Performance assessment of a multi-epitope chimeric antigen for the serological diagnosis of acute Mayaro fever.

Mayaro virus (MAYV), which causes mayaro fever, is endemic to limited regions of South America that may expand due to the possible involvement of Aedes spp. mosquitoes in its transmission. Its effective control will require the accurate identification of infected individuals, which has been restricted to nucleic acid-based tests due to similarities with other emerging members of the Alphavirus genus of the Togaviridae family; both in structure and clinical symptoms. Serological tests have a more significant potential to expand testing at a reasonable cost, and their performance primarily reflects that of the antigen utilized to capture pathogen-specific antibodies. Here, we describe the assembly of a synthetic gene encoding multiple copies of antigenic determinants mapped from the nsP1, nsP2, E1, and E2 proteins of MAYV that readily expressed as a stable chimeric protein in bacteria. Its serological performance as the target in ELISAs revealed a high accuracy for detecting anti-MAYV IgM antibodies. No cross-reactivity was observed with serum from seropositive individuals for dengue, chikungunya, yellow fever, Zika, and other infectious diseases as well as healthy individuals. Our data suggest that this bioengineered antigen could be used to develop high-performance serological tests for MAYV infections.

Mayaro fever virus, Brazilian Amazon.

In February 2008, a Mayaro fever virus (MAYV) outbreak occurred in a settlement in Santa Barbara municipality, northern Brazil. Patients had rash, fever, and severe arthralgia lasting up to 7 days. Immunoglobulin M against MAYV was detected by ELISA in 36 persons; 3 MAYV isolates sequenced were characterized as genotype D.

A recombinant CHSE-214 cell line expressing an Mx1 promoter-reporter system responds to both interferon type I and type II from salmonids and represents a versatile tool to study the IFN-system in teleost fish.

A transgenic cell line for the detection of salmon interferons (IFNs) has been established. It is based on a CHSE-214 cell line containing a reporter construct expressing firefly luciferase under the control of the rainbow trout promoter for the IFN-induced Mx1 gene. This cell line, named CHSE-Mx10, showed IFN-induced luciferase expression after more than 80 passages, confirming the stability of this cell line. Interestingly, the Mx promoter was shown to respond to both salmon IFN-alpha/beta and trout IFN-gamma in a dose-dependent manner, while there was no response to TNF-alpha and IL-1beta. IFN-alpha/beta activity could be measured at a range of 9-150 U/ml, and IFN-gamma showed activity between 10 and 100 ng/ml. The reproducibility of both responses was good. The CHSE-Mx10 reporter system constitutes a versatile tool to study the induction and regulation of IFN signaling in teleost fish. A preliminary study presented herein suggests that both infectious pancreas necrosis virus (IPNV) and salmon pancreas disease virus (SPDV) may block activation of the Mx promoter in CHSE-Mx10 stimulated with IFN-alpha/beta.

Characterization of the humoral immune response to porcine reproductive and respiratory syndrome (PRRS) virus infection.

The development of the humoral immune response against porcine reproductive and respiratory syndrome (PRRS) virus was monitored by an indirect fluorescent antibody (IFA) test, immunoperoxidase monolayer assay (IPMA), enzyme-linked immunosorbent assay (ELISA), and serum virus neutralization (SVN) test over a 105-day period in 8 pigs experimentally infected with ATCC strain VR-2402. Specific antibodies against PRRS virus were first detected by the IFA test, IPMA, ELISA, and the SVN test 9-11, 5-9, 9-13, and 9-28 days postinoculation (PI), respectively, and reached their maximum values by 4-5, 5-6, 4-6, and 10-11 weeks PI, respectively, thereafter. After reaching maximum value, all assays showed a decline in antibody levels. Assuming a constant rate of antibody decay, it was estimated by regression analysis that the ELISA, IFA, IPMA, and SVN antibody titers would approach the lower limits of detection by approximately days 137, 158, 324, and 356 PI, respectively. In this study, the immunoperoxidase monolayer assay appeared to offer slightly better performance relative to the IFA test, ELISA, and SVN test in terms of earlier detection and slower rate of decline in antibody titers. Western immunoblot analysis revealed that antibody specific for the 15-kD viral protein was present in all pigs by 7 days PI and persisted throughout the 105-day observation period. Initial detection of antibodies to the 19-, 23-, and 26-kD proteins varied among pigs, ranging from 9 to 35 days PI. Thereafter, the antibody responses to these 3 viral proteins of PRRS virus continued to be detected throughout the 105-day study period.(ABSTRACT TRUNCATED AT 250 WORDS)

Gene targeting in human somatic cells. Complete inactivation of an interferon-inducible gene.

