2018
A Phase II Trial of Bortezomib and Vorinostat in Mantle Cell Lymphoma and Diffuse Large B-cell Lymphoma
Yazbeck V, Shafer D, Perkins EB, Coppola D, Sokol L, Richards KL, Shea T, Ruan J, Parekh S, Strair R, Flowers C, Morgan D, Kmieciak M, Bose P, Kimball A, Badros AZ, Baz R, Lin HY, Zhao X, Reich RR, Tombes MB, Shrader E, Sankala H, Roberts JD, Sullivan D, Grant S, Holkova B. A Phase II Trial of Bortezomib and Vorinostat in Mantle Cell Lymphoma and Diffuse Large B-cell Lymphoma. Clinical Lymphoma Myeloma & Leukemia 2018, 18: 569-575.e1. PMID: 30122201, DOI: 10.1016/j.clml.2018.05.023.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overAntineoplastic Combined Chemotherapy ProtocolsBortezomibDrug Resistance, NeoplasmFemaleFollow-Up StudiesHumansLymphoma, Large B-Cell, DiffuseLymphoma, Mantle-CellMaleMiddle AgedNeoplasm Recurrence, LocalPrognosisProspective StudiesSalvage TherapySurvival RateVorinostatConceptsLarge B-cell lymphomaPhase II trialStable diseaseProgressive diseaseB-cell lymphomaPartial responseII trialCohort BCohort ADay 1Median progression-free survivalNonrandomized phase II trialDiffuse large B-cell lymphomaProgression-free survivalHistone deacetylase inhibitor vorinostatOverall response rateCombination of bortezomibMantle cell lymphomaNF-κB activationProteasome inhibitor bortezomibCell lymphoma cellsPresent multicenterRefractory MCLClinical responseCohort C
2011
Phase I Trial of Bortezomib (PS-341; NSC 681239) and Alvocidib (Flavopiridol; NSC 649890) in Patients with Recurrent or Refractory B-Cell Neoplasms
Holkova B, Perkins EB, Ramakrishnan V, Tombes MB, Shrader E, Talreja N, Wellons MD, Hogan KT, Roodman GD, Coppola D, Kang L, Dawson J, Stuart RK, Peer C, Figg WD, Kolla S, Doyle A, Wright J, Sullivan DM, Roberts JD, Grant S. Phase I Trial of Bortezomib (PS-341; NSC 681239) and Alvocidib (Flavopiridol; NSC 649890) in Patients with Recurrent or Refractory B-Cell Neoplasms. Clinical Cancer Research 2011, 17: 3388-3397. PMID: 21447728, PMCID: PMC3096752, DOI: 10.1158/1078-0432.ccr-10-2876.Peer-Reviewed Original ResearchConceptsDose-limiting toxicityCombination of bortezomibFebrile neutropeniaPharmacodynamic studiesDay 1Refractory B-cell neoplasmsElevated aspartate aminotransferase levelsCommon hematologic toxicityCommon nonhematologic toxicitiesPhase II studyRefractory multiple myelomaPhase I studiesAspartate aminotransferase levelsB-cell malignanciesB-cell neoplasmsHematologic toxicityIntravenous pushNonhematologic toxicityStable diseaseAminotransferase levelsI trialII studyPartial responseComplete responseDose escalation
2003
The use of cyclin-dependent kinase inhibitors alone or in combination with established cytotoxic drugs in cancer chemotherapy
Grant S, Roberts JD. The use of cyclin-dependent kinase inhibitors alone or in combination with established cytotoxic drugs in cancer chemotherapy. Drug Resistance Updates 2003, 6: 15-26. PMID: 12654284, DOI: 10.1016/s1368-7646(02)00141-3.Peer-Reviewed Original ResearchConceptsCyclin-dependent kinase inhibitorCytotoxic agentsKinase inhibitorsSingle-agent activityCDK inhibitorsConventional cytotoxic agentsAnti-tumor effectsApoptotic regulatory moleculesCell cycle dysregulationNeoplastic cell proliferationAbundant preclinical evidencePreclinical evidenceTumor cell typesCritical molecular targetsClinical studiesSpecific tumor cell typesPreclinical studiesClinical developmentSmall molecule inhibitorsCell cycle traverseCytotoxic drugsAntitumor efficacyClinical arenaCancer chemotherapyMolecular targets
2002
Higher doses of mitoxantrone among men with hormone‐refractory prostate carcinoma
Levine EG, Halabi S, Roberts JD, Kaplan EB, Rago R, Atkins JN, Vogelzang NJ. Higher doses of mitoxantrone among men with hormone‐refractory prostate carcinoma. Cancer 2002, 94: 665-672. PMID: 11857298, DOI: 10.1002/cncr.10217.Peer-Reviewed Original ResearchConceptsHormone-refractory prostate carcinomaHigh dosesPelvic irradiationProstate carcinomaArm IFrequency of thrombocytopeniaLow-dose glucocorticoidsArm IIPhase II trialPhase III trialsPhase III testingMedian survival timeGranulocyte-macrophage colony-stimulating factorColony-stimulating factorAssessable patientsEstramustine combinationsII trialIII trialsMedian survivalPartial responsePSA valuesFavorable outcomeSurvival timePatientsSame schedule
1999
Comparison of cytotoxicity and cellular accumulation of polynuclear platinum complexes in L1210 murine leukemia cell lines
Roberts J, Peroutka J, Beggiolin G, Manzotti C, Piazzoni L, Farrell N. Comparison of cytotoxicity and cellular accumulation of polynuclear platinum complexes in L1210 murine leukemia cell lines. Journal Of Inorganic Biochemistry 1999, 77: 47-50. PMID: 10626353, DOI: 10.1016/s0162-0134(99)00137-3.Peer-Reviewed Original ResearchConceptsPolynuclear platinum complexesPlatinum complexesDiamine linkerL1210 cell lineDinuclear platinum complexesTrinuclear platinum complexL1210 murine leukemia cell lineL1210/DDPDinuclear complexesAnticancer profileChemical featuresCytotoxicity profileCellular uptakeBBR3464LinkerMurine leukemia cell lineComplexesTransCharge contributesClinical agentsCytotoxicityUptake pathwayCellular accumulationAntitumor activityPlatinumCellular pharmacology of polynuclear platinum anti-cancer agents
Roberts J, Peroutka J, Farrell N. Cellular pharmacology of polynuclear platinum anti-cancer agents. Journal Of Inorganic Biochemistry 1999, 77: 51-57. PMID: 10626354, DOI: 10.1016/s0162-0134(99)00147-6.Peer-Reviewed Original ResearchConceptsCisplatin-resistant cell linesCell linesCross-linking adductsWild-type cell linesDNA repair mechanismsL1210 murine leukemia cell lineCellular pharmacologyType cell linesGenomic accessMurine leukemia cell lineWild typeCytotoxic effectsLeukemia cell linesRepair mechanismsDNA interstrandAnti-cancer agentsDiminished accumulationDinuclear platinum complexesTrinuclear platinum complexBBR3464Enhanced activityPotential anticancer agentsPotent cytotoxic agentComplexesVivo activity