Association of the hepatitis A virus with the membranes of infected cells

"Light" viral antigen (HAAg) with buoyant density 1.20 g/cm2 and sedimentation coefficient 92S are accumulated together with mature viral particles in Hepatitis A virus (HAV) infected FRhK-4 cells. This HAAg is localized predominantly in endoplasmic reticulum fraction of infected cells, while nature virions are localized in cytosol. In contrast to mature virus, "light" HAAg is sensitive to trypsin digestion and is not able to hybridize with synthetic oligodeoxinucleotide which is complementary to structural part of HAV RNA. Antigenic properties of mature virus and "light" antigen are compared.     

Identification of precursors of structural proteins VP1 and VP2 of hepatitis A virus.

The morphogenetic pathway of hepatitis A virus (HAV), classified as a member of the enteroviruses within the Picornaviridae, still remains obscure and seems to differ considerably from that of poliovirus, the most studied representative of this genus. In order to elucidate the precursor/product relationship of HAV structural proteins, subviral particles, which represent more than 50% of the viral antigen produced in infected cells, were separated from mature virions and their polypeptide pattern was analyzed by polyacrylamide gel electrophoresis and immunoblotting using monospecific antisera. Whereas mature virions are composed of viral proteins VP1, VP2, and VP3, subviral particles contained VP0 and smaller polypeptides instead of VP2. Comparison of proteins of different strains of HAV showed that VP0 of strain HAS-15 migrated slower than that of strains MBB or GBM. During the course of the infectious cycle, VP0 accumulated and only small portions were converted to VP2 supporting earlier observations that encapsidation of RNA with concomitant cleavage of VP0 is rate-limiting, leaving a large amount of viral antigen in premature particles. Similar to VP0, accumulation of VP1 was observed and two immunologically related precursor proteins, p38 and p36, were found during the course of infection. Immunological characterization of p38 using antisera directed to the N-terminus of VP1 and to synthetic peptides located at the presumptive C- and N-termini of 2A suggests that p38 is VP1 delta 2A carrying 45 N-terminal amino acids of the P2-region.     

Detection of hepatitis A virus RNA by molecular hybridization

Hepatitis A virus (HAV) was propagated in continuous rhesus monkey embryo kidney cells (FRhK-4 line). HAV RNA extracted with phenol from purified HAV pretreated with proteinase K was used for molecular cloning experiments. Two radioactive plasmids, pHAV-23 and pHAV-5p, containing HAV cDNA fragments complementary to structural and nonstructural parts of HAV genome, respectively, were found to be useful for discrimination between mature virions and subviral structures. HAV cDNA-RNA hybridization seems to be 10 times more sensitive than the enzyme immunoassay (ELISA).     

Evidence for common, intertypic antigenic determinants on poliovirus capsid polypeptides

Polyclonal antibodies prepared against individualized type 1 poliovirus structural polypeptides VP1, VP2, and VP3 were used to analyze the presence of common antigenic determinants among the three poliovirus serotypes. Each anti-VP antiserum immunoprecipitated specifically the polypeptide against which it had been prepared, as well as the corresponding polypeptide of the heterotypic viruses. Anti-VP1 antisera also reacted with type 1, type 2, and type 3 heat-denaturated poliovirions (C particles), whereas anti-VP2 and anti-VP3 sera formed immune complexes with type 1 and type 3, but not with type 2, C particles. It was concluded that capsid polypeptides VP1, VP2, and VP3 of the three serotypes share common antigenic determinants which are masked in mature virions (D particles), but can be unmasked, at least partially, upon heat inactivation of the virus.     

Identification of hepatitis A virus mimotopes by phage display, antigenicity and immunogenicity

A phage-displayed peptide approach was used to identify ligands mimicking antigenic determinants of hepatitis A virus (HAV) for the first time. Bacteriophages displaying HAV mimotopes were isolated from a phage-display peptide library by affinity selection on serum antibodies from hepatitis A patients. Selected phage-peptides were screened for reactivity with sera from HAV infected patients and healthy controls. Four cloned peptides with different sequences were identified as mimotopes of HAV; three of them showed similarity in their amino acid sequences with at least one of the VP3 and VP1 antigenic proteins of HAV. One clone was recognised by 92% of the positive sera. The phagotopes competed effectively with HAV for absorption of anti-HAV-specific antibodies in human sera, as determined by ELISA. The four phage clones induced neutralising anti-HAV antibodies in immunised mice. These results demonstrate the potential of this method to elucidate the disease related epitopes of HAV and to use these mimotopes in diagnostic applications or in the development of a mimotope-based hepatitis A vaccine without the necessity of manipulation of the virus.     