The role, if any, of the human interferon-inducible 6-16 gene in the establishment of a cellular antiviral state is unknown. To address this problem, and as part of a wider investigation of homologous recombination (HR) and its applications in somatic cells, we have been using HR to disrupt the 6-16 gene in human cell lines [Itzhaki, J. E. & Porter, A. C. G. (1991) Nucleic Acids Res. 19, 3835-3842.] We describe here the design and use of insertion and replacement-type targeting constructs based on a promoterless bacterial gpt gene that is activated by HR with the 6-16 gene. In HeLa cells, both targeting constructs underwent extrachromosomal HR with a cotransfected plasmid carrying the 6-16 gene. In a previously targeted clone derived from the fibrosarcoma cell line HT1080, the replacement construct underwent HR with either the modified or the unmodified 6-16 allele. The latter events generated doubly disrupted (6-16-/-) clones that failed to express any detectable 6-16 messenger RNA in response to interferon. Plaque assays of infected 6-16-/- cells showed that expression of the 6-16 gene was not required for the induction by interferon of an antiviral state against encephalomyocarditis virus, semliki forest virus or cocal virus.

Influence of epitope polarity and adjuvants on the immunogenicity and efficacy of a synthetic peptide vaccine against Semliki Forest virus.

The antibody response to a previously defined B-cell epitope of Semliki Forest virus (SFV) was investigated in male BALB/c (H-2d) mice. The B-cell epitope, located at amino acid positions 240 to 255 of the E2 protein, was linked to an H-2d-restricted T-helper cell epitope of SFV located at positions 137 to 151 of the E2 protein. Colinearly synthesized peptides, of either T-B or B-T polarity, mixed with different adjuvants (the nonionic block copolymer L 180.5, a water-oil-water [W/O/W] emulsion of L 180.5, Montanide, and Q VAC) were used for immunization. Generally, after one booster immunization, high serum antibody titers were measured against either peptide. With Q VAC and W/O/W L 180.5 as adjuvants, the titers of SFV-reactive (nonneutralizing) antibodies were consistently much higher after immunization with the T-B peptide than with the B-T peptide, which was reflected in a higher vaccine efficacy. With these two adjuvants, the survival ratio in T-B peptide-immunized mice was 82%, compared with 8% in B-T peptide-immunized mice. Intermediate results were obtained with the adjuvant Montanide. L 180.5 alone was ineffective in this study. All immunoglobulin G (IgG) isotypes were induced with either adjuvant, but Q VAC was clearly the most effective in inducing IgG2a and IgG2b isotypes with the T-B peptide as the antigen. Subsequently, monoclonal antibodies (MAbs) of IgM, IgG1, IgG2a, IgG2b, and IgG3 subclasses were prepared against the B-cell epitope. These nonneutralizing but SFV-reactive MAbs protected 40 to 80% of mice against a lethal challenge with SFV. Control mice all died. The availability of those antipeptide MAbs allowed competition binding assays with a previously characterized panel of E2-specific MAbs. Binding of enzyme-labeled antipeptide MAbs was very effectively inhibited by two strongly SFV-neutralizing mutually competitive MAbs, suggesting that the linear B-cell epitope (amino acids 240 to 255) is associated with a major neutralization site of SFV.

Arbovirus infections of humans in high-risk areas of south-eastern Australia: a continuing study.

