Human T Cell Responses to Dengue Virus Infections: CD8+CTL and Acute Immunosuppression: a Dissertation

Mathew, Anuja

01 January 1999

There are four serotypes of dengue virus designated dengue 1, 2, 3 and 4 (D1, D2, D3 and D4) and epidemiological studies indicate that a severe complication of dengue virus infection - dengue hemorrhagic fever (DHF) is more likely to occur following a secondary infection. DHF is hypothesized to be immunologically mediated and may be triggered by virus-specific T cells. It is also likely that dengue virus-specific cytotoxic T lymphocytes (CTLs) are important for recovery from dengue virus infections. An analysis of the immune response during acute illness and when the patient has recovered from the infection (immune state) is therefore important as it will provide insights into the immunopathological nature of the disease. This thesis initially examines the CD8+CTL responses in volunteers who have received live attenuated dengue vaccines and then investigates acute and immune T cell responses in children following natural infection with dengue. When this project was initiated, there was little available information on the human CD8+ T cell responses to dengue viruses. PBMC from one donor had generated memory CD8+CTL to the nonstructural protein NS3 of dengue virus. Memory CD8+CTL responses were therefore analyzed to determine the diversity of the T cell response to dengue virus and to identify immunodominant proteins using PBMC from eight healthy adult American volunteers who had received monovalent live-attenuated candidate vaccines of the 4 dengue serotypes. All the donors had specific T cell proliferation to dengue viruses and to other flaviviruses that we tested. CTLs were generated from the stimulated PBMC of all donors and in the seven donors tested, dengue virus-specific CD8+CTL activity was demonstrated. The nonstructural proteins NS3 and NS1.2a and the structural protein E were recognized by CD8+CTLs from six, five and three donors respectively. All donors recognized either NS3 or NS 1.2a. In a donor who received a dengue 4 vaccine, CTL killing was seen in bulk culture against the premembrane protein (prM). This is the first demonstration of a CTL response against the prM protein. The CTL responses using PBMC of two donors were serotype-specific whereas all other donors had serotype-cross reactive responses. For one donor, CTLs specific for E, NSl.2a and NS3 proteins were all HLA-B44 restricted. For the three other donors tested the potential restricting alleles for recognition of NS3 were HLA-B38, A24 and/or B62 and B35. These results indicate that the CD8+CTL responses of humans after immunization with a single serotype of dengue virus are diverse and directed against a variety of proteins. The nonstructural proteins NS3 and NSl.2a appear to be immunodominant and should be considered when designing subunit vaccines for dengue. Previously T cell responses had not been examined in people who have had natural infections with dengue. The HLA diversity between North American Caucasians and populations where dengue is a serious health problem, calls for the analysis of immune responses in people who have been infected with natural circulating strains of the virus. We examined the memory cytotoxic T lymphocytic (CTL) responses of peripheral blood mononuclear cells (PBMC) obtained from patients in Thailand 12 months after natural symptomatic secondary dengue infections. In all four patients analyzed, CTLs were detected in bulk culture PBMC against nonstructural dengue proteins. Numerous CD4+ and CD8+ CTL lines were generated from the bulk cultures of two patients, KPP94-037 and KPP94-024, which were specific for the NSl.2a and NS3 proteins respectively. All CTL lines derived from both patients were crossreactive with other serotypes of dengue virus. The CD8+ NS1.2a specific lines from patient KPP94-037 were HLA-B57 restricted and the CD8+ NS3 specific lines from patient KPP94-024 were HLA-B7 restricted. The CD4+ CTL lines from patient KPP94-037 were HLA-DR7 restricted. A majority of the CD8+CTLs isolated from patient KPP94-024 were found to recognize a.a. 221-232 on NS3. These results demonstrate that after symptomatic secondary natural dengue infections in Thai patients, CTLs are mainly directed against nonstructural proteins and are broadly crossreactive. The data correlate with our observations that nonstructural proteins are immunodominant proteins in volunteers who received dengue vaccines. We were interested in examining CTL responses in children during their acute illness and comparing them to memory CTLs obtained from the same children a year or more after the infection. A detailed analysis on samples from nine patients during their acute illness failed to generate any dengue virus-specific CTL responses. We therefore decided to determine if cell mediated responses are altered during acute dengue infection. Decreased proliferative responses to mitogens and recall antigens have been observed in PBMC obtained during several acute human viral infections. All responses of PBMC during acute illness were compared to the same patients PBMC obtained at least 6 months after their infection. Proliferative responses to PHA, anti-CD3, tetanus toxoid and dengue antigens were significantly decreased in PBMC obtained during the acute infection. The proliferative responses to PHA were restored by the addition of gamma-irradiated autologous immune or allogeneic PBMC. Cell contact with the irradiated PBMC was necessary to restore proliferation. Non-T cells from the acute PBMC of dengue patients did not support proliferation of T cells from control donors in response to PHA, but T cells from the PBMC of patients with acute dengue proliferated if accessory cells from a control donor were present. Addition of anti-CD28 antibodies restored anti-CD3-induced proliferation of the PBMC of some patients. The percentage of monocytes was reduced in the acute sample of PBMC of the dengue patients. Addition of IL-2 or IL-7, but not IL-4 or IL-12 also restored proliferation of acute PBMC stimulated with anti-CD3. The results demonstrate that both quantitative and qualitative defects in the accessory cell population during acute dengue illness result in a depression of in vitro T cell proliferation. The data generated from this project shed light on the nature of the immune responses during acute natural dengue infections. It strengthens the existing data on the human memory CD8+CTL responses to dengue viruses and validates the observations by examining memory CTL responses after natural dengue infection in patients from Thailand. In addition, we demonstrate a profound defect in lymphoproliferative responses during dengue illness.