Analysis of intermolecular disulfide bonds and free sulfhydryl groups in hepatitis B surface antigen particles

Summary.  The envelope proteins of hepadnaviruses are highly cross-linked by disulfide bonds in complete virions and 20 nm subviral envelope particles. We have previously shown which of the cysteines in the envelope proteins of the human hepatitis B virus (HBV) are essential for assembly and secretion of 20 nm particles and for the structure of the major antigenic determinants (HBsAg). Now we have analyzed the intermolecular disulfide bonds between S proteins. We have constructed mutants lacking cysteines and have analyzed their capacity for oligomerization in COS-7 cells. We demonstrate that C121 and C147 located in the second hydrophilic region carrying the major antigenic determinants of the HBV S protein participate in intermolecular disulfide bonding. A disulfide bond involving C124 blocks the accessibility of arginine/lysine at position 122, as shown by trypsin digestion of cysteine mutants. Alkylation studies using N-ethyl-maleimide indicate that C76, C90, and/or C221 carry the only free sulfhydryl group(s) present in 20 nm particles secreted from cell lines. Received April 8, 1997 Accepted June 12, 1997     

Recombinant Hepatitis A Virus Antigen: Improved Production and Utility in Diagnostic Immunoassays

Hepatitis A virus (HAV) immunoassays use cell culture-derived HAV antigen to detect HAV-specific antibodies. The current method of production of HAV antigen in tissue culture is time-consuming and expensive. We previously expressed the HAV open reading frame in recombinant vaccinia viruses (rV-ORF). The recombinant HAV polyprotein was accurately processed and was assembled into subviral particles. These particles were bound by HAV-neutralizing antibodies and were able to elicit antibodies which were detected by commercial immunoassays. The present investigation compared the production of HAV antigen by standard tissue culture methods to the production of HAV antigen with the recombinant vaccinia virus system. In addition, HAV and rV-ORF antigens were assessed for their utility in diagnostic immunoassays. Serum or plasma samples from HAV antibody-positive and antibody-negative individuals were evaluated by immunoassay that used either HAV or rV-ORF antigen. All samples (86 of 86) in which HAV antibody was detected by a commercial enzyme-linked immunosorbent assay (ELISA) also tested positive by the recombinant antigen-based immunoassay (VacRIA). Similarly, all samples (50 of 50) that were HAV antibody negative also tested negative by the VacRIA. The lower limit of detection of HAV antibody was similar among immunoassays with either HAV or rV-ORF antigen. Thus, in the population studied, the sensitivity and specificity of the VacRIA were equivalent to those of the commercial ELISA. Since production of recombinant antigen is faster and less expensive than production of traditional HAV antigen, the development of diagnostic HAV antibody tests with recombinant HAV antigen appears warranted.     

Localization by immunogold labelling of HIV-1 structural proteins on Lowicryl embedded HIV-1 infected cell ultrathin sections.

Using several HIV-1-specific antibodies and the immunogold labelling technique, we have detected and localized distinct viral proteins on ultrathin sections of HIV-1 infected cells embedded in the Lowicryl K4M resin. Monoclonal antibodies (MAbs) against p24, p17 and gp160/gp41 showed a preferential labelling on viral formations still attached to the cell membrane (budding process) or free in the extracellular space. The anti-p24 and the anti-p17 MAb yielded a gold labelling not only on mature but also on immature virions where the gold particles were associated with the ring-like electron-dense material. The three HIV-1-specific antibodies against p24, p17 and p55 yielded a cross-reaction with HIV-2 in agreement with the conservation of the internal antigenic determinants of both viruses. In all instances, there was no specific immunogold labelling over the cells, suggesting that once the virus structural proteins were synthesized, they were promptly utilized for virus assembly at the plasma membrane level.     

Immunoreactivity of human and rabbit antisera to hepatitis A virus

Rabbit antibodies produced by immunization with complete hepatitis A virions (HAV) recognized all the viral structural proteins and neutralized HAV infectivity in cell culture. Rabbit antibodies to chromatographically purified individual viral proteins and to synthetic peptides representing epitopes on the structural viral protein VP1 neither recognized whole virus nor neutralized infectivity, indicating that native epitopes on the virus surface are necessary for virus recognition and neutralization. Human anti-HAV-positive sera of the acute and convalescent phase of disease recognized and neutralized viral particles. Analysis of the immunoreactivity of these human sera in immunoblot showed that the IgM antibody preferentially recognizes the structural viral proteins VP0 and VP3 of HAV, whereas IgA and IgG antibodies reacted more strongly with VP1.     

