2012
Chitinase-like Proteins in Lung Injury, Repair, and Metastasis
Lee CG, Dela Cruz CS, Ma B, Ahangari F, Zhou Y, Halaban R, Sznol M, Elias JA. Chitinase-like Proteins in Lung Injury, Repair, and Metastasis. Annals Of The American Thoracic Society 2012, 9: 57-61. PMID: 22550243, PMCID: PMC3359113, DOI: 10.1513/pats.201112-056ms.Peer-Reviewed Original Research
2011
Plasma Markers for Identifying Patients with Metastatic Melanoma
Kluger HM, Hoyt K, Bacchiocchi A, Mayer T, Kirsch J, Kluger Y, Sznol M, Ariyan S, Molinaro A, Halaban R. Plasma Markers for Identifying Patients with Metastatic Melanoma. Clinical Cancer Research 2011, 17: 2417-2425. PMID: 21487066, PMCID: PMC3415234, DOI: 10.1158/1078-0432.ccr-10-2402.Peer-Reviewed Original ResearchMeSH KeywordsAgedAntigens, CDBiomarkers, TumorCell Adhesion MoleculesEnzyme-Linked Immunosorbent AssayExtracellular Matrix ProteinsFemaleGlycoproteinsGrowth Differentiation Factor 15HumansIntercellular Adhesion Molecule-1L-Lactate DehydrogenaseMaleMelanomaMiddle AgedNeoplasm MetastasisNeoplasm ProteinsNeoplasm Recurrence, LocalNeoplasm StagingNerve Growth FactorsPrognosisReproducibility of ResultsS100 Calcium Binding Protein beta SubunitS100 ProteinsSensitivity and SpecificityTissue Inhibitor of Metalloproteinase-1ConceptsGenome-wide gene expression dataGene expression dataHigh expression levelsLevels of proteinExpression dataExpression levelsProteinMelanoma cellsStage I/II diseaseEqual-sized trainingMarkersGenesDisease recurrencePlasma markersMetastatic melanomaTIMP-1Lactate dehydrogenaseCEACAMsStage I/II patientsDehydrogenaseOsteopontinStage IV diseaseStage IV patientsMetastatic melanoma patientsGender-matched patients
2002
Coexpression of Wild-Type Tyrosinase Enhances Maturation of Temperature-Sensitive Tyrosinase Mutants
Halaban R, Cheng E, Hebert DN. Coexpression of Wild-Type Tyrosinase Enhances Maturation of Temperature-Sensitive Tyrosinase Mutants. Journal Of Investigative Dermatology 2002, 119: 481-488. PMID: 12190874, DOI: 10.1046/j.1523-1747.2002.01824.x.Peer-Reviewed Original ResearchConceptsWild-type proteinTyrosinase mutantsMutant proteinsGlycosylation-deficient mutantsGlycosylation-deficient formsOculocutaneous albinism 1Wild-type tyrosinaseDevelopment of pigmentsDifferent mutant allelesType I membraneActivity-dependent mannerNonpermissive temperatureMutant allelesEndoplasmic reticulumTypes of mutationsMutantsFunction mutationsCarbohydrate processingMelanin synthesisProteinCoexpressionMelanocytesTyrosinase activityMutationsMaturation
2000
Proper Folding and Endoplasmic Reticulum to Golgi Transport of Tyrosinase Are Induced by Its Substrates, DOPA and Tyrosine*
Halaban R, Cheng E, Svedine S, Aron R, Hebert D. Proper Folding and Endoplasmic Reticulum to Golgi Transport of Tyrosinase Are Induced by Its Substrates, DOPA and Tyrosine*. Journal Of Biological Chemistry 2000, 276: 11933-11938. PMID: 11124258, DOI: 10.1074/jbc.m008703200.Peer-Reviewed Original ResearchConceptsWild-type tyrosinaseEndoplasmic reticulumProper foldingWild-type proteinMelanoma cellsLoss of pigmentationTyrosinase-positive melanoma cellsGolgi transportType proteinAlbino mutantS proteasomeSubsequent retranslocationMutant formsCatalytic stateEnzymatic activityProteolytic degradationNative formReticulumFoldingProteinTumor-derived antigenic peptidesTyrosinase activitySuppress tyrosinase activityCellsMetabolic changes
1996
Characterization and Subcellular Localization of Human Pmel 17/silver, a 100-kDa (Pre)Melanosomal Membrane Protein Associated With 5,6,-Dihydroxyindole-2-Carboxylic Acid (DHICA) Converting Activity
