2021
DHES0815A, a novel antibody-drug conjugate targeting HER2/neu, is highly active against uterine serous carcinomas in vitro and in vivo
Tymon-Rosario J, Bonazzoli E, Bellone S, Manzano A, Pelligra S, Guglielmi A, Gnutti B, Nagarkatti N, Zeybek B, Manara P, Zammataro L, Harold J, Mauricio D, Buza N, Hui P, Altwerger G, Menderes G, Ratner E, Clark M, Andikyan V, Huang GS, Silasi DA, Azodi M, Schwartz PE, Santin AD. DHES0815A, a novel antibody-drug conjugate targeting HER2/neu, is highly active against uterine serous carcinomas in vitro and in vivo. Gynecologic Oncology 2021, 163: 334-341. PMID: 34452746, PMCID: PMC8722447, DOI: 10.1016/j.ygyno.2021.08.014.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overAntibodies, Monoclonal, HumanizedBenzodiazepinesBystander EffectCell Line, TumorCystadenocarcinoma, SerousDrug Resistance, NeoplasmFemaleHumansImmunoconjugatesMiddle AgedPrimary Cell CultureReceptor, ErbB-2TrastuzumabUterine NeoplasmsXenograft Model Antitumor AssaysConceptsHER2/neuPrimary USC cell linesUSC cell linesUterine serous carcinomaSerous carcinomaHER2/Cell linesBystander killingHER2/neu protein expressionHER2/neu overexpressionProtein expressionNovel treatment optionsAggressive histologic variantNeu protein expressionHER2 protein expressionC-erbB2 gene amplificationSignificant bystander killingUSC xenograftsEndometrial cancerNegative tumorsPoor prognosisPositive tumorsTreatment optionsPreclinical activityHistologic variants
2019
PARP-1 activity (PAR) determines the sensitivity of cervical cancer to olaparib
Bianchi A, Lopez S, Altwerger G, Bellone S, Bonazzoli E, Zammataro L, Manzano A, Manara P, Perrone E, Zeybek B, Han C, Menderes G, Ratner E, Silasi DA, Huang GS, Azodi M, Newberg JY, Pavlick DC, Elvin J, Frampton GM, Schwartz PE, Santin AD. PARP-1 activity (PAR) determines the sensitivity of cervical cancer to olaparib. Gynecologic Oncology 2019, 155: 144-150. PMID: 31434613, PMCID: PMC6788971, DOI: 10.1016/j.ygyno.2019.08.010.Peer-Reviewed Original ResearchMeSH KeywordsAdultAnimalsApoptosisCell Growth ProcessesCell Line, TumorDose-Response Relationship, DrugDrug Resistance, NeoplasmFemaleG2 Phase Cell Cycle CheckpointsHumansM Phase Cell Cycle CheckpointsMice, SCIDMiddle AgedPhthalazinesPiperazinesPoly (ADP-Ribose) Polymerase-1Poly(ADP-ribose) Polymerase InhibitorsUterine Cervical NeoplasmsXenograft Model Antitumor AssaysYoung AdultConceptsPoly (ADP-ribose) polymerase (PARP) inhibitorsCervical cancerCC cell linesCell linesPARP-1 activityOverall animal survivalMajor health problemCC cell growthXenograft tumor growthWestern blot assaysG2/M phaseVivo antitumor activityCC xenograftsCC patientsPreclinical activityPAR expressionCell cycle arrestOvarian cancerPrimary cell linesOlaparib treatmentUseful biomarkerHealth problemsTumor growthAnimal survivalOlaparib activityPI3K oncogenic mutations mediate resistance to afatinib in HER2/neu overexpressing gynecological cancers
