Literature DB >> 24522698

Function of the tetraspanin molecule CD81 in B and T cells.

Shoshana Levy1.   

Abstract

A case of a young girl diagnosed with an antibody deficiency syndrome serves to highlight the role of CD81 in B cell biology. Moreover, this case illustrates a fundamental function of the tetraspanin family, namely their association with partner proteins. Characterization of the patient's B cells revealed lack of surface CD19 although both of her CD19 alleles were normal. Further analysis determined that her antibody deficiency syndrome was due to a mutation in the CD81 gene, which did not enable expression of CD19 on the surface of the patient's B cells. Actually, the partnership of CD81 with CD19 and the dependency of CD19 for its trafficking to the cell surface expression were first documented in CD81-deficient mice. CD81 is a widely expressed protein, yet the mutation in the antibody-deficient patient impaired mostly her B cell function. CD81 is required for multiple normal physiological functions, which have been subverted by major human pathogens, such as hepatitis C virus. However, this review will focus on the function of CD81 in cells of the adaptive immune system. Specifically, it will highlight studies focusing on the different roles of CD81 in B and T cells and on its function in B-T cell interactions.

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Year:  2014        PMID: 24522698     DOI: 10.1007/s12026-014-8490-7

Source DB:  PubMed          Journal:  Immunol Res        ISSN: 0257-277X            Impact factor:   2.829


  59 in total

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2.  Dynamics within tetraspanin pairs affect MHC class II expression.

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Authors:  Margot Fournier; Marion Peyrou; Lucie Bourgoin; Christine Maeder; Isabelle Tchou; Michelangelo Foti
Journal:  Mol Immunol       Date:  2010-08-23       Impact factor: 4.407

4.  Normal development but differentially altered proliferative responses of lymphocytes in mice lacking CD81.

Authors:  T Miyazaki; U Müller; K S Campbell
Journal:  EMBO J       Date:  1997-07-16       Impact factor: 11.598

5.  Engagement of CD81 induces ezrin tyrosine phosphorylation and its cellular redistribution with filamentous actin.

Authors:  Greg P Coffey; Ranjani Rajapaksa; Raymond Liu; Orr Sharpe; Chiung-Chi Kuo; Sharon Wald Krauss; Yael Sagi; R Eric Davis; Louis M Staudt; Jeff P Sharman; William H Robinson; Shoshana Levy
Journal:  J Cell Sci       Date:  2009-08-04       Impact factor: 5.285

6.  Impaired CD19 expression and signaling, enhanced antibody response to type II T independent antigen and reduction of B-1 cells in CD81-deficient mice.

Authors:  E N Tsitsikov; J C Gutierrez-Ramos; R S Geha
Journal:  Proc Natl Acad Sci U S A       Date:  1997-09-30       Impact factor: 11.205

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Authors:  T Imai; M Kakizaki; M Nishimura; O Yoshie
Journal:  J Immunol       Date:  1995-08-01       Impact factor: 5.422

8.  CD81 gene defect in humans disrupts CD19 complex formation and leads to antibody deficiency.

Authors:  Menno C van Zelm; Julie Smet; Brigitte Adams; Françoise Mascart; Liliane Schandené; Françoise Janssen; Alina Ferster; Chiung-Chi Kuo; Shoshana Levy; Jacques J M van Dongen; Mirjam van der Burg
Journal:  J Clin Invest       Date:  2010-03-08       Impact factor: 14.808

9.  CD81 extracellular domain 3D structure: insight into the tetraspanin superfamily structural motifs.

Authors:  K Kitadokoro; D Bordo; G Galli; R Petracca; F Falugi; S Abrignani; G Grandi; M Bolognesi
Journal:  EMBO J       Date:  2001-01-15       Impact factor: 11.598

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Authors:  Elisabetta Soldaini; Andreas Wack; Ugo D'Oro; Sandra Nuti; Cristina Ulivieri; Cosima T Baldari; Sergio Abrignani
Journal:  Eur J Immunol       Date:  2003-02       Impact factor: 5.532
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2.  The DNA methylation profile of activated human natural killer cells.

Authors:  John K Wiencke; Rondi Butler; George Hsuang; Melissa Eliot; Stephanie Kim; Manuel A Sepulveda; Derick Siegel; E Andres Houseman; Karl T Kelsey
Journal:  Epigenetics       Date:  2016-03-11       Impact factor: 4.528

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4.  Differential Expression of CD43, CD81, and CD200 in Classic Versus Variant Hairy Cell Leukemia.

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Review 5.  Insights into the Critical Role of Exosomes in the Brain; from Neuronal Activity to Therapeutic Effects.

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8.  B Cell-Intrinsic Expression of the HuR RNA-Binding Protein Is Required for the T Cell-Dependent Immune Response In Vivo.

Authors:  Amy DeMicco; Martin S Naradikian; Vishal J Sindhava; Je-Hyun Yoon; Myriam Gorospe; Gerald B Wertheim; Michael P Cancro; Craig H Bassing
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9.  Central human B cell tolerance manifests with a distinctive cell phenotype and is enforced via CXCR4 signaling in hu-mice.

Authors:  Thiago Alves da Costa; Jacob N Peterson; Julie Lang; Jeremy Shulman; Xiayuan Liang; Brian M Freed; Susan A Boackle; Pilar Lauzurica; Raul M Torres; Roberta Pelanda
Journal:  Proc Natl Acad Sci U S A       Date:  2021-04-20       Impact factor: 11.205

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