Search results for "seprase"

showing 4 items of 4 documents

The protease complex consisting of dipeptidyl peptidase IV and seprase plays a role in the migration and invasion of human endothelial cells in colla…

2006

Abstract Dipeptidyl peptidase IV (DPP4/CD26) and seprase/fibroblast activation protein α are homologous type II transmembrane, homodimeric glycoproteins that exhibit unique prolyl peptidase activities. Human DPP4 is ubiquitously expressed in epithelial and endothelial cells and serves multiple functions in cleaving the penultimate positioned prolyl bonds at the NH2 terminus of a variety of physiologically important peptides in the circulation. Recent studies showed a linkage between DPP4 and down-regulation of certain chemokines and mitogenic growth factors, and degradation of denatured collagens (gelatin), suggesting a role of DPP4 in the cell invasive phenotype. Here, we found the existen…

Cancer ResearchProteasesDipeptidyl Peptidase 4medicine.medical_treatmentBiologyArticleDipeptidyl peptidaseExtracellular matrixFibroblast activation protein alphaCell MovementmedicineHumansSerine proteaseProteaseSerine EndopeptidasesAntibodies MonoclonalEndothelial CellsCell migrationdipeptidyl peptidase IV CD26 seprase fibroblast activation protein α endothelial cell migration angiogenesisExtracellular MatrixUp-RegulationEndothelial stem cellOncologyBiochemistrybiology.proteinGelatinCell Surface ExtensionsCollagenPeptide Hydrolases
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Proteolytic Enzymes Clustered in Specialized Plasma-Membrane Domains Drive Endothelial Cells’ Migration

2016

In vitro cultured endothelial cells forming a continuous monolayer establish stable cell-cell contacts and acquire a "resting" phenotype; on the other hand, when growing in sparse conditions these cells acquire a migratory phenotype and invade the empty area of the culture. Culturing cells in different conditions, we compared expression and clustering of proteolytic enzymes in cells having migratory versus stationary behavior. In order to observe resting and migrating cells in the same microscopic field, a continuous cell monolayer was wounded. Increased expression of proteolytic enzymes was evident in cell membranes of migrating cells especially at sprouting sites and in shed membrane vesi…

0301 basic medicinekalininsepraseCell Membranesbeta1 integrinCelllcsh:MedicineurokinaseBiochemistryEpitheliumCell membrane0302 clinical medicineAnimal CellsMedicine and Health Sciencesdipeptidyl peptidase IVlcsh:ScienceMultidisciplinarybiologyVesicleProteolytic enzymesCell migrationProteasesEnzymesCell biologyLaboratory EquipmentCell Motilitymedicine.anatomical_structureBiochemistry030220 oncology & carcinogenesisEngineering and TechnologyBiological Culturesmatrix metalloproteinase 14Cellular Structures and OrganellesCellular TypesAnatomyResearch ArticleEquipmentCell MigrationResearch and Analysis MethodsGelatin MediaCell Linegelatinase B03 medical and health sciencescollagen type 4fibronectinmedicineHumansVesiclescollagen type 1gelatinase Alcsh:RCell MembraneBiology and Life SciencesEndothelial CellsProteinsMembrane ProteinsEpithelial CellsCell BiologyCulture MediaFibronectinBiological Tissue030104 developmental biologyMembrane proteinCell cultureProteolysisMicroscopy Electron ScanningEnzymologybiology.proteinlcsh:QCollagensDevelopmental BiologyPLOS ONE
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Type-II transmembrane prolyl dipeptidases and matrix metalloproteinases in membrane vesicles of active endothelial cells.

2006

Conclusions: Endothelia cells in sparse culture are migratory and increase the production of gelatinases of serine- and metallo-classes in membrane vesicles. Collectively, proteases associated with membrane vesicles degrade extracellular matrix components including type-I and type-IV collagens, laminin and fibronectin. Inhibitor studies suggest the existence of small gelatinases that were derived from these serine- and metallo-proteases. Thus, further studies are warranted to demonstrate the cooperative action of metallo- and serine proteases on cell surfaces and in extracellular vesicles during endothelial cell migration in 3D collagenous matrices, and potential proteolytic activation mech…

TUMOR-CELLSCell MembraneBREAST-CARCINOMA CELLSEndothelial CellsUP-REGULATIONANGIOGENESISMatrix MetalloproteinasesExtracellular MatrixACTIVATIONEnzyme ActivationNEUROPEPTIDE-YCell MovementSEPRASESettore BIO/10 - BiochimicaMETASTASISPEPTIDASE-IVHumansDipeptidyl-Peptidases and Tripeptidyl-PeptidasesINTEGRINCells CulturedAdvances in experimental medicine and biology
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Activation of EDTA-resistant Gelatinases in Malignant Human Tumors

2006

Abstract Among the many proteases associated with human cancer, seprase or fibroblast activation protein α, a type II transmembrane glycoprotein, has two types of EDTA-resistant protease activities: dipeptidyl peptidase and a 170-kDa gelatinase activity. To test if activation of gelatinases associated with seprase could be involved in malignant tumors, we used a mammalian expression system to generate a soluble recombinant seprase (r-seprase). In the presence of putative EDTA-sensitive activators, r-seprase was converted into 70- to 50-kDa shortened forms of seprase (s-seprase), which exhibited a 7-fold increase in gelatinase activity, whereas levels of dipeptidyl peptidase activity remaine…

Models MolecularCancer ResearchProteasesProtein ConformationDipeptidyl-peptidase activityIn situ hybridizationBiologyDipeptidyl peptidaseArticleCell LineFibroblast activation protein alphaNeoplasmsEndopeptidasesmedicineGelatinaseAnimalsHumansDipeptidyl-Peptidases and Tripeptidyl-PeptidasesEdetic AcidSerine EndopeptidasesMembrane ProteinsHaplorhinimedicine.diseaseRecombinant Proteinsseprase fibroblast activation protein alpha (FAP-α) gelatinase activation malignant tumorEnzyme ActivationOncologyBiochemistryGelatinasesCancer researchImmunohistochemistryAdenocarcinoma
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