Bonazzoli E, Cocco E, Lopez S, Bellone S, Zammataro L, Bianchi A, Manzano A, Yadav G, Manara P, Perrone E, Haines K, Espinal M, Dugan K, Menderes G, Altwerger G, Han C, Zeybek B, Litkouhi B, Ratner E, Silasi DA, Huang GS, Azodi M, Schwartz PE, Santin AD. PI3K oncogenic mutations mediate resistance to afatinib in HER2/neu overexpressing gynecological cancers. Gynecologic Oncology 2019, 153: 158-164. PMID: 30630630, PMCID: PMC6430698, DOI: 10.1016/j.ygyno.2019.01.002.Peer-Reviewed Original ResearchMeSH KeywordsAdultAfatinibAgedAnimalsAntineoplastic AgentsCell Line, TumorClass I Phosphatidylinositol 3-KinasesClass Ia Phosphatidylinositol 3-KinaseDrug Resistance, NeoplasmFemaleGenital Neoplasms, FemaleHumansMiceMice, SCIDMiddle AgedMutationPhosphatidylinositol 3-KinasesProtein Kinase InhibitorsReceptor, ErbB-2TransfectionXenograft Model Antitumor AssaysConceptsHER2/neuAKT/mTOR pathwayPIK3CA mutationsMTOR pathwayActivity of afatinibEffect of afatinibPI3K/AKT/mTOR pathwayPotential mechanismsPIK3CA/AKT/mTOR pathwayRapid tumor growthGreater compensatory increasePI3K mutationsAmplification/mutationOncogenic PIK3CA mutationsAfatinib exposurePIK3CA H1047RGynecological cancerClinical trialsMTOR inhibitorsAfatinibTumor growthCompensatory increasePhosphorylated Akt proteinPIK3CA geneC-erb
2018
In vitro and in vivo activity of IMGN853, an Antibody-Drug Conjugate targeting Folate Receptor Alpha linked to DM4, in biologically aggressive endometrial cancers
Altwerger G, Bonazzoli E, Bellone S, Egawa-Takata T, Menderes G, Pettinella F, Bianchi A, Riccio F, Feinberg J, Zammataro L, Han C, Yadav G, Dugan K, Morneault A, Ponte JF, Buza N, Hui P, Wong S, Litkouhi B, Ratner E, Silasi DA, Huang GS, Azodi M, Schwartz PE, Santin AD. In vitro and in vivo activity of IMGN853, an Antibody-Drug Conjugate targeting Folate Receptor Alpha linked to DM4, in biologically aggressive endometrial cancers. Molecular Cancer Therapeutics 2018, 17: molcanther.0930.2017. PMID: 29440294, PMCID: PMC5932245, DOI: 10.1158/1535-7163.mct-17-0930.Peer-Reviewed Original ResearchConceptsEndometrial cancerXenograft modelCell linesTumor cell linesPatient-derived xenograft modelsUterine cancer cell linesAggressive endometrial cancersEndometrial cancer deathsExpression of FRαPrimary USC cell linesRecurrent endometrial cancerReceptor alpha expressionUSC cell linesImpressive antitumor activityMol Cancer TherUSC patientsCancer cell linesMedian survivalCancer deathPDX modelsPreclinical dataUterine cancerComplete resolutionIMGN853Grade 3
2015
Designing a broad-spectrum integrative approach for cancer prevention and treatment
Block KI, Gyllenhaal C, Lowe L, Amedei A, Amin AR, Amin A, Aquilano K, Arbiser J, Arreola A, Arzumanyan A, Ashraf SS, Azmi AS, Benencia F, Bhakta D, Bilsland A, Bishayee A, Blain SW, Block PB, Boosani CS, Carey TE, Carnero A, Carotenuto M, Casey SC, Chakrabarti M, Chaturvedi R, Chen GZ, Chen H, Chen S, Chen YC, Choi BK, Ciriolo MR, Coley HM, Collins AR, Connell M, Crawford S, Curran CS, Dabrosin C, Damia G, Dasgupta S, DeBerardinis RJ, Decker WK, Dhawan P, Diehl AM, Dong JT, Dou QP, Drew JE, Elkord E, El-Rayes B, Feitelson MA, Felsher DW, Ferguson LR, Fimognari C, Firestone GL, Frezza C, Fujii H, Fuster MM, Generali D, Georgakilas AG, Gieseler F, Gilbertson M, Green MF, Grue B, Guha G, Halicka D, Helferich WG, Heneberg P, Hentosh P, Hirschey MD, Hofseth LJ, Holcombe RF, Honoki K, Hsu HY, Huang GS, Jensen LD, Jiang WG, Jones LW, Karpowicz PA, Keith WN, Kerkar SP, Khan GN, Khatami M, Ko YH, Kucuk O, Kulathinal RJ, Kumar