Strategies for targeting tetraspanin proteins: potential therapeutic applications in microbial infections.
Identifieur interne : 001798 ( PubMed/Corpus ); précédent : 001797; suivant : 001799Strategies for targeting tetraspanin proteins: potential therapeutic applications in microbial infections.
Auteurs : Noha Hassuna ; Peter N. Monk ; Gregory W. Moseley ; Lynda J. PartridgeSource :
- BioDrugs : clinical immunotherapeutics, biopharmaceuticals and gene therapy [ 1179-190X ] ; 2009.
English descriptors
- KwdEn :
- Amino Acid Sequence, Animals, Anti-Infective Agents (administration & dosage), Anti-Infective Agents (metabolism), Antigens, CD (biosynthesis), Antigens, CD (metabolism), Bacterial Infections (metabolism), Bacterial Infections (therapy), Drug Delivery Systems (methods), Drug Delivery Systems (trends), Humans, Membrane Proteins (biosynthesis), Membrane Proteins (metabolism), Molecular Sequence Data, Platelet Membrane Glycoproteins (biosynthesis), Platelet Membrane Glycoproteins (metabolism), Tetraspanin 30, Virus Diseases (metabolism), Virus Diseases (therapy).
- MESH :
- chemical , administration & dosage : Anti-Infective Agents.
- chemical , biosynthesis : Antigens, CD, Membrane Proteins, Platelet Membrane Glycoproteins.
- chemical , metabolism : Anti-Infective Agents, Antigens, CD, Membrane Proteins, Platelet Membrane Glycoproteins.
- metabolism : Bacterial Infections, Virus Diseases.
- methods : Drug Delivery Systems.
- therapy : Bacterial Infections, Virus Diseases.
- trends : Drug Delivery Systems.
- Amino Acid Sequence, Animals, Humans, Molecular Sequence Data, Tetraspanin 30.
Abstract
The identification of novel targets and strategies for therapy of microbial infections is an area of intensive research due to the failure of conventional vaccines or antibiotics to combat both newly emerging diseases (e.g. viruses such as severe acute respiratory syndrome (SARS) and new influenza strains, and antibiotic-resistant bacteria) and entrenched, pandemic diseases exemplified by HIV. One clear approach to this problem is to target processes of the host organism rather than the microbe. Recent data have indicated that members of the tetraspanin superfamily, proteins with a widespread distribution in eukaryotic organisms and 33 members in humans, may provide such an approach. Tetraspanins traverse the membrane four times, but are distinguished from other four-pass membrane proteins by the presence of conserved charged residues in the transmembrane domains and a defining 'signature' motif in the larger of the two extracellular domains (the EC2). They characteristically form promiscuous associations with one another and with other membrane proteins and lipids to generate a specialized type of microdomain: the tetraspanin-enriched microdomain (TEM). TEMs are integral to the main role of tetraspanins as 'molecular organizers' involved in functions such as membrane trafficking, cell-cell fusion, motility, and signaling. Increasing evidence demonstrates that tetraspanins are used by intracellular pathogens as a means of entering and replicating within human cells. Although previous investigations focused mainly on viruses such as hepatitis C and HIV, it is now becoming clear that other microbes associate with tetraspanins, using TEMs as a 'gateway' to infection. In this article we review the properties and functions of tetraspanins/TEMs that are relevant to infective processes and discuss the accumulating evidence that shows how different pathogens exploit these properties in infection and in the pathogenesis of disease. We then investigate the novel and exciting possibilities of targeting tetraspanins for the treatment of infectious disease, using specific antibodies, recombinant EC2 domains, small-molecule mimetics, and small interfering RNA. Such therapies, directed at host-cell molecules, may provide alternative options for combating fast-mutating or newly emerging pathogens, where conventional approaches face difficulties.