Intracellular events following the infection of different cell types with vesicular stomatitis subviral particles

Vesicular stomatitis virus (VSV) subviral particles (nucleocapsids and G-depleted particles) were used to infect various cells (chicken embryo, HeLa, and BHK21 cells). These particles bind to and penetrate into host cells; the association of G-depleted particles to cells was even better than that of normal virions. The parental genomes of subviral particles and virions were degraded at the same rate in the infected cells. Nevertheless, these subviral particles had a very low infectivity, synthesized very little viral macromolecules, and had very little, if any, effect on the various host cells used. Furthermore, subviral particles could be rescued in chicken embryo cells by uv-irradiated VSV virions, demonstrating that subviral particles actually penetrated into cells, and that their arrested cycle could be unblocked up to a certain point. On the other hand, subviral particles were not rescued in HeLa cells, suggesting a dependence on the host cell system.     

Cyclic excretion of hepatitis A virus in experimentally infected chimpanzees: biophysical characterization of the associated HAV particles.

Experimental infection of two chimpanzees with the Phoenix Antigen strain of HAV resulted in the cyclic excretion of virus particles on days 9-11, 14-15, and 20-21 postinoculation. Isopycnic banding in CsCl of stool suspensions prepared from 9-11; 14-15; and 17, 19, 21 dav stool pools revealed multiple buoyant densities for the associated HAV particles. Hollow HAV particles found in the 9-11 day pool banded primarily at a buoyant density of 1.30 g/cm3. HAV in the 14-15 day stool banded bimodally in a CsCl gradient, with antigen peaks at buoyant densities of 1.29 and 1.33 g/cm3. HAV in the days 17, 19, 21 stool pool also banded bimodally in a CsCl gradient; however, the antigen peaks occurred at buoyant densities of 1.33 and 1.40 g/cm3.     

Identification and partial characterization of a new (50 S) subviral particle in Mengo virus-infected L cells.

A previously undetected subviral particle has been found in Mengo virus-infected L cells by sucrose density gradient centrifugal analysis of cytoplasmic supernatants (S₂₀) prepared from cells after labeling with [³H]amino acids during the early to mid-log phase of virus production. The particle (designated the “50 S particle” from its position between the ribosomal subunits in the gradient), together with mature virions (150 S) and previously described 14 S particles (McGregor et al., 1975), can be recovered from the S₂₀ fraction by high-speed centrifugation. It contains no RNA and is composed of equimolar amounts of the polypeptides ?, α, and γ. The results of conventional pulse-chase experiments suggest that it may be a precursor in the assembly of Mengo virions, but more convincing evidence that this is the case was obtained from experiments in which the chase was carried out in the presence of cordycepin (3′-deoxyadenosine). In the presence of this inhibitor of viral RNA synthesis, there is a significant accumulation of 50 S particles, and when the inhibition in reversed, a quantitative transfer of radiolabel from 50 S particles to mature virions ensues. The recovery of 50 S particles (and of mature virions) from cell homogenates is strongly dependent upon the concentration of KCl in the suspending buffer; only trace amounts are recovered at concentrations of less than 60 mM, while maximum recovery is achieved at a concentration of 100 mM.     

The immune structure and specific laboratory indices of acute hepatitis A in lower monkeys of the Sukhumi Nursery

The study of the rate of occurrence of hepatitis A (HA) markers among monkeys, both newly arriving and those born and living for long periods (aboriginals) in the Sukhumi farm, was carried out. The rate of detection of antibody to HAV (anti-HAV) was shown to vary from 47% (Papio hamadryas) to 100% (Macaca arctoides and Macaca fascicularis). The level of infection with HAV varied among different groups of the same species: Macaca rhesus from 30% to 96%, Papio hamadryas from 0 to 82%. During a long-term observation period seroconversion to HAV was observed in monkeys arriving to the farm from natural habitats. In M. rhesus upon arrival the anti-HAV were detected in 7% and by the end of the observation period reached 100%, in green monkeys 28% and 92%, respectively. Anti-HAV of the IgM class were detected in animals with seroconversion. In fecal extracts from M. rhesus and in the liver, feces, and intestinal contents of green monkeys HAV was found cross-reacting with simian and human sera containing anti-HAV. The virions isolated from a green monkey liver had a buoyant density in CsCl 1.36 g/cm3, and HAV from feces of a M. rhesus sedimented in the density zone of 1.34 g/cm3.     