Dengue Virus

CD8-Positive T-Lymphocytes

T-Lymphocytes

Cytotoxic

Immunosuppression

Cells

Hemic and Immune Systems

Investigative Techniques

Therapeutics

Virus Diseases

Viruses

Circulação dos vírus dengue no estado de Goiás: vigilância laboratorial (1994-2013) e perfil de anticorpos neutralizantes sorotipo específico durante o surto de 2013 em Goiânia / Circulation of dengue virus in the state of Goiás: laboratory surveillance (1994-2013) and serotype-specific neutralizing antibody profile during the 2013 outbreak in Goiânia

Argolo, Angela Ferreira Lopes de Teive e

19 December 2014

Submitted by Marlene Santos (marlene.bc.ufg@gmail.com) on 2018-08-08T19:03:16Z No. of bitstreams: 2 Tese - Angela Ferreira Lopes de Teive e Argolo - 2014.pdf: 1773502 bytes, checksum: 393b63ce506fdd2be70f95e14be99755 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2018-08-09T11:52:01Z (GMT) No. of bitstreams: 2 Tese - Angela Ferreira Lopes de Teive e Argolo - 2014.pdf: 1773502 bytes, checksum: 393b63ce506fdd2be70f95e14be99755 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2018-08-09T11:52:01Z (GMT). No. of bitstreams: 2 Tese - Angela Ferreira Lopes de Teive e Argolo - 2014.pdf: 1773502 bytes, checksum: 393b63ce506fdd2be70f95e14be99755 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2014-12-19 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Fundação de Amparo à Pesquisa do Estado de Goiás - FAPEG / Dengue is an endemic disease in Goias state with current circulation of the four serotypes. In the last five years has been occurred a significant increase in cases, hospitalizations and deaths caused by dengue in the region. In this thesis the first manuscript analyzed data from the virological surveillance of DENV in Goias during 1994-2013. Virus isolation in C6/36 (A.albopictus) cell culture followed by indirect immunofluorescence using monoclonal antibodies were performed in LACEN-GO. During the study period the four serotypes have been identified with introduction of DENV-1 in 1994, DENV-2(1998), DENV-3(2002) and DENV-4(2011). Among 21,684 virus isolation tests performed 4,839(22.3%) were positive. DENV-1 was isolated in 3,023(62.5%), DENV-3 in 1,051 (21.7%), DENV-4 in 413(8.5%) and DENV-2 in 352(7.3%) samples respectively. There were changes in the predominance of serotypes throughout the study period with dominance of DENV-1 between 1994-2002 and 2009-2011, DENV-3 in 2003-2008 and DENV-4 in 2013. The DENV-2 was never prevalent among serotypes isolated in LACEN-GO. The time series of the virological surveillance of dengue in Goias showed the introduction and the temporal sequence of circulation of DENV in the state. This study contributes to characterize the epidemiological scenario of dengue in Goias with possible implications for epidemiological surveillance of the disease in the region. The second manuscript evaluated the presence of dengue serotype-specific neutralizing antibodies (NAb) in patients involved in a clinical dengue cohort established during epidemic of 2012-2013 in Goiania, state of Goias. Among 452 participants of the cohort we analyzed the paired samples from 60 patients classified as severe dengue (n=40) or dengue fever (n=20). The eligibility criteria were confirmation of the infection by IgM, NS1Ag and /or RT-PCR; IgG positive in at least one of the samples. Monotypic or multitypic response were defined: PRNT50≥1/20 for only one serotype or ≥1/20 for two or more serotypes simultaneously. The infecting serotype was defined by ≥4 fold increase in the title of NAb in paired samples. Overall 73.3% of patients had NAb against DENV-4, 68.3% against DENV-1, 68.3% against DENV-2 or 