DOI: 10.2165/11315650-000000000-00000
PubMed: 19894777
Links to Exploration step
pubmed:19894777Le document en format XML
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One clear approach to this problem is to target processes of the host organism rather than the microbe. Recent data have indicated that members of the tetraspanin superfamily, proteins with a widespread distribution in eukaryotic organisms and 33 members in humans, may provide such an approach. Tetraspanins traverse the membrane four times, but are distinguished from other four-pass membrane proteins by the presence of conserved charged residues in the transmembrane domains and a defining 'signature' motif in the larger of the two extracellular domains (the EC2). They characteristically form promiscuous associations with one another and with other membrane proteins and lipids to generate a specialized type of microdomain: the tetraspanin-enriched microdomain (TEM). TEMs are integral to the main role of tetraspanins as 'molecular organizers' involved in functions such as membrane trafficking, cell-cell fusion, motility, and signaling. Increasing evidence demonstrates that tetraspanins are used by intracellular pathogens as a means of entering and replicating within human cells. Although previous investigations focused mainly on viruses such as hepatitis C and HIV, it is now becoming clear that other microbes associate with tetraspanins, using TEMs as a 'gateway' to infection. In this article we review the properties and functions of tetraspanins/TEMs that are relevant to infective processes and discuss the accumulating evidence that shows how different pathogens exploit these properties in infection and in the pathogenesis of disease. We then investigate the novel and exciting possibilities of targeting tetraspanins for the treatment of infectious disease, using specific antibodies, recombinant EC2 domains, small-molecule mimetics, and small interfering RNA. Such therapies, directed at host-cell molecules, may provide alternative options for combating fast-mutating or newly emerging pathogens, where conventional approaches face difficulties.</div></front></TEI><pubmed><MedlineCitation Status="MEDLINE" Owner="NLM"><PMID Version="1">19894777</PMID><DateCompleted><Year>2010</Year><Month>07</Month><Day>23</Day></DateCompleted><DateRevised><Year>2020</Year><Month>03</Month><Day>28</Day></DateRevised><Article PubModel="Print"><Journal><ISSN IssnType="Electronic">1179-190X</ISSN><JournalIssue CitedMedium="Internet"><Volume>23</Volume><Issue>6</Issue><PubDate><Year>2009</Year></PubDate></JournalIssue><Title>BioDrugs : clinical immunotherapeutics, biopharmaceuticals and gene therapy</Title><ISOAbbreviation>BioDrugs</ISOAbbreviation></Journal><ArticleTitle>Strategies for targeting tetraspanin proteins: potential therapeutic applications in microbial infections.</ArticleTitle><Pagination><MedlinePgn>341-59</MedlinePgn></Pagination><ELocationID EIdType="doi" ValidYN="Y">10.2165/11315650-000000000-00000</ELocationID><Abstract><AbstractText>The identification of novel targets and strategies for therapy of microbial infections is an area of intensive research due to the failure of conventional vaccines or antibiotics to combat both newly emerging diseases (e.g. viruses such as severe acute respiratory syndrome (SARS) and new influenza strains, and antibiotic-resistant bacteria) and entrenched, pandemic diseases exemplified by HIV. One clear approach to this problem is to target processes of the host organism rather than the microbe. Recent data have indicated that members of the tetraspanin superfamily, proteins with a widespread distribution in eukaryotic organisms and 33 members in humans, may provide such an approach. Tetraspanins traverse the membrane four times, but are distinguished from other four-pass membrane proteins by the presence of conserved charged residues in the transmembrane domains and a defining 'signature' motif in the larger of the two extracellular domains (the EC2). They characteristically form promiscuous associations with one another and with other membrane proteins and lipids to generate a specialized type of microdomain: the tetraspanin-enriched microdomain (TEM). TEMs are integral to the main role of tetraspanins as 'molecular organizers' involved in functions such as membrane trafficking, cell-cell fusion, motility, and signaling. Increasing evidence demonstrates that tetraspanins are used by intracellular pathogens as a means of entering and replicating within human cells. Although previous investigations focused mainly on viruses such as hepatitis C and HIV, it is now becoming clear that other microbes associate with tetraspanins, using TEMs as a 'gateway' to infection. In this article we review the properties and functions of tetraspanins/TEMs that are relevant to infective processes and discuss the accumulating evidence that shows how different pathogens exploit these properties in infection and in the pathogenesis of disease. We then investigate the novel and exciting possibilities of targeting tetraspanins for the treatment of infectious disease, using specific antibodies, recombinant EC2 domains, small-molecule mimetics, and small interfering RNA. 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