Medical Microbiology

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Browsing Medical Microbiology by Subject "Arbovirus infections"

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    Development of detection assays for sindbus virus and investigating in vitro infection of mammalian cells
    (University of the Free State, 2013-08) Hanekom, Hermanus Albertus; Burt, F. J.
    Sindbis virus (SINV) is a member of the Alphavirus genus and belongs to the family Togaviridae. The virus has a positive sense RNA genome of 11700 bases which encodes for both structural and non structural proteins. Infections are frequently diagnosed based on clinical, epidemiological and laboratory criteria. Laboratory confirmation is essential as SINV infections must be distinguished from various conditions that share similar clinical manifestations. The most frequently used methods for identification are haemagglutination inhibition, enzyme-linked immunosorbent assay, plaque reduction neutralization tests as well as conventional in-vitro neutralization assays. Serological assays for the detection of SINV are not readily available commercially and due to the non-specific symptoms caused by SINV infection the number of infections per annum may be under diagnosed. The purpose of this study was to develop serological assays such as ELISA and a novel neutralization assay that could be used in serological surveys for the detection of IgG antibodies against SINV. Furthermore to develop assays that could be used to determine the level of viral replication in mammalian cells for characterizing infection in mammalian cells as well as investigate the influence of interferon on viral replication and look for evidence of apoptosis caused by SINV infection. An in house ELISA was developed and used to screen 146 sera for IgG antibodies against SINV. The in-vitro neutralization assay is the gold standard for serology and 43 samples in total were tested in both the ELISA and the in-vitro neutralization assay. Analysis and comparison of the results obtained using the in-house ELISA and the neutralization assay indicated that the sensitivity of the ELISA was 68.9% and the specificity of the in house ELISA was 78.57 - 85.71% depending on the use of the percentage positive or optical density values to differentiate positive and negative samples. A forward and reverse primer for the amplification of a conserved 181bp region of the nsp2 gene encoding the nsp2 protein of SINV were designed along with a TaqMan hydrolysis probe to be used in a real time quantitative TaqMan PCR. The infection of mammalian cells, human macrophages and HeLa cells, was determined by measuring viral loads with a real time quantitative TaqMan RT-PCR. Two strains of SINV were used in attempts to infect macrophages, a strain from Egypt and a strain from South Africa. Small increases in viral load suggested possible low levels of viral replication but were considered insufficient to warrant further investigation and insufficient to investigate occurrence of antibody dependent enhancement of disease in macrophages. The mechanism possibly interfering with replication of virus in the human macrophages was investigated. Supernatant fluid samples from macrophage infections were tested for the release of interferon gamma which could inhibit viral replication. There were nine to fifteen fold differences in the concentration of 2 interferon gamma detected in the supernatant fluid at baseline and 24h after infection. HeLa cells were treated with similar concentrations of human interferon gamma at different time intervals. Pretreatment and concurrent treatment with infection showed reduced levels of viral load compared with no treatment or delay in treatment. Hence the suggestion that interferon could have played a role in inhibiting viral replication in the human macrophages. DNA was extracted from HeLa cells infected with SINV and the DNA fragments separated through agarose gel electrophoreses. There were multiple bands visible in the infected samples whereas the negative control did not show multiple bands, only one large band of genomic DNA. The presence of multiple DNA fragments in infected cells and absence of those fragments from uninfected cells were suggestive of virus induced apoptosis.
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    Development of molecular and serological assays for diagnosis and surveillance of Crimean-Congo haemorrhagic fever virus
    (University of the Free State, 2015-05) Pieters, Danelle; Burt, F. J.; Jansen van Vuren, P.
