Search results for "Tetraspanins"

showing 7 items of 7 documents

Inhibition of tetraspanin functions impairs human papillomavirus and cytomegalovirus infections

2018

Tetraspanins are suggested to regulate the composition of cell membrane components and control intracellular transport, which leaves them vulnerable to utilization by pathogens such as human papillomaviruses (HPV) and cytomegaloviruses (HCMV) to facilitate host cell entry and subsequent infection. In this study, by means of cellular depletion, the cluster of differentiation (CD) tetraspanins CD9, CD63, and CD151 were found to reduce HPV16 infection in HeLa cells by 50 to 80%. Moreover, we tested recombinant proteins or peptides of specific tetraspanin domains on their effect on the most oncogenic HPV type, HPV16, and HCMV. We found that the C-terminal tails of CD63 and CD151 significantly i…

0301 basic medicineHuman cytomegalovirusMaleTelomeraseTetraspaninsviruses610 MedizinCytomegalovirusIC50virus entrylcsh:ChemistryTetraspanin610 Medical scienceshuman papillomaviruslcsh:QH301-705.5SpectroscopyHuman papillomavirus 16virus diseasesGeneral MedicineBiología y Biomedicina / BiologíaEntry into hostComputer Science ApplicationsCytomegalovirus Infectionsembryonic structuresIC<sub>50</sub>HPV16BiologyCatalysisArticleInorganic Chemistry03 medical and health sciencesInhibitory Concentration 50AntigenViral entrymedicineHumansddc:610Physical and Theoretical ChemistryHumanes PapillomavirusMolecular BiologyCluster of differentiationOrganic ChemistryVirus internalizationCytomegalie-VirusIC 50Human papillomavirus virusesmedicine.diseaseVirologyHaCaT030104 developmental biologytetraspaninlcsh:Biology (General)lcsh:QD1-999human cytomegalovirusPeptidesDDC 610 / Medicine & healthblocking peptideHeLa Cells

researchProduct

Identification of the Tetraspanin CD9 as an Interaction Partner of Organic Cation Transporters 1 and 2

2019

Organic cation transporters (OCTs) are membrane proteins with relevant physiological (because they accept neurotransmitters as substrate) and pharmacological (because of their interaction with drugs) roles. The human OCTs hOCT1 (SLC22A1/hOCT1) and hOCT2 (SLC22A2/hOCT2) are highly expressed in hepatic (hOCT1) and in renal and neuronal tissue (hOCT2), suggesting a possible role in modulating neurotransmitter activity in the liver, kidney, and brain, and their clearance from the blood. Even though there are several data demonstrating that OCTs are regulated under various patho-physiological conditions, it remains largely unknown which proteins directly interact with OCTs and thereby influence …

0301 basic medicineTetraspaninsEndosome610BiochemistryInteractomeTetraspanin 29Madin Darby Canine Kidney CellsAnalytical Chemistry03 medical and health sciencesDogs610 Medical sciences MedicineTetraspaninAnimalsHumansCellular localizationOrganic cation transport proteins030102 biochemistry & molecular biologybiologyChemistryCell MembraneMembrane ProteinsOrganic Cation Transporter 2TransporterCompartmentalization (psychology)Cell biologyProtein TransportHEK293 Cells030104 developmental biologyMembrane proteinembryonic structuresbiology.proteinMolecular MedicineOctamer Transcription Factor-1Biotechnology

researchProduct

Quantitative characterization of tetraspanin 8 homointeractions in the plasma membrane

2021

The spatial distribution of proteins in cell membranes is crucial for signal transduction, cell communication and membrane trafficking. Members of the Tetraspanin family organize functional protein clusters within the plasma membrane into so-called Tetraspanin-enriched microdomains (TEMs). Direct interactions between Tetraspanins are believed to be important for this organization. However, studies thus far have utilized mainly co-immunoprecipitation methods that cannot distinguish between direct and indirect, through common partners, interactions. Here we study Tetraspanin 8 homointeractions in living cells via quantitative fluorescence microscopy. We demonstrate that Tetraspanin 8 exists i…

Cell signalingTetraspaninsLipoylationDimerTransfectionBiochemistryArticleProtein–protein interactionchemistry.chemical_compoundMembrane MicrodomainsTetraspaninFluorescence Resonance Energy TransferHumansMolecular BiologyChemistryCell BiologyDissociation constantHEK293 CellsMembraneMicroscopy FluorescenceMembrane proteinembryonic structuresBiophysicsThermodynamicsProtein MultimerizationSignal transductionSignal TransductionBiochemical Journal

researchProduct

Tetraspanins in infections by human cytomegalo- and papillomaviruses

2017

Members of the tetraspanin family have been identified as essential cellular membrane proteins in infectious diseases by nearly all types of pathogens. The present review highlights recently published data on the role of tetraspanin CD151, CD81, and CD63 and their interaction partners in host cell entry by human cytomegalo- and human papillomaviruses. Moreover, we discuss a model for tetraspanin assembly into trafficking platforms at the plasma membrane. These platforms might persist during intracellular viral trafficking.