61.6% against DENV-3. The patients' ages ranged from 3 to 81 years. Regardless of age group 85% of patients had multitypic response while 15% had monotypic response. Patients infected with DENV-4 showed the greatest difference in NAb titers in comparison to other serotypes indicating predominance of seroconversion for serotype 4. There was no correlation among preexistent NAb and disease severity. The characterization of dengue serotype-specific immune response is important to study the relationship of preexistence of neutralizing antibodies with clinical outcomes of disease also facing the perspective of introducing of antidengue vaccines to identify protective immunity. / A dengue é uma doença endêmica em Goiás com atual circulação dos quatro sorotipos virais com aumento expressivo no número de casos, hospitalizações e óbitos pela doença de forma acentuada nos últimos cinco anos. Na presente tese o primeiro manuscrito analisou os dados da vigilância virológica dos DENV em Goiás no período de 1994-2013. Os testes de isolamento viral em cultura celular C6/36(A.albopictus) seguido de imunofluorescência indireta utilizando anticorpos monoclonais foram realizados no LACEN-GO. No período do estudo, os quatro sorotipos virais foram identificados no estado com introdução do DENV-1 em 1994, DENV-2(1998), DENV-3(2002) e DENV-4(2011). Do total de 21.684 testes de isolamento viral 4.839(22,3%) foram positivos. DENV-1 foi isolado em 3.023(62,5%), DENV-3 em 1.051(21,7%), DENV-4 em 413(8,5%) e DENV-2 em 352(7,3%) amostras. A predominância dos sorotipos virais alternou ao longo do período com DENV-1 dominante entre os anos de 1994-2002 e 2009-2011, DENV-3 entre 2003-2008 e DENV-4 em 2013. O DENV-2 nunca foi predominante entre os sorotipos isolados no LACEN-GO. A série histórica da vigilância virológica da dengue em Goiás mostrou a introdução e a sequência temporal da circulação dos DENV no estado. Este estudo contribui para a caracterização do cenário epidemiológico da dengue em Goiás com possíveis implicações nas ações de vigilância epidemiológica da doença na região. O segundo manuscrito avaliou a presença de anticorpos neutralizantes (AcN) antidengue sorotipo específico em pacientes de uma coorte clínica de dengue estabelecida durante a epidemia de 2012-2013, em Goiânia-GO. Entre os 452 participantes da coorte, analisamos amostras pareadas de 60 pacientes classificados como dengue grave (n=40) ou dengue (n=20). Os critérios de elegibilidade foram a confirmação da infecção por IgM, NS1Ag e/ou RT-PCR; IgG positivo em pelo menos uma das amostras. Resposta monotípica ou multitípica foram definidas por PRNT50≥1/20 para apenas um sorotipo viral ou ≥1/20 para dois ou mais sorotipos virais simultaneamente. O sorotipo viral infectante foi definido por um aumento ≥4 vezes no título dos AcN em amostras pareadas. No total 73,3% dos pacientes apresentaram AcN contra DENV-4, 68,3% contra DENV-1, 68,3% contra DENV-2 ou 61,6% contra DENV-3. A idade dos pacientes variou de 3 a 81 anos. Independente da faixa etária 85% dos pacientes apresentaram resposta multitípica enquanto 15% tiveram resposta monotípica. Pacientes infectados por DENV-4 apresentaram a maior diferença de títulos de AcN em comparação com outros sorotipos virais indicando predominância de soroconversão para o sorotipo 4. Não houve correlação entre preexistência de AcN com a gravidade da doença. A caracterização de resposta imune sorotipo específica é importante para estudar a relação de anticorpos neutralizantes preexistentes com a gravidade clínica da doença, bem como frente à perspectiva de introdução de vacinas antidengue para identificar a imunidade protetora.

