Phenotypic expression of HA-NA combinations in human-avian influenza A virus reassortants.

Human-avian and human-mammalian influenza A virus reassortant clones with the neuraminidase (NA) gene of the A/USSR/90/77 (H1N1) strain and hemagglutinin (HA) genes of H3, H4 and H13 subtypes had been shown in an earlier publication to produce low HA yields in the embryonated chicken eggs. The low HA titers had been shown to be due, at least in part, to the formation of virion clusters at 4 degrees C; the clustering was removed by the treatment with bacterial neuraminidase [Rudneva et al., Arch. Virol (1993) 133: 437-450]. By serial passages of the reassortants in chick embryos non-aggregating variants were selected: the variants produced HA titers of the same order as A/USSR/90/77 parent virus. The assessment of the virus yields by the analysis of the partially purified virus preparations from fixed volumes of the allantoic fluid revealed that actual virion yields of the initial reassortants were lower than the yields of their passaged variants or of the parent viruses. The passaged variant of a reassortant possessing the HA gene of A/Duck/Ukraine/1/63 (H3N2) virus differed from the original (non-passaged) reassortant and from the parent A/Duck/Ukraine/1/63 virus in the reaction with a panel of monoclonal antibodies against H3 hemagglutinin. The data suggest that some HA-NA combinations may lead to an incomplete functional match between HA and NA and to the formation of low-yield reassortants, thus representing a possible limiting factor in the emergence of new HA-NA combinations in natural conditions.

Formation of mixed hemagglutinin trimers in the course of double infection with influenza viruses belonging to different subtypes.

Chick embryo primary cultured cells were infected with influenza viruses belonging to H1, H2, H3, H5 or H7 subtypes of hemagglutinin. The cells were subjected to a single or a double infection, labelled with 14C-amino acids from 2 to 6 hours postinfection, lysed with a mixture of ionic and non-ionic detergents, and the lysates were clarified by low-speed centrifugation. The clarified lysates contained 14C-labelled hemagglutinin mostly in the form of 9S trimers, as shown by velocity sedimentation in sucrose gradients with polyacrylamide gel electrophoresis (PAGE) analysis of the gradient fractions. The lysates were immunoprecipitated with antihemagglutinin antibodies specific for one of the co-infecting viruses. The immunoprecipitates were analysed by PAGE. Cells infected separately with each virus and mixed before lysis were used as a control sample in every experiment. In the lysates of cells doubly infected with H2 and H5 influenza viruses the analysis revealed the presence of structures containing HA monomers of both viruses, whereas no such structures were revealed in the lysate of a mixture of separately infected cells. Mixed structures (most likely HA trimers containing monomers of the two co-infecting viruses) were also found in the lysates of cells doubly infected with strains belonging to H1 and H2 subtypes. No such structures were revealed when the cells were co-infected with viruses belonging to H1 and H3 subtypes or H3 and H7 subtypes. The results suggest an extensive formation of mixed HA trimers in the course of double infection with viruses belonging to closely related subtypes, whereas the formation of mixed trimers by more distantly related HA monomers does not occur or is very scarce. The identity of the mixed structures as HA trimers was confirmed by immunoprecipitation experiments with 9S structures.

Studies on influenza-virus virulence in recombinants between epidemic and vaccine strains.

Influenza virus recombinants between epidemic strains A/Brazil/11/78 (H1N1), A/USSR/382/78 (H3N2) and vaccine strains A/Leningrad/9/46 (H1N1), A/Victoria/35/72/50 (H3N2) have been tested for virulence for humans and albino mice; their genome structure has also been determined. It has been shown that after the replacement of surface antigens of A/Leningrad/9/46 (H1N1) strain by surface antigens of A/Brazil/11/78 (H1N1) or A/USSR/382/78 (H3N2), strains, the virus becomes totally nonpathogenic for mice whereas its virulence for humans is enhanced. The combination in recombinant X/28 (H1N1) of haemagglutinin and neuraminidase of A/Brazil/11/78 (H1N1) virus and othercomponents of A/Leningrad/9/46 virus determines its high affinity to the epithelium of the upper respiratory tract of humans, as well as its marked virulence for seronegative volunteers. Genetic mechanisms of influenza virus virulence and the involvement of surface proteins in its specific manifestations are discussed. It has been shown that pathogenic properties and the affinity of the virus to particular tissues are determined by different genes and their reasortment can result in the appearance of essentially new properties in recombinants.

Virions and intracellular nucleocapsids produced during mixed heterotypic influenza infection of MDCK cells.

