The Primate Lentiviral Receptor Bonzo/STRL33 Is Coordinately Regulated with CCR5 and Its Expression Pattern Is Conserved Between Human and Mouse

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The Primate Lentiviral Receptor Bonzo/STRL33 Is Coordinately Regulated with CCR5 and Its Expression Pattern Is Conserved Between Human and Mouse¹

Derya Unutmaz²^,*, Wenkai Xiang^*, Mary Jean Sunshine^*^,, Jim Campbell, Eugene Butcher and Dan R. Littman³^,*^,

^* Molecular Pathogenesis Program, Skirball Institute of Biomolecular Medicine, New York University Medical Center, and Howard Hughes Medical Institute, New York, NY 10016; and Laboratory of Immunology and Vascular Biology, Department of Pathology, Stanford University School of Medicine, Stanford, CA 94305

Chemokines play necessary and important roles in regulatingthe trafficking of lymphocytes to intra- or interlymphoid tissuesas well as to sites of inflammation. The complex migratory patternsof lymphoid lineage cells is governed by subset-specific expressionof chemokine receptors and their access to specific ligands.Several chemokine receptors and chemokine receptor-like orphanreceptors also serve, in conjunction with CD4, as coreceptorsfor infection by human and simian immunodeficiency viruses (HIVand SIV). Here we show that the expression pattern of Bonzo/STRL33,an orphan SIV/HIV coreceptor, is highly restricted to the memorysubset of T cells and is up-regulated upon stimulation of thesecells with IL-2 or IL-15. Both the pattern and the regulationof Bonzo expression closely paralleled that of CC family chemokinereceptors CCR5 or CCR6 and inversely correlated with CXCR4 expression.However, in striking contrast to CCR5, Bonzo expression wasnot down-modulated by PMA or mitogen stimulation of T cells.Targeted replacement of the Bonzo gene with a gene encodinggreen fluorescent protein in mice revealed that the expressionand cytokine regulation of mouse Bonzo are comparable to thoseof its human counterpart. The similar expression and regulationpatterns of Bonzo and the HIV coreceptor CCR5 may have implicationsfor understanding the role of HIV/SIV receptors in viral evolutionand pathogenesis.

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The Primate Lentiviral Receptor Bonzo/STRL33 Is Coordinately Regulated with CCR5 and Its Expression Pattern Is Conserved Between Human and Mouse1

The Primate Lentiviral Receptor Bonzo/STRL33 Is Coordinately Regulated with CCR5 and Its Expression Pattern Is Conserved Between Human and Mouse¹

				M. Heydtmann, P. F. Lalor, J. A. Eksteen, S. G. Hubscher, M. Briskin, and D. H. Adams CXC Chemokine Ligand 16 Promotes Integrin-Mediated Adhesion of Liver-Infiltrating Lymphocytes to Cholangiocytes and Hepatocytes within the Inflamed Human Liver J. Immunol., January 15, 2005; 174(2): 1055 - 1062. [Abstract] [Full Text] [PDF]

				T. Sato, H. Thorlacius, B. Johnston, T. L. Staton, W. Xiang, D. R. Littman, and E. C. Butcher Role for CXCR6 in Recruitment of Activated CD8+ Lymphocytes to Inflamed Liver J. Immunol., January 1, 2005; 174(1): 277 - 283. [Abstract] [Full Text] [PDF]

				D. M. Wuttge, X. Zhou, Y. Sheikine, D. Wagsater, V. Stemme, U. Hedin, S. Stemme, G. K. Hansson, and A. Sirsjo CXCL16/SR-PSOX Is an Interferon-{gamma}-Regulated Chemokine and Scavenger Receptor Expressed in Atherosclerotic Lesions Arterioscler Thromb Vasc Biol, April 1, 2004; 24(4): 750 - 755. [Abstract] [Full Text] [PDF]

				B. Chandrasekar, S. Bysani, and S. Mummidi CXCL16 Signals via Gi, Phosphatidylinositol 3-Kinase, Akt, I{kappa}B Kinase, and Nuclear Factor-{kappa}B and Induces Cell-Cell Adhesion and Aortic Smooth Muscle Cell Proliferation J. Biol. Chem., January 30, 2004; 279(5): 3188 - 3196. [Abstract] [Full Text] [PDF]

				B. Johnston, C. H. Kim, D. Soler, M. Emoto, and E. C. Butcher Differential Chemokine Responses and Homing Patterns of Murine TCR{alpha}{beta} NKT Cell Subsets J. Immunol., September 15, 2003; 171(6): 2960 - 2969. [Abstract] [Full Text] [PDF]

				T. Cilliers, J. Nhlapo, M. Coetzer, D. Orlovic, T. Ketas, W. C. Olson, J. P. Moore, A. Trkola, and L. Morris The CCR5 and CXCR4 Coreceptors Are Both Used by Human Immunodeficiency Virus Type 1 Primary Isolates from Subtype C J. Virol., April 1, 2003; 77(7): 4449 - 4456. [Abstract] [Full Text] [PDF]

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