    Crimean-Congo haemorrhagic fever virus (CCHFV) an arthropod-borne virus associated with haemorrhagic disease in humans. The global distribution of CCHFV correlates with that of ticks from the Hyalomma genus. CCHFV infection is diagnosed by detection of viral nucleic acid using reverse-transcription polymerase-chain-reaction (RT-PCR) or other molecular assays, by virus isolation from infected cell culture or suckling mouse brain or by detection of anti-CCHFV antibodies using enzyme-linked immunosorbent assay (ELISA) or immunofluorescence assay (IFA). High biocontainment facilities are required for virus isolation and preparation of whole virus native antigen for use in serological assays. Currently, treatment is limited to supportive therapy. CCHFV is currently emerging and re-emerging in many regions, which emphasize the requirement for safe, reliable and inexpensive assays to increase diagnostic capacity and monitor emergence of the virus. A nucleic acid sequence-based amplification (NASBA) molecular assay for detection of CCHFV ribonucleic acid (RNA) was developed. The assay can be performed without the requirement for sophisticated laboratory equipment. A commercially available enzyme mixture and buffer were compared with a more cost effective and easier to obtain in-house enzyme mixture and amplification buffer. Specificity of the NASBA assays were determined by testing viral RNA extracted from Vero cell culture infected with genetically diverse southern African CCHFV strains. A total of 41/48 samples tested were positive. Sensitivity of the NASBA assays was determined using dilutions of viral RNA and transcribed RNA to detect minimal copy number that could be amplified. The NASBA assay was able to detect at least 3.7 RNA copies. Diagnostic application of the NASBA assays was investigated by amplifying RNA extracted from clinical samples and the results compared with two commercial real-time RT-PCR assays. A total of 20/22 samples tested positive using the NASBA whereas the commercially available assays were able to amplify 22/22 samples. Subsequently, the inhibitory effect of sera on the amplification of CCHFV RNA using the NASBA assay was investigated using sera spiked with transcribed RNA. Two expression systems were investigated for the expression of recombinant CCHFV nucleocapsid protein (NP) for use in serological assays. The baculovirus expression system was initially investigated. The open reading frame of the S segment of a CCHFV strain was codon optimized for expression in insect cells. A pFastBac HT B transfer vector containing the optimized CCHFV NP gene was prepared and used to transform DH10Bac™ Escherichia coli cells to transpose the optimized CCHFV NP gene to a bacmid. The recombinant bacmid was utilized to transfect Spodoptera frugiperda 9 cells. The cell lysates were analysed, however, no expression of the CCHFV NP could be confirmed. A mammalian expression system was subsequently investigated. A pcDNATM 3.1D/V5-His-TOPO.CCHFV.NP construct was used to transfect baby hamster kidney-21 cells. Expression of CCHFV NP was detected in transiently transfected cells using IFA and serum collected from a convalescent CCHFV patient. To profile the immune response against CCHF viral proteins, 15 sera collected from convalescent patients at various times after onset of illness were tested for antibody against CCHFV NP and glycoproteins (GP) using commercially available slides. The antigen slides were prepared from transfected cells expressing recombinant CCHFV NP and GP. Antibody against CCHFV GP and NP were detected in all samples. End point titers of anti-CCHFV NP and GP were determined for two serum samples. Commercially available slides are expensive and therefore have limited application for testing large numbers. Application of in-house antigen slides prepared from transfected cells expressing CCHFV NP were tested using IFA and 14 sera collected from convalescent CCHFV patients. All sera tested positive, suggesting that preparation of a stable cell line expressing CCHFV NP is warranted for application in detection of antibody against CCHFV.
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    Immunogenicity and serological applications of flavivirus ED III proteins and multiplex RT-PCR for detecting novel Southern African viruses
    (University of the Free State, 2015-01) Mathengtheng, Lehlohonolo; Burt, Felicity; University of the Free State, Grow Our Own Timber Fellowship
    English: West Nile virus (WNV) is endemic to southern Africa but the true burden of disease associated with WNV infection remains unknown in this region. The presence of the mosquito-borne Wesselsbron virus (WESSV) has also been established in southern Africa. Although not considered a serious human pathogen, WESSV has been associated with encephalitis in humans. No routine testing is performed for WESSV diagnosis in South African patients and hence, similar to WNV infections, the virus remains unreported and overlooked. The presence of tick-borne flaviviruses in southern Africa on the other hand, has not been established despite the presence of suitable vectors. A challenge associated with serological identification of flaviruses is the high level of cross-reactivity between members of flaviviruses and the impracticality of using neutralization assays. Serological assays using reagents that can be handled in a biosafety level 2, or lower facility, were developed and evaluated for the detection and differentiation of tick- and mosquito-borne flaviviruses in the Free State province of South Africa. A total of 2393 serum samples from a variety of species including humans, cattle and sheep were tested using Kunjin virus (KUNV) cell lysate antigen for the detection of anti-flavivirus antibodies in an indirect IgG enzyme-linked immonosorbent assay (ELISA). To further differentiate positive reactors on KUNV assay for antibodies against tick- or mosquito-borne flaviviruses, recombinant envelope domain III (r-EDIII) proteins of Langat virus (LGTV), WNV and WESSV were expressed in a bacterial expression system and used in ELISA. A total of 722 samples were positive on the KUNV assay of which 71, 457 and 431 were positive on the r-LGTVEDIII, r-WNVEDIII and r-WESSVEDIII assays, respectively. A total of 70 samples were