Open AccessCutting Edge: Rho Activation and Actin Polarization Are Dependent on Plexin-A1 in Dendritic Cells
Author(s) -
So-Young Eun,
Brian P. O’Connor,
Athena W. Wong,
Hendrick W. van Deventer,
Debra J. Taxman,
William Reed,
Ping Li,
Janice S. Blum,
Karen P. McKin,
Jenny P.Y. Ting
Publication year - 2006
Publication title -
the journal of immunology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.737
H-Index - 372
eISSN - 1550-6606
pISSN - 0022-1767
DOI - 10.4049/jimmunol.177.7.4271
Subject(s) - microbiology and biotechnology , cdc42 , plexin , cell polarity , small hairpin rna , actin cytoskeleton , actin , cytoskeleton , semaphorin , immunological synapse , biology , chemistry , immune system , t cell , receptor , cell , rna , t cell receptor , immunology , gene , biochemistry , genetics , axon guidance , axon
We recently identified expression of the semaphorin receptor, plexin-A1, in dendritic cells (DCs); however, its function in these cells remains to be elucidated. To investigate function and maximize physiological relevance, we devised a retroviral approach to ablate plexin-A1 gene expression using small hairpin RNA (shRNA) in primary bone marrow-derived DCs. We show that plexin-A1 localizes within the cytoplasm of immature DCs, becomes membrane-associated, and is enriched at the immune synapse in mature DCs. Reducing plexin-A1 expression with shRNA greatly reduced actin polarization as well as Rho activation without affecting Rac or Cdc42 activation. A Rho inhibitor, C3, also reduced actin polarization. These changes were accompanied by the near-ablation of T cell activation. We propose a mechanism of adaptive immune regulation in which plexin-A1 controls Rho activation and actin cytoskeletal rearrangements in DCs that is associated with enhanced DC-T cell interactions.
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