Assembly in vitro of a spanning membrane protein of the endoplasmic reticulum: the E1 glycoprotein of coronavirus mouse hepatitis virus A59.

Fusion peptides (FPs) in spike proteins are key players mediating early events in cell-to-cell fusion, vital for intercellular viral spread. A proline residue located at the central FP region has often been suggested to have a distinctive role in this fusion event. The spike glycoprotein from strain RSA59 (PP) of mouse hepatitis virus (MHV) contains two central, consecutive prolines in the FP. Here, we report that deletion of one of these proline residues, resulting in RSA59 (P), significantly affected neural cell syncytia formation and viral titers postinfection in vitro. Transcranial inoculation of C57Bl/6 mice with RSA59 (PP) or RSA59 (P) yielded similar degrees of necrotizing hepatitis and meningitis, but only RSA59 (PP) produced widespread encephalitis that extended deeply into the brain parenchyma. By day 6 postinfection, both virus variants were mostly cleared from the brain. Interestingly, inoculation with the RSA59 (P)–carrying MHV significantly reduced demyelination at the chronic stage. We also found that the presence of two consecutive prolines in FP promotes a more ordered, compact, and rigid structure in the spike protein. These effects on FP structure were due to proline's unique stereochemical properties intrinsic to its secondary amino acid structure, revealed by molecular dynamics and NMR experiments. We therefore propose that the differences in the severity of encephalitis and demyelination between RSA59 (PP) and RSA59 (P) arise from the presence or absence, respectively, of the two consecutive prolines in FP. Our studies define a structural determinant of MHV entry in the brain parenchyma important for altered neuropathogenesis.

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IN VITRO INTERACTION OF MOUSE HEPATITIS VIRUS AND MACROPHAGES FROM GENETICALLY RESISTANT MICE

Journal of Experimental Medicine ◽

10.1084/jem.131.4.843 ◽

1970 ◽

Vol 131 (4) ◽

pp. 843-850 ◽

Cited By ~ 27

Author(s):

Ilan Shif ◽

Frederik B. Bang

Keyword(s):

Virus Replication ◽

Hepatitis Virus ◽

Mouse Hepatitis Virus ◽

Peritoneal Macrophages ◽

Slow Inactivation ◽

Virus Particles ◽

C3h Mice ◽

The Difference ◽

In Vitro Interaction

Peritoneal macrophages from genetically resistant C3H mice and genetically susceptible Princeton (PRI) mice adsorbed the MHV (PRI) strain of mouse hepatitis virus equally well. The difference between the permissive cells and the nonpermissive ones seems to reside in the ability of the former to "eclipse" the virus and, subsequently, support virus replication. C3H cells exposed to low multiplicities of the virus remained intact with no demonstrable viral replication. Virus, taken up by the resistant cells, was protected from heat and underwent slow inactivation while few or no virus particles were released into the medium.

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Enhanced Virulence Mediated by the Murine Coronavirus, Mouse Hepatitis Virus Strain JHM, Is Associated with a Glycine at Residue 310 of the Spike Glycoprotein

Journal of Virology ◽

10.1128/jvi.77.19.10260-10269.2003 ◽

2003 ◽

Vol 77 (19) ◽

pp. 10260-10269 ◽

Cited By ~ 51

Author(s):

Evelena Ontiveros ◽

Taeg S. Kim ◽

Thomas M. Gallagher ◽

Stanley Perlman

Keyword(s):

Virus Strain ◽

Hepatitis Virus ◽

Neurological Diseases ◽

Mouse Hepatitis Virus ◽

Neutralizing Antibody ◽

Lateral Spread ◽

S Protein ◽

Acute Encephalitis ◽

The Central Nervous System

ABSTRACT The coronavirus, mouse hepatitis virus strain JHM, causes acute and chronic neurological diseases in rodents. Here we demonstrate that two closely related virus variants, both of which cause acute encephalitis in susceptible strains of mice, cause markedly different diseases if mice are protected with a suboptimal amount of an anti-JHM neutralizing antibody. One strain, JHM.SD, caused acute encephalitis, while infection with JHM.IA resulted in no acute disease. Using recombinant virus technology, we found that the differences between the two viruses mapped to the spike (S) glycoprotein and that the two S proteins differed at four amino acids. By engineering viruses that differed by only one amino acid, we identified a serine-to-glycine change at position 310 of the S protein (S310G) that recapitulated the more neurovirulent phenotype. The increased neurovirulence mediated by the virus encoding glycine at position S310 was not associated with a different tropism within the central nervous system (CNS) but was associated with increased lateral spread in the CNS, leading to significantly higher brain viral titers. In vitro studies revealed that S310G was associated with decreased S1-S2 stability and with enhanced ability to mediate infection of cells lacking the primary receptor for JHM (“receptor-independent spread”). These enhanced fusogenic properties of viruses encoding a glycine at position 310 of the S protein may contribute to spread within the CNS, a tissue in which expression of conventional JHM receptors is low.