Models Molecular0301 basic medicineCellular membraneTetraspaninsCytomegalovirusTetraspanin 24BiologyEndocytosismedicine.disease_causeBiochemistryTetraspanin 28Viral Proteins03 medical and health sciencesTetraspaninmedicineHumansPapillomaviridaeCD151Tetraspanin 30Cell MembranePapillomavirus InfectionsCytomegalovirusVirus InternalizationVirologyCell biology030104 developmental biologyCytomegalovirus Infectionsembryonic structuresIntracellularCD81Biochemical Society Transactions

researchProduct

Classes of non-conventional tetraspanins defined by alternative splicing

2019

AbstractTetraspanins emerge as a family of membrane proteins mediating an exceptional broad diversity of functions. The naming refers to their four transmembrane segments, which define the tetraspanins‘ typical membrane topology. In this study, we analyzed alternative splicing of tetraspanins. Besides isoforms with four transmembrane segments, most mRNA sequences are coding for isoforms with one, two or three transmembrane segments, representing structurally mono-, di- and trispanins. Moreover, alternative splicing may alter transmembrane topology, delete parts of the large extracellular loop, or generate alternative N- or C-termini. As a result, we define structure-based classes of non-con…

ProteomicsGene isoformRNA splicingTetraspaninslcsh:MedicineComputational biologyBiologyEndoplasmic ReticulumArticleStructure-Activity Relationship03 medical and health sciences0302 clinical medicineIsomerismHumanslcsh:ScienceGene030304 developmental biology0303 health sciencesMultidisciplinarylcsh:RAlternative splicingLipid microdomainMembrane ProteinsTransmembrane proteinAlternative SplicingMembrane protein030220 oncology & carcinogenesisMembrane topologyembryonic structureslcsh:QStructural biologyFunction (biology)Scientific Reports

researchProduct

Synaptic tetraspan vesicle membrane proteins are conserved but not needed for synaptogenesis and neuronal function in Caenorhabditis elegans

2006

Tetraspan vesicle membrane proteins (TVPs) comprise a major portion of synaptic vesicle proteins, yet their contribution to the synaptic vesicle cycle is poorly understood. TVPs are grouped in three mammalian gene families: physins, gyrins, and secretory carrier-associated membrane proteins (SCAMPs). In Caenorhabditis elegans , only a single member of each of these families exists. These three nematode TVPs colocalize to the same vesicular compartment when expressed in mammalian cells, suggesting that they could serve overlapping functions. To examine their function, C. elegans null mutants were isolated for each gene, and a triple mutant was generated. Surprisingly, these animals develop …

TetraspaninsMutantSynaptogenesisSynaptic vesicleEvolution MolecularAnimalsHumansCloning MolecularCaenorhabditis elegansIntegral membrane proteinCells CulturedCaenorhabditis elegansNeuronsMultidisciplinaryModels GeneticbiologyChemotaxisCell MembraneMembrane ProteinsBiological Sciencesbiology.organism_classificationSynaptic vesicle cycleCell biologyElectrophysiologyMembrane proteinMutationSynapsesSynaptophysinbiology.proteinProceedings of the National Academy of Sciences

researchProduct

2018

Tetraspanins (Tspans) are a family of four-span transmembrane proteins, known as plasma membrane “master organizers.” They form Tspan-enriched microdomains (TEMs or TERMs) through lateral association with one another and other membrane proteins. If multiple microdomains associate with each other, larger platforms can form. For infection, viruses interact with multiple cell surface components, including receptors, activating proteases, and signaling molecules. It appears that Tspans, such as CD151, CD82, CD81, CD63, CD9, Tspan9, and Tspan7, coordinate these associations by concentrating the interacting partners into Tspan platforms. In addition to mediating viral attachment and entry, these …

lcsh:Immunologic diseases. Allergy0301 basic medicineCell signalingTetraspaninsMini ReviewreceptorImmunology610 MedizinbuddingvirusBiologyVirusStructure-Activity Relationship03 medical and health sciencesMembrane MicrodomainsTetraspanintrafficking610 Medical sciencesAnimalsHumansendocytosisImmunology and Allergy030102 biochemistry & molecular biologymicrodomainLipid microdomainMembrane ProteinsVirus InternalizationTransmembrane proteinCell biologytetraspanin030104 developmental biologyMembrane proteinViral replicationVirus DiseasesHost-Pathogen Interactionsentrylcsh:RC581-607BiomarkersCD81Frontiers in Immunology

researchProduct