Interaction between complement receptor gC1qR and hepatitis C virus core protein inhibits T-lymphocyte proliferation
David J. Kittlesen, Kimberly A. Chianese-Bullock, Zhi Qiang Yao, Thomas J. Braciale, Young S. Hahn
David J. Kittlesen, Kimberly A. Chianese-Bullock, Zhi Qiang Yao, Thomas J. Braciale, Young S. Hahn
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Interaction between complement receptor gC1qR and hepatitis C virus core protein inhibits T-lymphocyte proliferation

Abstract

Hepatitis C virus (HCV) is an important human pathogen that is remarkably efficient at establishing persistent infection. The HCV core protein is the first protein expressed during the early phase of HCV infection. Our previous work demonstrated that the HCV core protein suppresses host immune responses, including anti-viral cytotoxic T-lymphocyte responses in a murine model. To investigate the mechanism of HCV core-mediated immunosuppression, we searched for host proteins capable of associating with the core protein using a yeast two-hybrid system. Using the core protein as bait, we screened a human T cell–enriched expression library and identified a gene encoding the gC1q receptor (gC1qR). C1q is a ligand of gC1qR and is involved in the early host defense against infection. Like C1q, HCV core can inhibit T-cell proliferative responses in vitro. This core-induced anti–T-cell proliferation is reversed by addition of anti-gC1qR Ab in a T-cell proliferation assay. Furthermore, biochemical analysis of the interaction between core and gC1qR indicates that HCV core binds the region spanning amino acids 188 to 259 of gC1qR, a site distinct from the binding region of C1q. The inhibition of T-cell responsiveness by HCV core may have important implications for HCV persistence in humans.

Authors

David J. Kittlesen, Kimberly A. Chianese-Bullock, Zhi Qiang Yao, Thomas J. Braciale, Young S. Hahn

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Identification of gC1qR-binding region to HCV core protein. (a) Diagram ...
Identification of gC1qR-binding region to HCV core protein. (a) Diagram for deletion constructs. The COOH-terminal deletion constructs of gC1qR (amino acids 46–259, 46–187, 46–115) were generated by site-directed mutagenesis. The resulting plasmids were inserted into the pCI:neo vector to allow the in vitro transcription and translation. (b) GST-binding assay. The truncated forms of gC1qR as shown in the diagram were labeled with 35S-methionine by in vitro transcription and translation reaction. Asterisks indicate the correct size of truncated form of gC1qR. Minor bands present in the left panel represent the preterminated protein during in vitro transcription and translation. 35S-methionine–labeled truncation forms of gC1qR were examined for their binding ability to the GST-core fusion protein. Lane 1: radiolabeled gC1qR 46–115 (17.5 kDa); lane 2: radiolabeled gC1qR 46–187 (25.5 kDa); lane 3: radiolabeled gC1qR 46–259 (33.8 kDa); lane 4: radiolabeled gC1qR 1–282 (39 kDa); lane 5: GST-core/gC1qR 46–115; lane 6: GST-core/gC1qR 46–187; lane 7: GST-core/gC1qR 46–259; lane 8: GST-core/gC1qR 1–282. (c) GST-binding assay with GST-truncated forms of gC1qR fusion protein and 35S-methionine–labeled core protein. Lane 1: radiolabeled core (21 kDa); lane 2: GST alone; lane 3: GST-gC1qR 1–282/core; lane 4: GST-gC1qR 46–259/core; lane 5: GST-gC1qR 46–187/core; lane 6: GST-gC1qR 46–115/core. (d) GST binding assay with GST-core and 35S-methionine–labeled gC1qR 188–259. Lane 1: radiolabeled gC1qR 188–259 (8.4 kDa); lane 2: GST alone; lane 3: GST-core/gC1qR 188–259.