OBJECTIVES: To determine the current immune status of high-risk populations of New South Wales and Victoria to the arboviral pathogens, Murray Valley encephalitis (MVE) and Kunjin (KUN) viruses, which are associated with Australian encephalitis (AE), and Ross River (RR) and Kokobera (KOK) viruses which are associated with polyarthritis. Further, to estimate seroconversion rates to these viruses in high-risk populations over the 10-year period 1981-1991. DESIGN AND STUDY POPULATION: Blood was taken from 2873 permanent residents, children and adults from previously identified high-risk areas in western NSW and northern Victoria. Samples were tested by the haemagglutination-inhibition (HI) test for antibodies to the four viruses. All sera were also tested for MVE and KUN antibodies by the more specific neutralisation test (NT). Ninety-five of the subjects had been seronegative when sampled 10 years previously. RESULTS: Age standardised prevalence rates for flavivirus HI antibodies (MVE, KUN, KOK) ranged from 66% (Bourke) to 15% (Forbes), and were similar to those observed 10 years previously. However, specific NT antibodies to MVE and KUN were uncommon in all districts except Bourke, indicating a very high level of susceptibility to Australian encephalitis, should a fresh epidemic occur. Whereas KUN virus seems enzootic in NSW and Victoria, MVE did not appear to have been present since the last outbreak in 1974, even in Bourke. Flavivirus antibody rates (as detected by the broadly reactive HI test) greatly exceeded those specifically attributable to MVE and KUN (NT test) or KOK, leading to the speculation that unidentified flaviviruses are responsible for most human infections. Ross River virus antibody prevalence rates exceeded those of flaviviruses in all districts, ranging from 72% (Bourke) to 25% (Cohuna), and were uniformly higher than those observed in 1981. Ten-year seroconversion rates in seronegative panels were 8.5% for flaviviruses and 24.2% for RR virus, and are broadly consistent with the cross-sectional study. CONCLUSIONS: Although flavivirus and alphavirus infections have occurred at a "steady rate"in western NSW and northern Victoria, there is a general lack of immunity to the agents of Australian encephalitis in all centres except Bourke. This needs to be considered in public health policy in these areas.

Virological and immunological studies of Wesselsbron virus in experimentally infected red Sokoto (Maradi) goats.

Red Sokoto goats aged four to five months were experimentally infected with the Nigerian strain of Wesselsbron virus. Viraemia commenced 24-72 hours after infection and lasted for 3-4 days. A febrile reaction which was mostly biphasic coincided with viraemia. A 50% mortality rate was observed among infected animals. The virus was re-isolated in mice from almost every tissue (liver, spleen, lungs, brain, kidney, adrenal, lymph node and heart) obtained from dead goats. Complement fixing antigens were detected in the tissues of dead goats, the titre of which correlated positively with the infectivity titre. All infected animals developed complement-fixing and haemagglutination inhibiting antibodies to Wesselsbron virus. However, neutralizing antibody was detected only in goats that survived the infection.

Genetic studies of flavivirus resistance in inbred strains derived from wild mice: evidence for a new resistance allele at the flavivirus resistance locus (Flv).

Studies of genetic resistance to flavivirus infection in laboratory mice have led to the development of a single model in which resistance is conferred by an autosomal dominant gene designated Flvr. Because of evidence suggesting that wild mice carry virus resistance genes which are not present in laboratory mice, we compared flavivirus resistance in the inbred strains CASA/Rk, CAST/Ei, and MOLD/Rk, which are derived directly from wild mice, and the congenic strains C3H/RV (Flvr/Flvr) and C3H/HeJ (Flvs/Flvs). Resistance to the Murray Valley encephalitis virus strain OR2 and the 17D vaccine strain of yellow fever virus was assessed by determining the lethality of intracerebral infection and by measuring virus replication in the brain. The resistance of the CASA/Rk and CAST/Ei strains resembled the resistance of C3H/RV mice, whereas the resistance of the MOLD/Rk strain was intermediate between those of C3H/RV and C3H/HeJ mice. Genetic analyses showed that resistance in both the CASA/Rk and MOLD/Rk strains is conferred by single autosomal dominant alleles at the Flv locus. Our data indicate that flavivirus resistance in the CASA/Rk strain is due to a gene which is similar or identical to Flvr, whereas resistance in the MOLD/Rk strain is due to a previously undescribed gene which we designate Flvmr to indicate minor resistance to flavivirus infection. Since genetic resistance to flaviviruses is rare in laboratory mice, the CASA/Rk and MOLD/Rk strains will be valuable for further investigation of this phenomenon.

