Microplitis demolitor bracovirus inhibits phagocytosis by hemocytes from Pseudoplusia includens

• Published in: Archives of insect biochemistry and physiology Vol. 61; no. 3; pp. 134 - 145
• Main Authors: Strand, M.R, Beck, M.H, Lavine, M.D, Clark, K.D
• Format: Journal Article
• Language: English
• Published: Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.03.2006
• Subjects: Animals; Braconidae; Bracovirus; cell adhesion; cell-mediated immunity; encapsulation; Escherichia coli; Granulocytes - immunology; hemocyte; hemocytes; Hemocytes - immunology; Hemocytes - virology; hemocytic encapsulation; host immunosuppression; Host-Parasite Interactions - genetics; Host-Parasite Interactions - immunology; Host-Parasite Interactions - physiology; host-parasite relationships; Hymenoptera; immune evasion; immune response; immunity; insect; insect granulocytes; insect immunity; Microplitis demolitor; Microplitis demolitor bracovirus; Moths - immunology; Moths - parasitology; Moths - virology; Noctuidae; parasitoids; Phagocytes - immunology; phagocytosis; Phagocytosis - genetics; Phagocytosis - immunology; Phagocytosis - physiology; Polydnaviridae - genetics; Polydnaviridae - immunology; Polydnaviridae - physiology; polydnavirus; Pseudoplusia includens; RNA Interference; viral genes; Viral Proteins - genetics; Viral Proteins - immunology; Wasps - immunology; Wasps - physiology; Wasps - virology
• ISSN: 0739-4462; 1520-6327
• DOI: 10.1002/arch.20107

The braconid wasp Microplitis demolitor carries Microplitis demolitor bracovirus (MdBV) and parasitizes the larval stage of several noctuid moths. A key function of MdBV in parasitism is suppression of the host's cellular immune response. Prior studies in the host Pseudoplusia includens indicated that MdBV blocks encapsulation by preventing two types of hemocytes, plasmatocytes and granulocytes, from adhering to foreign targets. The other main immune response mediated by insect hemocytes is phagocytosis. The goal of this study was to determine which hemocyte types were phagocytic in P. includens and to assess whether MdBV infection affects this defense response. Using the bacterium Escherichia coli and inert polystyrene beads as targets, our results indicated that the professional phagocyte in P. includens is granulocytes. The phagocytic responses of granulocytes were very similar to those of High Five cells that prior studies have suggested are a granulocyte-like cell line. MdBV infection dose-dependently disrupted phagocytosis in both cell types by inhibiting adhesion of targets to the cell surface. The MdBV glc1.8 gene encodes a cell surface glycoprotein that had previously been implicated in disruption of adhesion and encapsulation responses by immune cells. Knockdown of glc1.8 expression by RNA interference (RNAi) during the current study rescued the ability of MdBV-infected High Five cells to phagocytize targets. Collectively, these results indicate that glc1.8 is a key virulence determinant in disruption of both adhesion and phagocytosis by insect immune cells.