Study of influenza virus hemagglutinin H3 avidity using monoclonal antibodies

The results of a comparative study of the features of antigenic determinants of avid and non-avid variants of influenza virus hemagglutinin H3 and of the influence of the mode of antigen presentation on the degree of its avidity are presented. The avidity of influenza virus hemagglutinin was shown to be determined by the capacity of individual antigenic determinants to interaction with antibodies. The antigenic determinants of avid hemagglutinin possessing a high functional activity in interaction with antibodies may have the spatial configuration which does not change in different modes of the antigen presentation. Isolation of hemagglutinin from virions of non-avid virus variants may lead to increased functional activity of individual antigenic determinants (and the antigen molecule as a whole) probably due to an increased degree of exposure and/or complementarity of the determinants for active centres of antibody.     

Effect of low pH on the hepatitis A virus maturation cleavage

Cleavage of VP0 to VP2 via intramolecular scission is known as the viral maturation cleavage, as VP0 is found in immature particles, whilst VP2 is found in mature particles. The effect of low pH on the kinetics of hepatitis A virus (HAV) capsid protein VP0 cleavage in provirions was examined by Western blot analysis. VP0 scission was found to be dramatically enhanced under acidic conditions, similar to those encountered on entry of virus particles into the cell via endocytosis. The cleavage of VP0 to VP2 led to an increase in the specific infectivity of viral particles, indicating that mature virions are more infectious than immature provirions. The data are consistent with a model where conformational changes induced by low pH aid scission of VP0, and the increase in kinetics of VP0 cleavage may have relevance for viral uncoating, as only mature HAV particles are thought capable of uncoating within the host cell.     

Internal epidemic influenza virus proteins: isolation and investigation

The internal influenza virus proteins M1 and RNP free from surface protein impurities were isolated from subviral particles (virions free from HA and NA ectomenes). The spikeless particles had no propensity to aggregate in the solution at pH 5.0 as compared with native viruses. The subviral particles of B/Hong Kong/330/01 influenza virus, which belonged to B/Victoria/2/87-lineage, were obtained by proteolytic treatment with the enzyme bromelain under the same conditions as in cases of influenza B viruses of B/Jamagata/16/88 lineage. A chromatographic analysis of the tryptic hydrolyzates obtained for matrix (M1) proteins of A(H1N1) and A(H3N2) influenza viruses revealed differences that were greatest between the protein M1 molecules isolated from influenza viruses of different subtypes of hemagglutinine. These findings suggest there are variations in the structure of this conservative internal viral protein M1 during evolution.     

Sedimentation characteristics of the virions and subviral particles of influenza C viruses

Investigation of sedimentation and some other properties of subviral particles and native virions of influenza C viruses was carried out in comparison with influenza A virions. Sedimentation rate of influenza C viruses was found to be 0.6 of that of influenza A viruses, the optical density peak coincided with the peaks of hemagglutinating and infectious activities of both influenza A and influenza C viruses. Studies with 4 influenza C virus strains isolated in different years revealed no differences in their sedimentation rates and the curve pattern. Electron microscopic, electrophoretic, and sedimentation analyses showed higher fragility of influenza C virions than those of influenza A virus, and their trend to self-disintegration. Our data showed significant differences in the effect of proteases on influenza A and C viruses. With due regard to these differences, we modified the method satisfactorily used for production of influenza A subviral particles. Some properties of subviral particles of influenza C virus were studied.     

Occurrence of pre-S1 antigen in viremic and nonviremic carriers of hepatitis B surface antigen