Long term intraparenchymal Ig secretion after acute viral encephalitis in mice.

Oligoclonal bands in the cerebrospinal fluid indicate intrathecal synthesis of Ig of restricted heterogeneity and are associated with a number of central nervous system inflammatory diseases. To gain better insight into the persistence of oligoclonal bands found in the central nervous system we studied mice infected with Sindbis virus (SV), a RNA virus that causes an acute, nonfatal encephalitis in mice. SV was inoculated intracerebrally into weanling mice and brains and spleens were harvested at various time points long after the acute encephalitis had resolved. A modified enzyme-linked immunoassay was used to study cultured B cells separated from the brain and spleen for their Ig isotype expression and specificity for SV. We used the polymerase chain reaction technique to detect SV RNA in brain. Three mo after inoculation 47% of the B cells found in brain are secreting antibody specific for SV structural proteins. By 1 yr 62% are SV specific. B cells secreting IgG2a predominate. Polymerase chain reaction data indicate that despite complete clearance of infectious virus by 7 days SV RNA is still present in brain at least 6 mo after infection. The data indicate that B cells in brain secrete antibody to SV long after the acute encephalitis has resolved. The persistence of SV RNA suggests that viral protein may continue to be made, providing the impetus for the continued presence of SV-specific B cells in the brain.

Louping ill virus envelope protein expressed by recombinant baculovirus and vaccinia virus fails to stimulate protective immunity.

We have constructed recombinant baculoviruses and vaccinia viruses containing cloned DNA, encoding either the envelope protein alone or all of the structural proteins (core, membrane and envelope) of louping ill virus. Glycosylated viral envelope protein, presented both inside and on the surface of insect and mammalian cells, was expressed by all four recombinant viruses. Differences in antigenic presentation of the envelope protein were observed between the envelope protein and structural protein constructs as well as between the insect and mammalian cell expression systems. Despite the expression of epitopes known to elicit neutralizing and protective antibodies when present in authentic antigen, the recombinant envelope protein expressed by either vector failed to induce, in mice or rabbits, either neutralizing or protective antibodies against louping ill virus.

A vaccine against Semliki Forest virus consisting of a monoclonal anti-idiotypic antibody cross-linked to a protein which contains virus-specific T-helper cell epitopes.

A recombinantly expressed protein, consisting of cro-beta-galactosidase at the N-terminus and amino acid residues 115 to 151 of the E2 membrane of Semliki Forest virus (SFV) at the C-terminus containing two T-helper cell epitopes of SFV, was cross-linked with glutaraldehyde to a noninternal image monoclonal anti-idiotypic antibody (ab2 alpha MAb) able to induce SFV-neutralizing anti-anti-idiotypic (ab3) antibodies in BALB/c mice. This vaccine, which might potentially induce SFV-specific T-helper cell memory, established in BALB/c mice a state of protective immunity against virulent SFV within 10 days of immunization. A steady rise in serum neutralization titre occurred from day 7 to day 28 after primary anti-idiotypic immunization, levelling off thereafter. In primarily immunized mice significant rises of serum neutralization titres, which could be indicative for an operational T-helper cell memory, were not observed after challenge on day 35 with virulent SFV. The results suggest that SFV is neutralized by ab3 antibodies shortly after challenge, preventing, thereby, virus multiplication to levels sufficient to provoke a measurable booster response.

Induction of autoantibodies to human enzymes following viral infection: a biologically relevant hypothesis.

Macro enzymes, i.e. complexes of normal (iso-)enzymes with an immunoglobulin, may be due to immunological cross-reactions evoked by specific viral antigenic determinants that are homologous to regions in the target enzymes. A search of the National Biomedical Research Foundation protein databank with the amino-acid sequence of human pancreatic amylase revealed a marked homology with a fragment of the yellow fever virus major envelope protein E: i.e. an overall identity of 19.7 per cent and a high degree (40.9 per cent) of conservative amino-acid substitutions over 119 amino acids. At each identical position, the corresponding residue of Taka amylase A was examined by three-dimensional structure analysis, to determine whether the position is likely to be buried or exposed. The existence of a site (epitope) on amylase recognized by an anti-amylase antibody is discussed.