NB, Kwon BS, Le A, Lea MA, Lee HY, Lichtor T, Lin LT, Locasale JW, Lokeshwar BL, Longo VD, Lyssiotis CA, MacKenzie KL, Malhotra M, Marino M, Martinez-Chantar ML, Matheu A, Maxwell C, McDonnell E, Meeker AK, Mehrmohamadi M, Mehta K, Michelotti GA, Mohammad RM, Mohammed SI, Morre DJ, Muralidhar V, Muqbil I, Murphy MP, Nagaraju GP, Nahta R, Niccolai E, Nowsheen S, Panis C, Pantano F, Parslow VR, Pawelec G, Pedersen PL, Poore B, Poudyal D, Prakash S, Prince M, Raffaghello L, Rathmell JC, Rathmell WK, Ray SK, Reichrath J, Rezazadeh S, Ribatti D, Ricciardiello L, Robey RB, Rodier F, Rupasinghe HP, Russo GL, Ryan EP, Samadi AK, Sanchez-Garcia I, Sanders AJ, Santini D, Sarkar M, Sasada T, Saxena NK, Shackelford RE, Kumara H, Sharma D, Shin DM, Sidransky D, Siegelin MD, Signori E, Singh N, Sivanand S, Sliva D, Smythe C, Spagnuolo C, Stafforini DM, Stagg J, Subbarayan PR, Sundin T, Talib WH, Thompson SK, Tran PT, Ungefroren H, Vander Heiden M, Venkateswaran V, Vinay DS, Vlachostergios PJ, Wang Z, Wellen KE, Whelan RL, Yang ES, Yang H, Yang X, Yaswen P, Yedjou C, Yin X, Zhu J, Zollo M. Designing a broad-spectrum integrative approach for cancer prevention and treatment. Seminars In Cancer Biology 2015, 35: s276-s304. PMID: 26590477, PMCID: PMC4819002, DOI: 10.1016/j.semcancer.2015.09.007.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsIGF2 signaling and regulation in cancer
Brouwer-Visser J, Huang GS. IGF2 signaling and regulation in cancer. Cytokine & Growth Factor Reviews 2015, 26: 371-377. PMID: 25704323, DOI: 10.1016/j.cytogfr.2015.01.002.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus Statements
2014
Insulin-Like Growth Factor 2 Silencing Restores Taxol Sensitivity in Drug Resistant Ovarian Cancer
Brouwer-Visser J, Lee J, McCullagh K, Cossio MJ, Wang Y, Huang GS. Insulin-Like Growth Factor 2 Silencing Restores Taxol Sensitivity in Drug Resistant Ovarian Cancer. PLOS ONE 2014, 9: e100165. PMID: 24932685, PMCID: PMC4059749, DOI: 10.1371/journal.pone.0100165.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntineoplastic Agents, PhytogenicApoptosisBlotting, WesternCell CycleCell ProliferationCystadenocarcinoma, SerousDrug Resistance, NeoplasmFemaleHumansInsulin-Like Growth Factor IInsulin-Like Growth Factor IIMiceMice, NudeOvarian NeoplasmsPaclitaxelPhosphorylationReal-Time Polymerase Chain ReactionReceptor, IGF Type 1Reverse Transcriptase Polymerase Chain ReactionRNA, MessengerRNA, Small InterferingSignal TransductionTumor Cells, CulturedXenograft Model Antitumor AssaysConceptsDrug-resistant ovarian cancerResistant ovarian cancerInsulin-like growth factorIGF2 knockdownOvarian cancerPotential therapeutic targetDrug resistanceTherapeutic targetCell linesOvarian cancer xenograft modelDrug-sensitive cell linesOvarian cancer cohortTaxol sensitivityOvarian cancer cell linesCancer xenograft modelExtreme drug resistanceDose of TaxolDrug-resistant cellsCancer Genome Atlas (TCGA) dataNovel potential targetSensitive cell linesCancer cell linesShort hairpin RNAClinical indicatorsCancer cohort
2010
Insulin-like Growth Factor 2 Expression Modulates Taxol Resistance and Is a Candidate Biomarker for Reduced Disease-Free Survival in Ovarian Cancer