Phenotypically mixed virus yields, obtained by coinfection of MDCK cells with influenza A/WSN/33 and B/Lee/40 viruses, contained both A/WSN/33 and B/Lee/40 NP proteins, as revealed by polyacrylamide gel electrophoresis of the purified 14C-amino acids-labeled virus. Virions were lysed with 0.6 M KCl-Triton X-100 buffer, and nucleocapsids were immunoprecipitated with antibodies against NP protein of influenza A virus. Polyacrylamide gel electrophoresis of the immunoprecipitate revealed NP protein of A/WSN/33 but not of B/Lee/40 virus. However, in similar experiments with the lysates of doubly infected cells, the band of B/Lee/40 NP protein was revealed in the polyacrylamide gel electrophoresis patterns of the immunoprecipitates. In an attempt to analyze the RNA content of the immune complexes, we absorbed the lysates of doubly infected [3H]uridine-labeled cells with protein A-containing Staphylococcus aureus covered with antibodies against the NP protein of influenza A virus. RNA extracted from the immune complexes contained genomic RNA segments of both A/WSN/33 and B/Lee/40 viruses. In control samples containing an artificial mixture of cell lysates separately infected with each virus, the analysis revealed homologous components (i.e., A/WSN/33 NP protein or RNA segments) in the immune complexes. The results suggest the presence of phenotypically mixed nucleocapsids in the cells doubly infected with influenza A and B viruses; in the course of the virion formation, the nucleocapsids lacking the heterologous NP protein are selected.

Studies on heterotypic interference between influenza A and B viruses: a differential inhibition of the synthesis of viral proteins and RNAs.

Mixed infection of MDCK cells with influenza A and influenza B viruses leads to a reduction in the rate of synthesis of haemagglutinin (HA) and nucleoprotein (NP) as compared to their rate of synthesis in cells separately infected with these viruses. The reduction is much stronger for influenza A virus proteins. The synthesis of the nonstructural NS1 protein of both viruses is relatively resistant to the heterotypic interference. The synthesis of virus-specific mRNAs exhibits the same pattern: the formation of the transcripts of HA and NP genes is much more drastically reduced than the synthesis of NS gene transcripts. The effect is strongly dependent on the multiplicity of infection and on the ratio of influenza A and B viruses in the inoculum. Primary transcription in the presence of cycloheximide is almost unchanged in doubly infected cells as compared to single infection, and no indication of differential inhibition has been observed. The results are discussed in connection with the mechanism of heterotypic interference and the regulation of influenza virus protein synthesis.

Processing of influenza HA protein in MDCK cells: components with different mobilities in polyacrylamide gel electrophoresis and their precursor-product relationships.

In influenza virus-infected MDCK cells labelled with 14C-chlorella hydrolysate or 35S-methionine a virus-specific protein component is revealed migrating slightly faster than HA protein in polyacrylamide gel electrophoresis. Under chase conditions the component disappears either completely or partially, with a concomitant intensification of the HA band. The rate and extent of this transition are strain-dependent. Both the HA band and the faster moving component are not revealed if the cells are labelled in the presence of 20 mM of D-glucosamine. In primary cell cultures of chick embryos a single HA band with a mobility similar to that of the faster moving component in MDCK cells has been observed. It is suggested that the transition of the label from the faster moving component to the HA band reflects the final step of HA processing specific for MDCK cells.

Structural proteins of infectious bovine rhinotracheitis virus.

Infectious bovine rhinotracheitis (IBR) virus grown in bovine embryo kidney cell cultures was concentrated and purified in Ficoll density gradients. The polypeptide composition of the virus was studied by polyacrylamide gel electrophoresis. The mature virion was found to contain 18 structural proteins with molecular weights from 250,000 to 29,000 daltons; 8 of them were glycosylated. The similarity of IBR virus protein composition to proteins of other herpetoviruses is discussed.

Strain-specific degradation of a viral glycoprotein in Newcastle disease virus-infected cells.

In cells infected with mesogenic or lentogenic strain of Newcastle disease virus the level of neuraminidase and hemagglutinin activities sharply decreased after the addition of cycloheximide. With two velogenic strains such decreases did not occur. The infected cells were labelled with 14C-amino acids (leucine or valine) and further incubated with an excess of unlabelled precursor. Polyacrylamide gel analysis revealed a decrease of the peak correspondig to the "large" glycoprotein after the chase in cells infected with meso- or lentogenic strain (Beaudette, B1). In the cells infected with velogenic strains (Italia, Herts) no such decrease was observed. The degradation of the "large" glycoprotein as the cause of the decrease of hemagglutinin and neuraminidase activities in cycloheximide-treated cells and its possible relation to virulence is discussed.