The proteins of viral envelope, encoded by the pre-S1 region of HBV-DNA, were measured quantitatively with enzyme immunoassay using monoclonal antibodies directed to pre-S1 epitope and correlated with the expression of pre-S2 region encoded epitope and other HBV markers. In acute HBV infection, both pre-S encoded proteins were detected in sera along with markers of viral replication and disappeared shortly before complete virus clearance while high HBsAg titers were still present. Pre-S1 antigen was present in most (95.5%) symptomatic and asymptomatic chronic HBsAg carriers. There was no correlation between the presence of pre-S1 and HBeAg or HBV-DNA in serum: 73% of sera with pre-S1 determinants were anti-HBe positive, and only 25.4% were positive for HBV-DNA. Most pre-S1 activity in sera of viremic carriers was detected in fractions of sucrose gradient containing subviral 22-nm particles, and much less in those containing infectious virions. In asymptomatic, nonviremic HBsAg carriers, pre-S1 was located only on subviral 22-nm forms. Pre-S1 positive particles had no accessible pre-S2 epitope, which is recognized specifically by monoclonal anti-pre-S2 (F124) antibody. These results show that the synthesis of the large protein of HBV envelope may occur also in the absence of active viral replication, and in these cases pre-S1 encoded sequences are on subviral particles of HBsAg. Therefore, pre-S1 is not a serologic marker of infectious virus. Disappearance of pre-S1 epitopes on HBsAg occurs only before complete clearance of the virus, and this may have potential prognostic relevance.     

Current knowledge on the structural proteins of porcine reproductive and respiratory syndrome (PRRS) virus: comparison of the North American and European isolates

Summary.  Porcine reproductive and respiratory syndrome virus (PRRSV) belongs to the recently recognized Arteriviridae family within the genus Arterivirus, order Nidovirales, which also includes equine arteritis virus (EAV), lactate dehydrogenase-elevating virus (LDV), and simian hemorrhagic fever virus (SHFV). Mature viral particles are composed of an envelope 50–72 nm in diameter, with an isometric core about 20–30 nm enclosing a linear positive-stranded RNA genome of approximately 15 kb. The virions are assembled by the budding of preformed nucleocapsids into the lumen of the smooth endoplasmic reticulum and/or Golgi apparatus. The mature virions are then released by exocytosis. The viral genome contains eight open reading frames (ORFs) which are transcribed in cells as a nested set of subgenomic mRNAs. The ORF1a and ORF1b situated at the 5′end of the genome represent nearly 75% of the viral genome and code for proteins with apparent replicase and polymerase activities. The major structural proteins consist of a 25 kDa envelope glycoprotein (GP₅), an 18–19 kDa unglycosylated membrane protein (M), and a 15 kDa nucleocapsid (N) protein, encoded by ORFs 5, 6 and 7, respectively. The N protein is the more abundant protein of the virion and is highly antigenic, which therefore makes it a suitable candidate for the detection of virus-specific antibodies and diagnosis of the disease. Four to five domains of antigenic importance have been identified for the N protein, a common conformational antigenic site for European and North American strains being localized in the central region of the protein. In cells and virions, both M and GP₅ occur in heterodimeric complexes linked by disulfide bonds. The expression products of ORFs 2 and 4 are also incorporated into virus particles as additional minor membrane-associated glycoproteins designated as GP₂ and GP₄, with M_r of 29 and 31 kDa, respectively. The structural nature of the ORF3 product, a highly glycosylated protein with an apparent M_r of 42 kDa, is still being debated, in view of the apparently conflicting data on its presence in virus particles. Nonetheless, the GP₃ of North American and European strains has been shown to be antigenic, providing protection for piglets against PRRSV infection in the absence of a noticeable neutralizing humoral response. Pigs exposed to the native form of GP₅ by means of DNA immunization develop specific neutralizing and protecting antibodies. The GP₅ is involved in antigenic variability, apoptosis, and possibly antibody-dependent enhancement phenomena. The GP₄ also possesses antigenic determinants that trigger the immune system to produce neutralizing antibodies. Each of the PRRSV structural proteins carries common and type-specific antigenic determinants that permit the ability to differentiate between European and North American strains. The potential use of the PRRSV structural proteins in subunit recombinant-type vaccines is also discussed. Received August 30, 1999/Accepted September 29, 1999     

Detection by monoclonal antibodies of an antigenic determinant critical for poliovirus neutralization present on VP1 and on heat-inactivated virions

Hybridoma cell lines were established against poliovirus type 1 (Mahoney) heat-denatured virions (C particles). Each anti-C monoclonal antibody (McAb) immunoprecipitated specifically one of the individualized poliovirus capsid polypeptides VP1, VP2, or VP3. One of the anti-C McAb (C-3), reacting with VP1, neutralized homologous virus and immunoprecipitated infectious D particles. Its properties have been compared to those of a neutralizing anti-D McAb (D-Ic). In contrast with the C-3 antigenic site, the D-Ic epitope was not present on C particles nor on individualized structural polypeptide. This demonstrates that C-3 and D-Ic epitopes represent two independent antigenic determinants, both critical for poliovirus neutralization.