Dengue vírus

Vigilância laboratorial

Anticorpos neutralizantes

Goiás

Brasil

Dengue virus

Laboratory surveillance

Neutralizing antibodies

Brazil

SAUDE COLETIVA::EPIDEMIOLOGIA

Développement d'outils pour l'étude des interactions protéine-protéine / Development of tools for the study of protein-protein interaction

Milhas, Sabine

24 June 2016

Au cours de ma thèse je me suis intéressée aux interactions protéine-protéine (PPI’s). Les PPI’s jouent un rôle majeur dans une grande diversité de processus cellulaires et sont maintenant considérées comme une cible majeure dans le but de développer de nouveaux médicaments. Cependant, cibler ce type d’interactions requiert le développement de chimiothèques dédiées, permettant d’accélérer la découverte de molécules « touches ». Pour surmonter ce problème, une chimiothèque orientée PPI (2P2I3D) a été conçu au laboratoire. Dans un premier temps, j’ai donc évalué cette chimiothèque sur différents complexes possédant des interfaces variées. Les résultats obtenus ont révélé des taux de touches supérieurs à ceux obtenus avec des chimiothèques non orientées, de 0,2 à 1,6% contre 0,01 à 0,1%, respectivement. Cette étude a permis d’établir une preuve de concept de la faisabilité de créer une chimiothèque orientée PPI, permettant ainsi une accélération de la découverte de composés biologiquement actifs.Dans un deuxième temps, je me suis intéressée à l’interaction entre deux protéines majeures du virus de la dengue : les protéines NS3 et NS5. J’ai tout d’abord identifié et caractérisé un nouveau site d’interaction, ce qui m’a permis de mettre en évidence que cette interaction avait pour conséquence d’augmenter l’activité enzymatique du domaine hélicase. J’ai par la suite recherché et identifié des petites molécules chimiques capable d’inhiber cette interaction. Les différentes caractérisations effectuées ont permis de mettre en évidence un effet antiviral. Ces inhibiteurs constituent un excellent point de départ afin d’étudier plus en détail le rôle biologique de ce complexe. / In my thesis I became interested in protein-protein interactions (PPI's). PPI's play a major role in a variety of cellular processes and are now considered a major target in order to develop new drugs. However, targeting such interactions requires the development of dedicated libraries, to accelerate the discovery of “hits”molecules .To overcome this issue, a focused chemical library PPI (2P2I3D) was designed in the laboratory.At first, I evaluated this chemical library on different complexes with diverse interfaces. The results showed higher hit rate to those obtained with non-oriented libraries, from 0.2 to 1.6% against 0.01 to 0.1%, respectively. This study has established a proof of concept of the feasibility of creating a focused chemical library PPI, thus accelerating the discovery of biologically active compounds.Secondly, I am interested in the interaction between two major proteins of dengue virus: the NS3 and NS5 proteins. I initially identified and characterized a novel interaction site, which allowed me to demonstrate that this interaction had the effect of increasing the enzymatic activity of the helicase domain. I searched and identified small molecules able to inhibit this interaction. The different characterizations helped to highlight an antiviral effect. These inhibitors are an excellent starting point to further explore the biological role of this complex.