IgG subclass responses in brain and serum in Semliki Forest virus demyelinating encephalitis.

The response of IgG subclasses within the central nervous system (CNS) of the mouse to Semliki Forest virus (SFV), an alphavirus associated with meningoencephalitis and primary immune mediated demyelination, has been measured using immunocytochemistry. The subclass response in serum has been assessed using virus specific enzyme linked immunosorbent assays. In the CNS IgG1 was poorly represented throughout the sampling period of 28 days with a maximum of 3% of the total number of positive cells on day 21 after infection. Of the few IgG positive cells present on day 6, 2a and 3 positive cells were dominant. From day 9 onwards the numbers of 2b positive cells rose and by day 28 IgG2a, 2b and 3 subclasses showed roughly equal percentages of total cells counted. By contrast, in serum, anti-SFV IgG 2a and 2b were the first to appear and were dominant on day 12 and 21. Levels of anti-SFV IgG1 did not rise until after day 12 but rose steeply thereafter. IgG3 was weakly positive at days 9 and 12, rising slightly on day 21. Clearly there are differences in the patterns of subclass response between the CNS and the periphery. This may be important in the context of neurotropic viral infection.

Isolation of Kunjin virus from a patient with a naturally acquired infection.

OBJECTIVE: To describe the first isolation of Kunjin virus from a patient with a natural infection. CLINICAL FEATURES: A 48-year-old female egg collector presented with muscle weakness, fatigue and extreme lethargy three weeks after developing rigors, headache, photophobia and nausea. Kunjin virus was isolated from an acute phase serum sample. INTERVENTION AND OUTCOME: The patient made a partial recovery after treatment for 10 days with Catovit (Boehringer Ingelheim), one tablet twice a day, and then declined further medical contact. CONCLUSION: The isolation of Kunjin virus from this patient confirms previous serological observations which suggested that this mosquito-borne virus caused febrile episodes in humans accompanied, on occasion, by polyarthralgia or mild central nervous system signs and symptoms.

Development of a simple indirect enzyme-linked immunosorbent assay for the detection of immunoglobulin M antibody in serum from patients following an outbreak of chikungunya virus infection in Yangon, Myanmar.

During 1984, 1548 children were admitted to the Yangon [Rangoon] Children's Hospital in Myanmar [Burma] with haemorrhagic fever. No evidence of recent dengue infection was found in 577 of the 803 children from whom paired sera were obtained, raising the possibility of reappearance of Chikungunya virus infection in Myanmar. An enzyme-linked immunosorbent assay (ELISA) for the detection of anti-Chikungunya virus immunoglobulin M (IgM) antibody was prepared and standardized using only reagents which are commercially available or which could be prepared without the use of sophisticated equipment. While there was 90% agreement between haemagglutination inhibition (HI) tests and the IgM ELISA in the diagnosis of acute Chikungunya virus infections, 12 additional patients with stationary anti-Chikungunya virus HI antibody titres could be identified as having acute Chikungunya infections using the ELISA. Furthermore, the ELISA could identify twice as many patients (31/103) at the time of admission to hospital as the HI test (15/103). There was no false positive IgM reaction with the ELISA which could be attributed to the presence of rheumatoid factor. Using the test, 103 of a sample of 163 children who presented to the Yangon Children's Hospital with fever/haemorrhagic fever were diagnosed as Chikungunya patients, 4 had possible dual Chikungunya and dengue infections, 16 had dengue, 30 had neither Chikungunya nor dengue infections, and a definitive diagnosis could not be made for 10 patients. Routine use of the ELISA would alert authorities to future outbreaks of Chikungunya virus infection and avoid admission to hospital of patients with a non-life-threatening viral disease.

[Transfusion-associated non-A, non-B, non-C hepatitis caused by flaviviruses]. / A non-A, non-B, non-C flavivírus által okozott inokulációs hepatitis.

