificationMutant gliomasPARP inhibitor olaparibEvaluable patientsPrimary endpointOverall survivalProgressive diseaseSelect patientsClinical benefitEfficacy and safety of the MDM2–p53 antagonist BI 907828 in patients with advanced biliary tract cancer: Data from two phase Ia/Ib dose-escalation/expansion trials.
Yamamoto N, Tolcher A, Hafez N, Lugowska I, Ramlau R, Gounder M, Geng J, Li J, Teufel M, Maerten A, LoRusso P. Efficacy and safety of the MDM2–p53 antagonist BI 907828 in patients with advanced biliary tract cancer: Data from two phase Ia/Ib dose-escalation/expansion trials. Journal Of Clinical Oncology 2023, 41: 543-543. DOI: 10.1200/jco.2023.41.4_suppl.543.Peer-Reviewed Original ResearchAdvanced biliary tract cancerBiliary tract cancerTreatment-related AEsMost common gradeMonotherapy trialsCombination trialsStable diseaseTract cancerExpansion trialGallbladder carcinomaCommon gradeAnti-PD-1 antibodyWhite blood cell countManageable safety profileAdvanced solid tumorsBiliary tract adenocarcinomaBlood cell countRange of malignanciesPreclinical antitumor activityNegative prognostic markerPotential antitumor strategyAmpullary adenocarcinomaIIb trialAmpullary carcinomaSafety profile
2022
A Phase 1 First-in-Human Study of FS118, a Tetravalent Bispecific Antibody Targeting LAG-3 and PD-L1 in Patients with Advanced Cancer and PD-L1 Resistance.
Yap T, LoRusso P, Wong D, Hu-Lieskovan S, Papadopoulos K, Holz J, Grabowska U, Gradinaru C, Leung K, Marshall S, Reader C, Russell R, Sainson R, Seal C, Shepherd C, Germaschewski F, Gliddon D, Stern O, Young L, Brewis N, Kayitalire L, Morrow M. A Phase 1 First-in-Human Study of FS118, a Tetravalent Bispecific Antibody Targeting LAG-3 and PD-L1 in Patients with Advanced Cancer and PD-L1 Resistance. Clinical Cancer Research 2022, 29: 888-898. PMID: 36342102, DOI: 10.1158/1078-0432.ccr-22-1449.Peer-Reviewed Original ResearchConceptsDisease control rateLAG-3PD-L1Advanced cancerOverall disease control rateDisease controlPeripheral effector cellsPhase 2 doseSerious adverse eventsPhase 1 studySoluble LAG-3Tetravalent bispecific antibodyPrior regimensStable diseaseDose expansionMetastatic settingAdverse eventsPartial responseEffector cellsClinical benefitControl rateSustained elevationTitration designPharmacodynamic activityHuman studiesMulticenter phase 2 trial of the PARP inhibitor (PARPi) olaparib in recurrent IDH1 and IDH2-mutant contrast-enhancing glioma.
Fanucci K, Pilat M, Shah R, Boerner S, Li J, Durecki D, Drappatz J, Collichio F, Puduvalli V, Lieberman F, Gonzalez J, Giglio P, Bao X, Ivy S, Bindra R, Omuro A, LoRusso P. Multicenter phase 2 trial of the PARP inhibitor (PARPi) olaparib in recurrent IDH1 and IDH2-mutant contrast-enhancing glioma. Journal Of Clinical Oncology 2022, 40: 2035-2035. DOI: 10.1200/jco.2022.40.16_suppl.2035.Peer-Reviewed Original ResearchProgression-free survivalMedian progression-free survivalStable diseaseDuration of responseOverall response ratePARP inhibitorsOverall survivalStandard therapyOlaparib monotherapyMulticenter phase 2 trialCDKN2A deletionClinical predictive markersGrade 3 lymphopeniaProlonged stable diseasePhase 2 trialGrade 4 tumorsFuture patient stratificationRecent preclinical studiesHigh-grade gliomasNovel drug combinationsContrast-enhancing gliomasEligible ptsEvaluable ptsRecent histologyPrimary endpointInterim safety and efficacy results from AURELIO-03: A phase 1 dose escalation study of the IL-2/IL-15 receptor βγ superagonist SOT101 as a single agent and in combination with pembrolizumab in patients with advanced solid tumors.