Interaction protéine-Protéine

Inhibiteurs

Virus de la dengue

Ns3

Ns5

Protein protein interaction

Inhibitors

Dengue virus

Ns3

Ns5

570

Caracterização do acúmulo de expressão dos transcritos de gambicina em Aedes aegypti infectado por Plasmodium gallinaceum e vírus dengue. / Characterization of the accumulation of the expression of gambicina transcripts in Aedes aegypti infected with Plasmodium gallinaceum and dengue virus.

Maria Karina Costa

02 July 2015

A imunidade inata que o mosquito apresenta tenta combater os patógenos dentro do organismo do mosquito impedindo que este seja transmitido para outros hospedeiros. A resposta celular apresenta três diferentes processos: fagocitose, encapsulamento e formação nodular, todos estes processos buscam eliminar os patógenos. Peptídeos antimicrobianos fazem parte da resposta humoral do mosquito, sendo codificados por genes e secretados por diversos tipos celulares. Um peptídeo novo pouco conhecido descoberto em Anopheles gambiae, a gambicina, demonstrou bons resultados no combate de parasitas. Na infecção por Plasmodium galleceum, não há diferença significativa na expressão deste peptídeo entre o grupo controle e infectado nos intervalos analisados. Na infecção por vírus dengue, sorotipo 2, a gambicina não apresenta diferença significativa no intervalo de 24 horas após a infecção, quando comparamos grupo controle e infectado, nos intervalos de 7 dias e 14 dias após a infecção, a expressão da gambicina é maior no grupo controle quando comparemos com o grupo infectado. / Innate immunity presents a mosquito tries to combat the pathogens inside the body of the mosquito preventing it from being transmitted to other hosts. The cellular response has three different processes: phagocytosis, encapsulation and nodule formation, all these processes seek to eliminate pathogens. Antimicrobial peptides are part of the humoral response mosquito being encoded by genes and secreted by several cell types. A little known new peptide discovered in Anopheles gambiae, the gambicina showed good results in controlling pests. In Plasmodium infection galleceum, there is no significant difference in the expression of this peptide between the control group and infected in the analyzed intervals. In infection with dengue virus serotype 2, the gambicina no significant difference within 24 hours after infection when comparing the control group and infected at intervals of 7 days and 14 days after infection, the expression is higher in gambicina control group when compare to the infected group.

Aedes aegypti

Plasmodium

Gambicina

Peptídeos antimicrobianos

Sistema imune

Vírus dengue

Aedes aegypti

Plasmodium

Antimicrobial peptides

Dengue virus

Gambicin

Immune system

EXPLORATION OF THE STRUCTURAL AND BIOCHEMICAL ASSEMBLY MECHANISMS OF FLAVIVIRUSES.docx

Conrrad Makea Rupe Nicholls (18127627)