Hepatitis C virus was shown to be a member of the flavivirus family. Tick-borne encephalitis virus and West Nile virus, members of the same family occur in Hungary, too. Serum samples from patients suffering from transfusion associated hepatitis were tested with yellow fever virus antigens for specific IgG, and IgM using immunofluorescence test. Eight hundred serum samples were tested. Yellow fever virus related IgG antibodies were found in 232 sera. In the case of 72 patients specific IgM antibodies could also be detected. The majority of the IgM positive patients underwent surgical operation and/or blood transfusion 1 to 2 months before the onset of the disease. Fifty-four sera positive for yellow fever virus-related antibodies were tested with HCV reagents, but only 13 were found to be positive, or cross-reacting. The 20 patients with yellow fever related antibodies were controlled with tick-borne encephalitis antigens, too. Nevertheless, no measurable cross-reaction could be detected. No measurable cross-reaction could be detected with the West Nile virus. The hepatitis B markers also were tested in 44 sera positive for yellow fever antibodies. There was only one, which contained HBsAg, and 10 of them proved to be positive for anti-HBcAg. The results indicate, that a non-A, non-B, non-C flavivirus is also present in the Hungarian population, which can be detected on the basis of the antigenic cross-reactivity with the attenuated yellow fever virus. This virus seems to be responsible for every 11th transfusion associated hepatitis examined.(ABSTRACT TRUNCATED AT 250 WORDS)

The immune response in viral encephalitis.

The central nervous system (CNS) offers a unique organ system in which to study viral immunopathogenesis. The presence of the blood-brain barrier that restricts entry of cells and protein, the restricted expression of MHC antigens and the nonrenewable nature of the neuronal cell population offer challenges to the immune system for viral clearance and increase the chances for viral persistence. We have used Sindbis virus encephalitis in mice as a model system for the study of the development of immune reactions in the CNS and clearance of virus from neurons. The immune response to this and other viral infections of the CNS probably are initiated in peripheral lymphoid tissue followed by entry of activated T cells into the cerebrospinal fluid, meninges, and brain parenchyma. During Sindbis virus infection class I and II MHC antigens are expressed extensively on microglia which may present viral antigen produced by the infected neurons. Full development of the inflammatory response requires virus-specific T cells, but participating cells include NK cells, gamma delta T cells, monocytes and B cells. The entry of Ig-secreting B cells corresponds with the appearance of increased amounts of IgG and IgA in the cerebrospinal fluid. Clearance of Sindbis virus from the brain was studied using persistently infected severe combined immunodeficient (scid) mice. Passive transfer of immune serum or immune T cells to these infected mice demonstrated that antibody to a surface glycoprotein of the virus eliminated virus by a noncomplemented-mediated, noncytolytic mechanism. Immune T cells had no effect on virus replication.(ABSTRACT TRUNCATED AT 250 WORDS)

Arboviruses as aetiological agents of encephalitis in the People's Republic of China.

A serological study was undertaken to determine the role of arboviruses as etiological agents of encephalitis in the People's Republic of China (PRC). Paired sera were collected during mosquito seasons in 1988-1990 from 614 patients with possible viral encephalitis in 15 regions of PRC and tested for haemagglutination inhibiting antibodies to selected arboviruses. Seroconversions were documented to alphavirus and flavivirus antigens in 13.0 and 18.7% of patients respectively in most of the study areas. No California group seroconversion was detected. The age of alphavirus seroconvertors ranged from 2 months to 32 years and of flavivirus seroconvertors from 6 months to 50 years, with higher numbers in males. Serious central nervous system manifestations were seen more commonly in flavivirus seroconvertors. This study affirms the importance of flavivirus as causative agents of encephalitis in PRC and provides evidence that one or more alphaviruses are causing symptomatic infections with neurological involvement in PRC.

Macrophage function in the acute phase of lactic dehydrogenase virus-infection of mice: suppression of superoxide anion production in normal mouse peritoneal macrophages by interferon-alpha in vitro.

The effect of interferon (IFN)-alpha on the release of superoxide anions (O2-) by normal mouse macrophages (PEM) was examined. Sera from LDV-infected mice at 1 day, but not at 7 days post-infection, suppressed the O2- release by PEM. When PEM were exposed in vitro for 24 h to IFN-alpha, their capacity to release O2- was significantly suppressed. Progressive suppression of O2- release with increasing IFN-alpha concentration was observed. These results suggest that IFN-alpha in the circulation may be one of several suppressive factors on macrophage function in the early phase of infection and IFN-alpha may play a modulatory role in inflammation and immunity.