Garralda E, Naing A, Galvao V, LoRusso P, Grell P, Cassier P, Gomez-Roca C, Korakis I, Bechard D, Jelinkova L, Adkins I, Tillmanns S, Kiemle-Kallee J, Marabelle A, Champiat S. Interim safety and efficacy results from AURELIO-03: A phase 1 dose escalation study of the IL-2/IL-15 receptor βγ superagonist SOT101 as a single agent and in combination with pembrolizumab in patients with advanced solid tumors. Journal Of Clinical Oncology 2022, 40: 2502-2502. DOI: 10.1200/jco.2022.40.16_suppl.2502.Peer-Reviewed Original ResearchTreatment-emergent adverse eventsClinical benefit rateAdvanced solid tumorsPartial responseStable diseaseMedian durationComplete responseClinical benefitBenefit rateAnti-programmed cell death protein 1 antibodyCommon treatment-emergent adverse eventsSolid tumorsMost treatment-emergent adverse eventsPhase 1 dose-escalation studyCell death protein 1 antibodyIL-15 receptor αSkin squamous cell carcinomaIL-2/ILFirst tumor assessmentOngoing complete responsePhase 2 dosePromising efficacy signalsTreatment-related deathsDose-escalation studyPhase 1 studyPhase 1b study of the novel first-in-class G protein-coupled estrogen receptor (GPER) agonist, LNS8801, in combination with pembrolizumab in patients with immune checkpoint inhibitor (ICI)-relapsed and refractory solid malignancies and dose escalation update.
Muller C, Chaney M, Cohen J, Garyantes T, Lin J, LoRusso P, Mita A, Mita M, Natale C, Orloff M, Papadopoulos K, Patel S, Ahnert J. Phase 1b study of the novel first-in-class G protein-coupled estrogen receptor (GPER) agonist, LNS8801, in combination with pembrolizumab in patients with immune checkpoint inhibitor (ICI)-relapsed and refractory solid malignancies and dose escalation update. Journal Of Clinical Oncology 2022, 40: 2574-2574. DOI: 10.1200/jco.2022.40.16_suppl.2574.Peer-Reviewed Original ResearchG protein-coupled estrogen receptorFavorable safety profileStable diseaseLong-term benefitsHuman dose-escalation studyProtein-coupled estrogen receptorMetastatic uveal melanoma patientsEncouraging anti-tumor activityClinical benefit rateDose-escalation portionPhase 1b studyRefractory solid malignanciesImmune checkpoint inhibitorsObjective response rateDose-escalation studyMetastatic solid tumorsUveal melanoma patientsDuration of treatmentAnti-tumor activityEstrogen receptor agonistsSmall molecule agonistsCTCAE v5.0Evaluable patientsMeasurable diseaseRECIST v1.1Praluzatamab Ravtansine, a CD166-Targeting Antibody–Drug Conjugate, in Patients with Advanced Solid Tumors: An Open-Label Phase I/II Trial
Boni V, Fidler MJ, Arkenau HT, Spira A, Meric-Bernstam F, Uboha N, Sanborn RE, Sweis RF, LoRusso P, Nagasaka M, Garcia-Corbacho J, Jalal S, Harding JJ, Kim SK, Miedema IHC, Vugts DJ, Huisman MC, Zwezerijnen GJC, van Dongen GAMS, van Oordt C, Wang S, Dang T, Zein IA, Vasiljeva O, Lyman SK, Paton V, Hannah A, Liu JF. Praluzatamab Ravtansine, a CD166-Targeting Antibody–Drug Conjugate, in Patients with Advanced Solid Tumors: An Open-Label Phase I/II Trial. Clinical Cancer Research 2022, 28: 2020-2029. PMID: 35165101, PMCID: PMC9365353, DOI: 10.1158/1078-0432.ccr-21-3656.Peer-Reviewed Original ResearchConceptsAdvanced solid tumorsOpen-label phase I/II trialSolid tumorsPhase I/II trialPhase I/II clinical trialsBasis of tolerabilityPhase II doseBreast cancer subsetsAntibody-drug conjugatesProtease-cleavable linkerEligible patientsPosttreatment biopsiesPrior therapyStable diseaseII trialPartial responseSafety profileTumor regressionClinical trialsPrevalent subtypeCancer subsetsClinical activityMetastatic cancerBreast cancerMedian number
2021
502 Recommended phase 2 dose, pharmacokinetics, pharmacodynamics, and preliminary efficacy of the IL-15 superagonist SO-C101 as monotherapy in patients with advanced/metastatic solid tumors
Marabelle A, Champiat S, Galvao V, Naing A, Janku F, LoRusso P, Grell P, Sachse R, Bechard D, Kiemle-Kallee J, Garralda E. 502 Recommended phase 2 dose, pharmacokinetics, pharmacodynamics, and preliminary efficacy of the IL-15 superagonist SO-C101 as monotherapy in patients with advanced/metastatic solid tumors. 2021, a534-a534. DOI: 10.1136/jitc-2021-sitc2021.502.Peer-Reviewed Original ResearchPhase 2 doseDose-limiting toxicityAdverse eventsPartial responseStable diseaseTransaminase increaseSolid tumorsDrug-related adverse eventsIL-15 receptor αCutaneous squamous cell carcinomaLocal injection site reactionsPrevious systemic therapyResults Thirty patientsSignificant partial responseTreatment-related deathsCommon adverse eventsFlu-like syndromeRelated adverse eventsInjection site reactionsMetastatic solid tumorsAdditional clinical benefitDose-escalation designSquamous cell carcinomaDose-dependent increaseT cell activationPhase 1 trial of a novel, first-in-class G protein-coupled estrogen receptor (GPER) agonist, LNS8801, in patients with advanced or recurrent treatment-refractory solid malignancies.
