scholarly journals Mechanism of Interference Mediated by Human Parainfluenza Virus Type 3 Infection

2000 ◽  
Vol 74 (24) ◽  
pp. 11792-11799 ◽  
Author(s):  
Maria-Arantxa Horga ◽  
G. Luca Gusella ◽  
Olga Greengard ◽  
Natalia Poltoratskaia ◽  
Matteo Porotto ◽  
...  
Keyword(s):  
Virus Type ◽  
Fluorescent Protein ◽  
Parainfluenza Virus ◽  
Wild Type ◽  
Challenge Virus ◽  
Neuraminidase Activity ◽  
Definitive Evidence ◽  
Viral Interference ◽  
Human Parainfluenza Virus ◽  
Type 3

ABSTRACT Viral interference is characterized by the resistance of infected cells to infection by a challenge virus. Mechanisms of viral interference have not been characterized for human parainfluenza virus type 3 (HPF3), and the possible role of the neuraminidase (receptor-destroying) enzyme of the hemagglutinin-neuraminidase (HN) glycoprotein has not been assessed. To determine whether continual HN expression results in depletion of the viral receptors and thus prevents entry and cell fusion, we tested whether cells expressing wild-type HPF3 HN are resistant to viral infection. Stable expression of wild-type HN-green fluorescent protein (GFP) on cell membranes in different amounts allowed us to establish a correlation between the level of HN expression, the level of neuraminidase activity, and the level of protection from HPF3 infection. Cells with the highest levels of HN expression and neuraminidase activity on the cell surface were most resistant to infection by HPF3. To determine whether this resistance is attributable to the viral neuraminidase, we used a cloned variant HPF3 HN that has two amino acid alterations in HN leading to the loss of detectable neuraminidase activity. Cells expressing the neuraminidase-deficient variant HN-GFP were not protected from infection, despite expressing HN on their surface at levels even higher than the wild-type cell clones. Our results demonstrate that the HPF3 HN-mediated interference effect can be attributed to the presence of an active neuraminidase enzyme activity and provide the first definitive evidence that the mechanism for attachment interference by a paramyxovirus is attributable to the viral neuraminidase.

scholarly journals Human Parainfluenza Virus Type 3 HN-Receptor Interaction: Effect of 4-Guanidino-Neu5Ac2en on a Neuraminidase-Deficient Variant

2001 ◽  
Vol 75 (16) ◽  
pp. 7481-7488 ◽  
Author(s):  
Matteo Porotto ◽  
Olga Greengard ◽  
Natalia Poltoratskaia ◽  
Maria-Arantxa Horga ◽  
Anne Moscona
Keyword(s):  
Sialic Acid ◽  
Virus Type ◽  
Receptor Binding ◽  
Inhibitory Effect ◽  
Parainfluenza Virus ◽  
Receptor Interaction ◽  
Neuraminidase Activity ◽  
Virion Release ◽  
Human Parainfluenza Virus ◽  
Type 3

ABSTRACT The envelope of human parainfluenza virus type 3 (HPF3) contains two viral glycoproteins, the hemagglutinin-neuraminidase (HN) and the fusion protein (F). HN, which is responsible for receptor attachment and for promoting F-mediated fusion, also possesses neuraminidase (receptor-destroying) activity. We reported previously that 4-guanidino-neu5Ac2en (4-GU-DANA) and related sialic acid-based inhibitors of HPF3 neuraminidase activity also inhibit HN-mediated receptor binding and fusion processes not involving neuraminidase activity. We have now examined this mechanism, as well as neuraminidase's role in the viral life cycle, using a neuraminidase-deficient HPF3 variant (C28a) and stable cell lines expressing C28a or wild-type (wt) HN. C28a, which has a wt F sequence and two point mutations in the HN gene corresponding to two amino acid changes in the HN protein, is the first HPF3 variant with insignificant neuraminidase activity. Cells expressing C28a HN did not bind erythrocytes at 4°C unless pretreated with neuraminidase, but no such pretreatment was required for hemadsorption activity (HAD) at 22 or 37°C. HAD was blocked by 4-GU-DANA, attesting to the ability of this compound to inhibit HN's receptor-binding activity. C28a or wt plaque enlargement, a process that involves cell-cell fusion and does not depend on virion release, is diminished by the presence of 4-GU-DANA, confirming the inhibitory effect of 4-GU-DANA on the fusogenic function of C28a HN. In C28a-infected cell monolayers, virion release and thus multicycle replication are severely restricted. This defect was corrected by supplementation of exogenous neuraminidase and also by the addition of 4-GU-DANA; neuraminidase destroys the receptors whereby newly formed C28a virions would remain attached to the cell surface, whereas 4-GU-DANA prevents the attachment itself, obviating the need for receptor cleavage. In accord with the ability of 4-GU-DANA to prevent attachment, the neuraminidase inhibitory effect of 4-GU-DANA on wt HPF3 did not diminish virion release into the medium. Thus, it is by inhibition of viral entry and syncytium formation that sialic acid analogs like 4-GU-DANA may counteract wt HPF3 infection.