Huang GS, Brouwer-Visser J, Ramirez MJ, Kim CH, Hebert TM, Lin J, Arias-Pulido H, Qualls CR, Prossnitz ER, Goldberg GL, Smith HO, Horwitz SB. Insulin-like Growth Factor 2 Expression Modulates Taxol Resistance and Is a Candidate Biomarker for Reduced Disease-Free Survival in Ovarian Cancer. Clinical Cancer Research 2010, 16: 2999-3010. PMID: 20404007, PMCID: PMC2887721, DOI: 10.1158/1078-0432.ccr-09-3233.Peer-Reviewed Original ResearchMeSH KeywordsAntineoplastic Agents, PhytogenicBiomarkers, TumorCell Line, TumorCell ProliferationDisease-Free SurvivalDrug Resistance, NeoplasmFemaleGene Knockdown TechniquesHumansInsulin-Like Growth Factor IIOvarian NeoplasmsPaclitaxelPhosphorylationPrognosisProto-Oncogene Proteins c-aktPyrimidinesPyrrolesReceptor, IGF Type 1RNA, Small InterferingSignal TransductionConceptsEpithelial ovarian tumorsInsulin-like growth factorDisease-free survivalOvarian carcinoma cellsOvarian tumorsTaxol resistancePathway inhibitionIGF2 expressionOvarian cancerCarcinoma cellsExact testReduced disease-free survivalHuman epithelial ovarian tumorsCandidate prognostic biomarkerDrug-resistant ovarian carcinoma cellsUpregulation of IGF2Fisher's exact testIGF2 protein expressionOvarian cancer cellsDrug-resistant phenotypeHigh IGF2 expressionIGF receptor inhibitorsPathologic factorsTaxol-resistant cell linesCox regression
2009
A phase II study of weekly topotecan and docetaxel in heavily treated patients with recurrent uterine and ovarian cancers
Gupta D, Owers RL, Kim M, Kuo DY, Huang GS, Shahabi S, Goldberg GL, Einstein MH. A phase II study of weekly topotecan and docetaxel in heavily treated patients with recurrent uterine and ovarian cancers. Gynecologic Oncology 2009, 113: 327-330. PMID: 19307014, PMCID: PMC4451225, DOI: 10.1016/j.ygyno.2009.02.018.Peer-Reviewed Original ResearchConceptsWeekly topotecanClinical benefitOverall survivalOvarian cancerGrade 3 non-hematologic toxicityKaplan-Meier statistical methodNon-hematologic toxicitiesPrior chemotherapy regimensCycles of chemotherapyGrade 3 toxicityMedian overall survivalPhase II studyPhase II trialMajority of patientsEpithelial ovarian cancerOverall response ratePlatinum-resistant tumorsDose delaysEligible patientsRustin criteriaChemotherapy regimensII trialUnacceptable toxicityII studyMedian duration
2002
Liposomal Doxorubicin for Treatment of Metastatic Chemorefractory Vulvar Adenocarcinoma
Huang GS, Juretzka M, Ciaravino G, Kohler S, Teng NN. Liposomal Doxorubicin for Treatment of Metastatic Chemorefractory Vulvar Adenocarcinoma. Gynecologic Oncology 2002, 87: 313-318. PMID: 12468332, DOI: 10.1006/gyno.2002.6830.Peer-Reviewed Original ResearchMeSH KeywordsAdenocarcinomaAgedDoxorubicinDrug Resistance, NeoplasmFemaleHumansNeoplasm MetastasisPaget Disease, ExtramammaryVulvar NeoplasmsConceptsVulvar adenocarcinomaLiposomal doxorubicinPelvic lymph node dissectionGroin lymph nodesLymph node dissectionExtramammary Paget's diseaseYears of survivalWarrants further investigationBulky involvementGroin irradiationInitial therapyNode dissectionMultiagent chemotherapyRadical vulvectomyGynecologic malignanciesMetastatic diseaseLymph nodesInitial diagnosisMetastatic lesionsPaget's diseaseDramatic regressionRare entityDoxil treatmentEffective treatmentSubcutaneous lesions