Lee Z, Hou L, Moellmann G, Kuklinska E, Antol K, Fraser M, Halaban R, Kwon B. Characterization and Subcellular Localization of Human Pmel 17/silver, a 100-kDa (Pre)Melanosomal Membrane Protein Associated With 5,6,-Dihydroxyindole-2-Carboxylic Acid (DHICA) Converting Activity. Journal Of Investigative Dermatology 1996, 106: 605-610. PMID: 8617992, DOI: 10.1111/1523-1747.ep12345163.Peer-Reviewed Original ResearchConceptsPmel 17Baculovirus expression vectorCo-precipitated proteinsElectron transfer chainPigmentation lociCytosolic vesiclesInsect cellsComplexed proteinsSubcellular localizationPolyclonal antibodiesProtein AssociatedMelanin biosynthesisPigment cellsExpression vectorPrimary structureTransfer chainApproximate molecular sizeHuman melanoma cellsProteinNatural proteinsOxidoreductive enzymesMelanoma cellsUltrastructural locationElectron microscopic cytochemistryCells
1994
Characterization of Mouse Pmel 17 Gene and Silver Locus
KWON B, KIM K, HALABAN R, PICKARD R. Characterization of Mouse Pmel 17 Gene and Silver Locus. Pigment Cell & Melanoma Research 1994, 7: 394-397. PMID: 7761347, DOI: 10.1111/j.1600-0749.1994.tb00067.x.Peer-Reviewed Original ResearchConceptsCDNA clonesPutative cytoplasmic tailPmel 17Amino acidsC-terminal amino acidsSingle nucleotide insertionSilver locusGenomic regionsCytoplasmic tailCarboxyl terminusC-terminusMurine melanocytesNucleotide insertionMutation sitesProteinClonesGenesTerminusLociMajor defectsMutationsResiduesAcidMelanocytesInsertion
1993
met and HGF-SF in normal melanocytes and melanoma cells.
Halaban R, Rubin J, White W. met and HGF-SF in normal melanocytes and melanoma cells. 1993, 65: 329-39. PMID: 8380740.Peer-Reviewed Original ResearchConceptsHGF-SFFactor-dependent cellsMelanoma cellsNormal human melanocytesSignal transductionMouse melanocytesTumorigenic phenotypeHuman melanocytesHuman melanoma cellsNormal melanocytesAutocrine loopMelanocytesHuman melanomaMalignant conversionMelanin contentTyrosinase activityEctopic sitesCellsSynergistic factorExpressionBFGFERK2TransductionPhosphorylationProtein
1992
Scatter factor and hepatocyte growth factor: activities, properties, and mechanism.
Bhargava M, Joseph A, Knesel J, Halaban R, Li Y, Pang S, Goldberg I, Setter E, Donovan M, Zarnegar R. Scatter factor and hepatocyte growth factor: activities, properties, and mechanism. Molecular Cancer Research 1992, 3: 11-20. PMID: 1534687.Peer-Reviewed Original ResearchConceptsHepatocyte growth factorScatter factorPartial amino acid sequence dataAmino acid sequence dataAmino acid sequenceFibroblast-derived proteinHuman smooth muscle cellsVascular endothelial cell typesEndothelial cell typesGrowth factorSignificant homologyPosttranslational modificationsSequence dataRapid phosphorylationAcid sequenceBiological activityTyrosine residuesProtein productsCohesive coloniesCommon antigenic determinantsCell typesSpecies-related differencesProteinSerum-derived proteinsHuman hepatocyte growth factor
1990
Murine and human b locus pigmentation genes encode a glycoprotein (gp75) with catalase activity.
Halaban R, Moellmann G. Murine and human b locus pigmentation genes encode a glycoprotein (gp75) with catalase activity. Proceedings Of The National Academy Of Sciences Of The United States Of America 1990, 87: 4809-4813. PMID: 1693779, PMCID: PMC54207, DOI: 10.1073/pnas.87.12.4809.Peer-Reviewed Original ResearchConceptsPigmentation genesRapid proteolytic degradationMelanosomal glycoproteinLocus proteinBrown locusCatalase BB mutationsProteolytic degradationB locusMelanogenic activityGenesMelanin precursorsLociProteinMutationsGlycoproteinCatalase activityTyrosinaseHydrogen peroxideHydroperoxidaseMelanogenesisGp75ActivityMurinePigmentation
1983
Regulation of tyrosinase in human melanocytes grown in culture.
Halaban R, Pomerantz S, Marshall S, Lambert D, Lerner A. Regulation of tyrosinase in human melanocytes grown in culture. Journal Of Cell Biology 1983, 97: 480-488. PMID: 6411733, PMCID: PMC2112541, DOI: 10.1083/jcb.97.2.480.Peer-Reviewed Original ResearchConceptsHuman melanocytesApparent molecular weightMalignant human melanocytesTyrosinase activityMajor biochemical eventsExpression of tyrosinaseSynthesis of melaninRegulation of tyrosinasePosttranslational modificationsImmunoprecipitation experimentsO-glycosylationBiochemical eventsNormal melanocytesMelanocytesMolecular weightProteinEnzymeTyrosinaseTunicamycinAbundanceActivityRegulationHigh levelsLow levelsCulture