scholarly journals Human Parainfluenza Virus Type 3 (PIV3) Expressing the Hemagglutinin Protein of Measles Virus Provides a Potential Method for Immunization against Measles Virus and PIV3 in Early Infancy

2000 ◽  
Vol 74 (15) ◽  
pp. 6821-6831 ◽  
Author(s):  
Anna P. Durbin ◽  
Mario H. Skiadopoulos ◽  
Josephine M. McAuliffe ◽  
Jeffrey M. Riggs ◽  
Sonja R. Surman ◽  
...  
Keyword(s):  
Respiratory Tract ◽  
Virus Type ◽  
Measles Virus ◽  
Parainfluenza Virus ◽  
Wild Type ◽  
Ha Gene ◽  
Human Parainfluenza Virus ◽  
Type 3 ◽  
Gene Junction ◽  
Very High

ABSTRACT Recombinant human parainfluenza virus type 3 (PIV3) was used as a vector to express the major protective antigen of measles virus, the hemagglutinin (HA) glycoprotein, in order to create a bivalent PIV3-measles virus that can be administered intranasally. The measles virus HA open reading frame (ORF) was inserted as an additional transcriptional unit into the N-P, P-M, or HA-neuraminidase (HN)-L gene junction of wild-type PIV3 or into the N-P or P-M gene junction of an attenuated derivative of PIV3, termed rcp45L. The recombinant PIV3 (rPIV3) viruses bearing the HA inserts replicated more slowly in vitro than their parental viruses but reached comparable peak titers of ≥107.5 50% tissue culture infective doses per ml. Each of the wild-type or cold-passaged 45L (cp45L) PIV3(HA) chimeric viruses replicated 5- to 10-fold less well than its respective parent virus in the upper respiratory tract of hamsters. Thus, insertion of the ∼2-kb ORF itself conferred attenuation, and this attenuation was additive to that conferred by thecp45L mutations. The attenuated cp45L PIV3(HA) recombinants induced a high level of resistance to replication of PIV3 challenge virus in hamsters and induced very high levels of measles virus neutralizing antibodies (>1:8,000) that are well in excess of those known to be protective in humans. rPIV3s expressing the HA gene in the N-P or P-M junction induced about 400-fold more measles virus-neutralizing antibody than did the rPIV3 with the HA gene in the HN-L junction, indicating that the N-P or P-M junction appears to be the preferred insertion site. Previous studies indicated that the PIV3cp45 virus, a more attenuated version of rcp45L, replicates efficiently in the respiratory tract of monkeys and is immunogenic and protective even when administered in the presence of very high titers of passively transferred PIV3 antibodies (A. P. Durbin, C. J. Cho, W. R. Elkins, L. S. Wyatt, B. Moss, and B. R. Murphy, J. Infect. Dis. 179:1345–1351, 1999). This suggests that this intranasally administered PIV3(HA) chimeric virus can be used to immunize infants with maternally acquired measles virus antibodies in whom the current parenterally administered live measles virus vaccine is ineffective.

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