08 March 2024

<p dir="ltr">It is with great pleasure that I present the culmination of my exploration into the process of flavivirus assembly, with particular emphasis on the envelope glycoproteins and C protein of ZIKV and DENV2, within the subsequent four chapters of this dissertation.</p><p dir="ltr">Beginning in Chapter 2, we describe findings from a structure-function study of the ZIKV prM and E transmembrane helices (TMHs) and their role in virus assembly. Using a mutagenesis approach in a ZIKV reporter virus particle (RVP) system to increase throughput and discovery, substantial information was obtained showcasing a novel function for specific residues located within a short (4 residue) connecting region between the two TMHs of prM protein – denoted as the prM TMH “turn” residues. During translation of the prM and E proteins, these TMH “turn” residues face towards the cytosolic side of the ER membrane. This orientation has been hypothesized to possibly play a role during viral assembly interactions between the envelope glycoproteins and the nucleocapsid core of flaviviruses. However, no information to date has supported or refuted this theory. Overall, a single amino acid change within the prM TMH “turn” residues was found to be highly detrimental to viral assembly, ultimately leading to the loss of capsid integration into released sub viral particles and the alteration of the lipid membrane architecture. We surmised that lipid interactions around the region of the mutation were perturbed, leading to a loss of assembly capabilities but interestingly maintaining the budding mechanisms. The work of Chapter 2 will be submitted for publication to a peer reviewed journal shortly after the submission of this dissertation.</p><p dir="ltr">Chapter 3 expands on the ZIKV RVP results described in Chapter 2 by detailing a series of mutagenesis experiments into the role of the prM and E TMHs in the fully infectious ZIKV and DENV2 systems. Mutations within the prM TMH “turn” residues of DENV2 were found to also perturb virus infectivity, with two mutations within prM completely eliminating infectivity. The two mutants were found to be capable of producing NS5 and intracellular E protein that had been glycosylated, indicating that translation was intact and that E protein trafficking into the trans-Golgi network still occurred. However, unlike the results discussed in Chapter 2, the DENV2 mutants did not release any detectable E protein into their supernatants. This suggested that while the mutants could generate viral proteins and somehow undergo protein trafficking into the Golgi (signifying potential particle maturation), no particles were released. The DENV2 results were supported by reciprocal mutations in the prM proteins of ZIKV using fully infectious cDNA clones. The ZIKV prM mutants also eliminated virus infectivity and prevented the release of the E protein into the supernatant, indicating no release of viral particles, infectious or otherwise. Overall, the mutations in the fully infectious DNEV2 and ZIKV systems add further support for a novel role of the prM TMHs in flavivirus assembly.</p><p dir="ltr">Chapter 4 describes our efforts to reconstitute the flavivirus envelope glycoproteins into natively derived lipid nanoparticles for in vitro assembly analysis. Styrene-maleic acid copolymers (SMAs) were utilized for this study due to their ability to self-polymerize into highly hydrophobic chains in aqueous solutions. These hydrophobic chains can imbed themselves into lipid membranes to escape the aqueous environment, and in doing so “cut out” ~10nm diameter “patches” of native lipid membranes, along with any integrated membrane proteins. This “lipid/protein patch” is referred to as a styrene-maleic acid lipid nanoparticle (SMALP). Initially, attempts were made to generate SMALPs using purified Kunjin virus (KUNV) particles as the source of membrane lipids and glycoproteins due to their rapid growth rate and homogenous particle population. Unfortunately, attempts to generate SMALPs using purified KUNV were unsuccessful. It is hypothesized that the membrane curvature of purified KUNV particles generated a sterically and energetically unfavorable environment for SMALP generation, leading to the complete destruction of the particles during SMA mixing. To circumvent this issue, cells transfected with either WT or mutant ZIKV RVP cDNA were fractionated and purified ER membrane samples were mixed with SMAs to generate SMALPs. Western blot analysis suggested that the SMALP generation was successful. However, further experimentation is warranted to confirm this outcome and the structural integrity of the envelope glycoproteins within the SMALP.</p><p dir="ltr">Chapter 5 describes collaborative work on the identification of a novel compound inhibitor against flavivirus assembly, specifically targeting C protein’s interactions with RNA. This work was done in conjunction with a visiting scholar from the Indian Institute of Technology Mandi – Dr. Prateek Kumar – during his time at Purdue University from August 2022-May 2023. Much of the foundational computation work was done by Prateek prior to his arrival at Purdue University. As such, while the full context and results for the entirety of the study will be discussed, this chapter will primarily focus on the in vitro experimental results that were gathered directly by me, or results that were produced by Prateek and myself equally. This chapter demonstrates that a novel small molecule inhibitor against ZIKV C protein can, in fact, diminish ZIKV assembly by impeding C protein’s binding to RNA, prevent efficient RNA replication through binding and disruption of NS2B/3 protease, and perturb virus binding and entry prior to infection by also binding to E protein. Moreover, the novel molecule was also found to disrupt DENV2 infection as well, albeit to a lesser degree than ZIKV. This multifaceted molecule was recommended for further study in animal systems to continue testing its safety and efficacy for treatment of ZIKV and DENV2 in humans. A co-authorship manuscript has been completed on the work from this chapter and is currently awaiting submission to a peer reviewed journal.</p><p dir="ltr">Finally, Chapter 6 will combine the conclusions from the above chapters and discuss, in detail, aspects pertaining to the future of studies aiming to better understand the assembly of flaviviruses. This chapter will focus on how the link between viral assembly and membrane lipid architecture fits with previously established literature and what future directions could be employed to answer the questions proposed within.</p>