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Cleavage between Replicase Proteins p28 and p65 of Mouse Hepatitis Virus Is Not Required for Virus Replication

Journal of Virology ◽

10.1128/jvi.78.11.5957-5965.2004 ◽

2004 ◽

Vol 78 (11) ◽

pp. 5957-5965 ◽

Cited By ~ 40

Author(s):

Mark R. Denison ◽

Boyd Yount ◽

Sarah M. Brockway ◽

Rachel L. Graham ◽

Amy C. Sims ◽

...

Keyword(s):

Rna Synthesis ◽

Hepatitis Virus ◽

Mouse Hepatitis Virus ◽

Wild Type ◽

Virus Growth ◽

Amino Terminal ◽

Normal Expression ◽

Infected Cells ◽

Critical Residues

ABSTRACT The p28 and p65 proteins of mouse hepatitis virus (MHV) are the most amino-terminal protein domains of the replicase polyprotein. Cleavage between p28 and p65 has been shown to occur in vitro at cleavage site 1 (CS1), 247Gly↓Val248, in the polyprotein. Although critical residues for CS1 cleavage have been mapped in vitro, the requirements for cleavage have not been studied in infected cells. To define the determinants of CS1 cleavage and the role of processing at this site during MHV replication, mutations and deletions were engineered in the replicase polyprotein at CS1. Mutations predicted to allow cleavage at CS1 yielded viable virus that grew to wild-type MHV titers and showed normal expression and processing of p28 and p65. Mutant viruses containing predicted noncleaving mutations or a CS1 deletion were also viable but demonstrated delayed growth kinetics, reduced peak titers, decreased RNA synthesis, and small plaques compared to wild-type controls. No p28 or p65 was detected in cells infected with predicted noncleaving CS1 mutants or the CS1 deletion mutant; however, a new protein of 93 kDa was detected. All introduced mutations and the deletion were retained during repeated virus passages in culture, and no phenotypic reversion was observed. The results of this study demonstrate that cleavage between p28 and p65 at CS1 is not required for MHV replication. However, proteolytic separation of p28 from p65 is necessary for optimal RNA synthesis and virus growth, suggesting important roles for these proteins in the formation or function of viral replication complexes.

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Enhancing Effect of the Murine Sarcoma Virus (MSV) on the Replication of the Mouse Hepatitis Virus (MHV) in Vitro

Experimental Biology and Medicine ◽

10.3181/00379727-131-33798 ◽

1969 ◽

Vol 131 (1) ◽

pp. 30-35 ◽

Cited By ~ 12

Author(s):

C. Chany ◽

F. Robbe-Maridor

Keyword(s):

Hepatitis Virus ◽

Mouse Hepatitis Virus ◽

Enhancing Effect ◽

Murine Sarcoma Virus ◽

Sarcoma Virus ◽

Murine Sarcoma

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THE SECRETORY PATHWAYS OF RAT SERUM GLYCOPROTEINS AND ALBUMIN

The Journal of Cell Biology ◽

10.1083/jcb.52.2.231 ◽

1972 ◽

Vol 52 (2) ◽

pp. 231-245 ◽

Cited By ~ 102

Author(s):

Colvin M. Redman ◽

M. George Cherian

Keyword(s):