Muller C, Brown-Glaberman U, Chaney M, Garyantes T, LoRusso P, McQuade J, Mita A, Mita M, Natale C, Orloff M, Papadopoulos K, Sato T, Yilmaz E, Rodon J. Phase 1 trial of a novel, first-in-class G protein-coupled estrogen receptor (GPER) agonist, LNS8801, in patients with advanced or recurrent treatment-refractory solid malignancies. Journal Of Clinical Oncology 2021, 39: 3084-3084. DOI: 10.1200/jco.2021.39.15_suppl.3084.Peer-Reviewed Original ResearchG protein-coupled estrogen receptorC-Myc depletionStable diseaseDose levelsMetastatic solid tumor malignanciesAnti-PD-1 antibodyProtein-coupled estrogen receptorHr of dosingPhase 2 doseRECIST partial responseTreatment-related SAEsImmune checkpoint inhibitorsPhase 1 trialSolid tumor malignanciesPK/PD dataSelective small molecule agonistHigh unmet needDays of treatmentAnti-tumor activityEstrogen receptor agonistsSmall molecule agonistsTumor immune recognitionG protein-coupled receptorsAnti-cancer therapyCombination cohortClinical Activity and Safety of Cediranib and Olaparib Combination in Patients with Metastatic Pancreatic Ductal Adenocarcinoma without BRCA Mutation
Kim J, Cardin DB, Vaishampayan UN, Kato S, Grossman SR, Glazer P, Shyr Y, Ivy SP, LoRusso P. Clinical Activity and Safety of Cediranib and Olaparib Combination in Patients with Metastatic Pancreatic Ductal Adenocarcinoma without BRCA Mutation. The Oncologist 2021, 26: e1104-e1109. PMID: 33742489, PMCID: PMC8265343, DOI: 10.1002/onco.13758.Peer-Reviewed Original ResearchConceptsMetastatic pancreatic adenocarcinomaHomologous recombination DNA repair deficiencyMetastatic pancreatic ductal adenocarcinomaPancreatic ductal adenocarcinomaOlaparib combinationStable diseaseBRCA mutationsAdverse eventsDuctal adenocarcinomaCommon treatment-related adverse eventsVascular endothelial growth factor receptor inhibitorEndothelial growth factor receptor inhibitorTreatment-related adverse eventsGrowth factor receptor inhibitorsPrior systemic chemotherapyMedian overall survivalObjective response rateGermline BRCA mutationsBest overall responseExpression of BRCA1/2Restaging scanCancer cell linesPrimary endpointStudy drugSystemic chemotherapySapanisertib, a dual mTORC1/2 inhibitor, for TSC1- or TSC2- mutated metastatic urothelial carcinoma (mUC).
Kim J, Milowsky M, Hahn N, Kwiatkowski D, Morgans A, Davis N, Appleman L, Gupta S, Lara P, Hoffman-Censits J, Quinn D, Shyr Y, LoRusso P, Sklar J, Petrylak D. Sapanisertib, a dual mTORC1/2 inhibitor, for TSC1- or TSC2- mutated metastatic urothelial carcinoma (mUC). Journal Of Clinical Oncology 2021, 39: 431-431. DOI: 10.1200/jco.2021.39.6_suppl.431.Peer-Reviewed Original ResearchMetastatic urothelial carcinomaStable diseaseAdverse eventsObjective responseWithdrew consentTSC2 mutationsUrothelial carcinomaTSC1 mutationsTumor samplesCommon adverse eventsMedian overall survivalTreatment-related deathsPhase II studyCentral labOverall response rateDual mTORC1/2 inhibitorUnknown mutational statusCentral confirmationEligible patientsEvaluable patientsMUC patientsRestaging scanII studyPrimary endpointBaseline characteristics