Vaccinia virus strains use distinct forms of macropinocytosis for host-cell entry

To enter host cells, vaccinia virus, a prototype poxvirus, can induce transient macropinocytosis followed by endocytic internalization and penetration through the limiting membrane of pinosomes by membrane fusion. Although mature virions (MVs) of the Western reserve (WR) strain do this in HeLa cells by activating transient plasma membrane blebbing, MVs from the International Health Department-J strain were found to induce rapid formation (and lengthening) of filopodia. When the signaling pathways underlying these responses were compared, differences were observed at the level of Rho GTPases. Key to the filopodial formation was the virus-induced activation of Cdc42, and for the blebbing response the activation of Rac1. In addition, unlike WR, International Health Department-J MVs did not rely on genistein-sensitive tyrosine kinase and PI(3)K activities. Only WR MVs had membrane fusion activity at low pH. Inhibitor profiling showed that MVs from both strains entered cells by macropinocytosis and that this was induced by virion-exposed phosphatidylserine. Both MVs relied on the activation of epidermal growth factor receptor, on serine/threonine kinases, protein kinase C, and p21-activated kinase 1. The results showed that different strains of the same virus can elicit dramatically different responses in host cells during entry, and that different macropinocytic mechanisms are possible in the same cell line through subtle differences in the activating ligand.

[1]  A. Helenius,et al.  Pathway of vesicular stomatitis virus entry leading to infection. , 1982, Journal of molecular biology.

[2]  Ari Helenius,et al.  Virus entry by endocytosis. , 2010, Annual review of biochemistry.

[3]  Ari Helenius,et al.  Virus entry by macropinocytosis , 2009, Nature Cell Biology.

[4]  C. Hauser,et al.  The epidermal growth factor receptor is not a receptor for vaccinia virus , 1994, Journal of virology.

[5]  J. Bergelson,et al.  Coxsackievirus entry across epithelial tight junctions requires occludin and the small GTPases Rab34 and Rab5. , 2007, Cell host & microbe.

[6]  R. Moyer,et al.  An orthopoxvirus serpinlike gene controls the ability of infected cells to fuse , 1992, Journal of virology.

[7]  S Schleich,et al.  Entry of the two infectious forms of vaccinia virus at the plasma membane is signaling-dependent for the IMV but not the EEV. , 2000, Molecular biology of the cell.

[8]  S. Nagata,et al.  Opposite Effects of Rho Family GTPases on Engulfment of Apoptotic Cells by Macrophages* , 2006, Journal of Biological Chemistry.

[9]  T. Kwon,et al.  Rapid cell corpse clearance by stabilin-2, a membrane phosphatidylserine receptor , 2008, Cell Death and Differentiation.

[10]  R. Scott,et al.  Phagocytosis and clearance of apoptotic cells is mediated by MER , 2001, Nature.

[11]  S. Nagata,et al.  Identification of Tim4 as a phosphatidylserine receptor , 2007, Nature.

[12]  S. Cohen,et al.  Rapid stimulation of pinocytosis in human carcinoma cells A-431 by epidermal growth factor , 1979, The Journal of cell biology.

[13]  D. Shukla,et al.  Viral entry mechanisms: cellular and viral mediators of herpes simplex virus entry , 2009, The FEBS journal.

[14]  Junichi Nakai,et al.  Vaccinia Virus Uses Macropinocytosis and Apoptotic Mimicry to Enter Host Cells , 2008 .

[15]  B. Moss,et al.  Vaccinia Virus Entry into Cells via a Low-pH-Dependent Endosomal Pathway , 2006, Journal of Virology.

[16]  B. Moss Poxvirus entry and membrane fusion. , 2006, Virology.

[17]  D. A. Eppstein,et al.  Vaccinia virus and the EGF receptor: A portal for infectivity? , 1987, Journal of cellular biochemistry.

[18]  S. Deacon,et al.  An isoform-selective, small-molecule inhibitor targets the autoregulatory mechanism of p21-activated kinase. , 2008, Chemistry & biology.

[19]  U. Greber,et al.  Adenovirus endocytosis , 2004, The journal of gene medicine.

[20]  Y. Yarden,et al.  Pathogenic poxviruses reveal viral strategies to exploit the ErbB signaling network , 1998, The EMBO journal.

[21]  K. Hahn,et al.  Amiloride inhibits macropinocytosis by lowering submembranous pH and preventing Rac1 and Cdc42 signaling , 2010, The Journal of cell biology.

[22]  B. Moss,et al.  Appraising the apoptotic mimicry model and the role of phospholipids for poxvirus entry , 2009, Proceedings of the National Academy of Sciences.

[23]  Michael R. Elliott,et al.  BAI1 is an engulfment receptor for apoptotic cells upstream of the ELMO/Dock180/Rac module , 2007, Nature.

[24]  F. Frischknecht,et al.  Vaccinia Virus-Induced Cell Motility Requires F11L-Mediated Inhibition of RhoA Signaling , 2006, Science.

[25]  Klemens Rottner,et al.  On the Rho'd: The regulation of membrane protrusions by Rho‐GTPases , 2008, FEBS letters.

[26]  R. Eisenberg,et al.  Vaccinia virus exhibits cell-type-dependent entry characteristics. , 2009, Virology.

[27]  A. Schreiber,et al.  Epidermal growth factor receptor occupancy inhibits vaccinia virus infection , 1985, Nature.

[28]  Z. Bao,et al.  Myosin IIB isoform plays an essential role in the formation of two distinct types of macropinosomes , 2009, Cytoskeleton.

[29]  A. Helenius,et al.  Cell fusion by Semliki Forest, influenza, and vesicular stomatitis viruses , 1981, The Journal of cell biology.

[30]  L. Lim,et al.  The Ras-related protein Cdc42Hs and bradykinin promote formation of peripheral actin microspikes and filopodia in Swiss 3T3 fibroblasts , 1995, Molecular and cellular biology.

[31]  A. Helenius,et al.  Vesicular Stomatitis Virus Entry Host Cell Factors and Functions Involved In , 2022 .

[32]  John G. Collard,et al.  The Guanine Nucleotide Exchange Factor Tiam1 Affects Neuronal Morphology; Opposing Roles for the Small GTPases Rac and Rho , 1997, The Journal of cell biology.

[33]  B. Moss,et al.  Vaccinia virus strain differences in cell attachment and entry. , 2009, Virology.

[34]  M. Oie Reversible inactivation and reactivation of vaccinia virus by manipulation of viral lipid composition. , 1985, Virology.

[35]  T. Kirchhausen,et al.  Dynasore, a cell-permeable inhibitor of dynamin. , 2006, Developmental cell.

[36]  Keiko Miwa,et al.  Identification of a factor that links apoptotic cells to phagocytes , 2002, Nature.

[37]  Mark Marsh,et al.  Virus Entry: Open Sesame , 2006, Cell.