Endoplasmic Reticulum ◽

Membrane Protein ◽

Rough Endoplasmic Reticulum ◽

Serum Proteins ◽

Rat Serum ◽

Secretory Pathways ◽

Specific Antisera ◽

Microsome Fraction

These studies compare the secretory pathways of newly formed rat serum glycoproteins and albumin by studying their submicrosomal localization at early times after the beginning of their synthesis and also by determining the submicrosomal site of incorporation of N-acetylglucosamine, mannose, galactose, and leucine into protein. N-acetylglucosamine, mannose, and galactose were only incorporated in vitro into proteins from membrane-attached polysomes and not into proteins from free polysomes. Mannose incorporation occurred in the rough endoplasmic reticulum, was stimulated by puromycin but not by cycloheximide, and 90% of the mannose-labeled protein was bound to the membranes. Galactose incorporation, by contrast, occurred in the smooth microsome fraction and 89% of the radioactive protein was in the cisternae. Albumin was mostly recovered (98%) in the cisternae, with negligible amounts in the membranes. To determine whether the radio-active sugars were being incorporated into serum proteins or into membrane protein, the solubilized in vivo-labeled proteins were treated with specific antisera to rat serum proteins or to albumin. Immunoelectrophoresis of the 14C-labeled leucine membrane and cisternal proteins showed that the membranes contained radioactive serum glycoprotein but no albumin, while the cisternal fraction contained all of the radioactive albumin and some glycoproteins. The results indicate that newly formed serum glycoproteins remain attached to the membranes of the rough endoplasmic reticulum after they are released from the membrane-attached polysomes, while albumin passes directly into the cisternae.

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The Coronavirus Spike Protein Induces Endoplasmic Reticulum Stress and Upregulation of Intracellular Chemokine mRNA Concentrations

Journal of Virology ◽

10.1128/jvi.01033-07 ◽

2007 ◽

Vol 81 (20) ◽

pp. 10981-10990 ◽

Cited By ~ 49

Author(s):

Gijs A. Versteeg ◽

Paula S. van de Nes ◽

Peter J. Bredenbeek ◽

Willy J. M. Spaan

Keyword(s):

Endoplasmic Reticulum ◽

Er Stress ◽

Stress Proteins ◽

Hepatitis Virus ◽

Spike Protein ◽

Simultaneous Increase ◽

Mrna Transcription ◽

Mrna Induction ◽

Infected Cells

ABSTRACT Murine hepatitis virus (MHV) and severe acute respiratory syndrome (SARS) coronavirus (CoV) are two of the best-studied representatives of the family Coronaviridae. During CoV infection, numerous cytokines and chemokines are induced in vitro and in vivo. Human interleukin 8 and its mouse functional counterpart, CXCL2, are early-expressed chemokines. Here we show that SARS-CoV and MHV induce endoplasmic reticulum (ER) stress and Cxcl2 mRNA transcription during infection in vitro. Expression of the viral spike protein significantly induced ER stress and Cxcl2 mRNA upregulation, while expression of the other structural genes did not. Additional experiments with UV-inactivated virus, cell-cell fusion-blocking antibodies, and an MHV mutant with a defect in spike protein maturation demonstrated that spike-host interactions in the ER are responsible for the induction of ER stress and subsequent Cxcl2 mRNA transcription. Despite significant increases in levels of Cxcl2 mRNA and functional nucleus-to-cytoplasm RNA transport, no CXCL2 protein was released into the medium from MHV-infected cells. Yet Sendai virus-infected cells showed substantial Cxcl2 mRNA induction and a simultaneous increase in levels of secreted CXCL2 protein. Our results demonstrate that expression of CoV spike proteins induces ER stress, which could subsequently trigger innate immune responses. However, at that point in infection, translation of host mRNA is already severely reduced in infected cells, preventing the synthesis of CXCL2 and ER stress proteins despite their increased mRNA concentrations.

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ONTOGENY OF MACROPHAGE RESISTANCE TO MOUSE HEPATITIS IN VIVO AND IN VITRO

Journal of Experimental Medicine ◽

10.1084/jem.125.4.537 ◽

1967 ◽

Vol 125 (4) ◽

pp. 537-548 ◽

Cited By ~ 21

Author(s):

Ruth Gallily ◽

Anne Warwick ◽

Frederik B. Bang

Keyword(s):

Hepatitis Virus ◽

Mouse Hepatitis Virus ◽

Susceptible Strain ◽

Time Of Death ◽

Complete Resistance ◽

Different Ages ◽

C3h Mice ◽

Resistant Cells

Adult or weanling C3H mice were found to be genetically resistant to a strain of mouse hepatitis virus. Infant C3H mice, however, developed infection and died from mouse hepatitis virus when minimal infectious doses of virus were given to them. There was a delay in the time of death compared to that of the genetically susceptible strain, and the virus recovered from these mice had increased pathogenicity for C3H mice. The ontogeny of resistance to hepatitis in the C3H mice thus progresses from delayed susceptibility to complete resistance as the age of the host increases. It is reflected in increased resistance of macrophages derived in vitro from liver cultures of infant mice of different ages. This increase in resistance with age was reduced by maintaining the cultures for a longer period of time before inoculation, or by increasing the number of explants in a given culture. Resistant cells were uniformly furnished by mice age 16 days, or more. It is concluded that a process of maturation of resistance of the cells takes place after the mice are born, but that this does not continue under in vitro conditions, and that it may be modified by the environment of the cells.

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