reactive on the KUNV assay but not on any of the other assays, suggesting that there are other flaviviruses circulating in the Free State province for which specific r-EDIII assays were not available. Collectively, the results suggest a strong presence of flaviviruses co-circulating in the Free State province with an abundance of mosquito-borne flaviviruses. There is evidence suggesting the presence of tick-borne flaviviruses but it has yet to be confirmed. The EDIII protein is a useful tool that can be utilized in the detection and differentiation of flaviviruses in resource-limited laboratories. Vertebrate hosts play a role in the maintenance and circulation of flaviviruses and, although not involved in the direct transmission of tick- and mosquito-borne flaviviruses, form a link for virus transmission between vectors. In addition to rodent involvement in maintenance of flaviviruses, rodents have also been implicated in the transmission of other medically significant viruses such as arenaviruses, lyssaviruses and hantaviruses. Arboviruses and viral heamorrhagic fevers are among the most pathogenic and devastating disease agents in many parts of the world. It is therefore important for surveillance of such pathogens to be conducted as they may result in considerable public health implications. Molecular assays were developed for the detection of a selected number of arboviruses and viral heamorrhagic fevers, specifically Crimean-Congo haemorrhgaic fever virus (CCHFV), mosquito-borne and tick-borne flaviviruses, as well as hantaviruses. To date, the presence of hantaviruses have not been confirmed in southern Africa despite their emergence in the western and eastern parts of Africa in recent years. In our study, serum samples of patients presenting with a tick-bite and febrile illness without diagnosis were screened for hantavirus IgG antibodies using commercial assays that represent the American and Eurasian hantavirus species. The overall seropositivity rate obtained was 10% and 6% for assays representing the Eurasia and America hantavirus species, respectively. The emergence of hantaviruses in Africa and their seroprevalence in the Cape region of South Africa as well as in our study warranted the development of a molecular assay to further investigate the presence of these viruses in southern Africa. In order to achieve this, a real-time RT-PCR was designed and optimized. The assay was designed by identifying in-house primers targeting the partial region of the S-segment of hantaviruses and hydrolysis probes targeting the inner region of the amplicon. The probes were based on nucleotide sequences targeting the Murinae-associated hantaviruses for the HNLS probe, Sigmodontinae- and Arvicolinae-associated hantaviruses for the ASPRB probe, as well as the SANGV probe for the African hantavirus Sangassou virus. The flavivirus RT-PCR targeted the NS5 region with a probe shown to successfully detect RNA samples that represent eight different flavivirus species. The hantavirus primers and probes were evaluated using RNA transcribed from synthetic genes representing the different hantaviral genotypes and subsequently reverse transcribed cDNA. The limit of detection was determined to range from ~160 to ~17 copies of DNA for the various hantaviral probes and flavivirus probe. In addition, a conventional multiplex PCR assay aimed at detecting CCHFV and flavivirus RNA in samples collected from undiagnosed patients presenting with a tick-bite and febrile illness was developed by using nested primers targeting the partial region of the genome of the S-segment of CCHFV and hemi-nested primers targeting the partial region of the NS5 gene of flaviviruses. When clinical samples from patients with known tick-bites, mild disease and no diagnosis were screened, a patient was restrospectively diagnosesd as having a CCHFV infection. This result highlights the need for awareness to arboviruses and viral hemorrhagic fevers in mild cases that may easy be overlooked but constitute a significant public health risk. Similarly, there needs to be an increase in awareness for travelers to South Africa at risk of returning to their country with an exotic viral haemorrhagic fever, highlighting the need for increased awareness and increased diagnostic capacity for arboviruses. Finally the current lack of registered human vaccines warrants continued investigation of the immunogenicity of selected viral proteins. The recombinant antigens developed for serological purposes were further employed in this study to determine the immunogenicity of the envelope domain III proteins of WNV and LGTV in a mouse model. Small molecule antigens or weakly immunogenic antigens frequently require an adjuvant to stimulate a stronger immune response. In addition, adjuvants can shift an immune response towards a Th1 or Th2 response as required based on immune correlates of protection. Groups of mice were immunized with purified r-WNVEDIII or r-LGTVEDIII protein alone, r-WNVEDIII or r-LGTVEDIII protein in combination with one of three adjuvants, including saponin, Titermax® gold and Alhydrogel® or one of the three adjuvants without a flavivirus protein. In the absence of any adjuvant the results from WNV protein alone were inconclusive whereas a strong IgG1 response was induced by LGTV EDIII. Briefly, protein alone or mixed with alum elicited a predominantly Th2 response whereas protein in combination with saponin or Titermax® gold induced a mixed Th1 and Th2 response. Mice immunized with r-WNVEDIII reacted against KUNV native antigen indicating that the protein was expressed in conformation exposing epitopes that are required to induce a detectable antibody response. The formulation of the WNV and LGTV proteins with different adjuvants produced similar results with a shift in response depending on the adjuvant. Despite an absence of being able to assess cell mediated responses using antigen stimulated splenocytes and profiling cytokine production as initially planned, the results do confirm that r-WNVEDIII and r-LGTVEDIII proteins are immunogenic in the absence of complete E protein, with ability to induce detactable antibody when formulated with adjuvant and that different adjuvants are able to have an immunomodulatory influence on the type of response induced.