Infectious agents

Virology

flaviviruses dengue virus

Zika genome

structural biology

Zika

Dengue

Flaviviruses

Flavivirus assembly

virus assembly

Epidemiology and Laboratory Diagnostics of Dengue, Yellow Fever, Zika, and Chikungunya Virus Infections in Africa

Adam, Awadalkareem, Jassoy, Christian

08 May 2023

Arbovirus infections are widespread, and their disease burden has increased in the past decade. In Africa, arbovirus infections and fever with unknown etiology are common. Due to the lack of well-established epidemiologic surveillance systems and accurate differential diagnosis in most African countries, little is known about the prevalence of human arbovirus infections in Africa. The aim of this review is to summarize the available epidemiological data and diagnostic laboratory tools of infections with dengue, yellow fever, Zika, and chikungunya viruses, all transmitted by Aedes mosquitoes. Studies indicate that these arboviral infections are endemic in most of Africa. Surveillance of the incidence and prevalence of the infections would enable medical doctors to improve the diagnostic accuracy in patients with typical symptoms. If possible, arboviral diagnostic tests should be added to the routine healthcare systems. Healthcare providers should be informed about the prevalent arboviral diseases to identify possible cases.

info:eu-repo/classification/ddc/570

ddc:570

Renaturação das proteínas não estruturais 1(NS1) dos vírus da zika e da dengue utilizando altas pressões / Refolding of non-structural proteins 1 (NS1) of zika and dengue viruses using high

Silva, Cleide Mara Rosa da

11 August 2017

As principais matérias primas necessárias para a preparação de testes diagnósticos são as proteínas dos patógenos que necessariamente apresentem as estruturas nativas. O objetivo do presente estudo foi a obtenção das proteínas não estruturais 1 (NS1) dos vírus da dengue (DENV) e da zika (ZIKV) a partir dos corpúsculos de inclusão (CI) produzidos em bactérias Escherichia coli. Mostramos que a combinação de alta pressão hidrostática (APH) e pH alcalino é eficiente para a solubilização de NS1-CI. A incubação em 2,4 kbar das suspensões de NS1-CI em pH alcalino mostrou-se eficiente para a solubilização da NS1. A presença de Arg promove a dissociação de oligômeros. A aplicação de 2,4 kbar às suspensões de NS1-CI em pH de 10,5 (DENV) e de 11,5 (ZIKV) na presença de Arg e um par redox, seguida de diálise em tampão em pH 8,5, foram as condições escolhidas para o reenovelamento de NS1. Obtivemos ambas NS1 com rendimentos entre 75% e 90% em relação às quantidades totais das proteínas presente nos correspondentes CI de NS1. As NS1 reenoveladas apresentaram reatividade comparável às proteínas obtidas utilizando um protocolo convencional estabelecido, com rendimentos mais de 25 vezes superiores. Foi obtido um processo altamente eficiente para o reenovelamento de NS1 apresentando características biológicas preservadas em relação a reatividade com anticorpos específicos de antígeno, incluindo soro de paciente infectado com zikv e que, portanto, podem ser usados como antígeno para o desenvolvimento de vacinas ou testes de diagnóstico. Além disso, este estudo descreve a criação de um processo inovador, que é a utilização concomitante de APH e pH alcalino, para solubilização e posterior reenovelamento de NS1-CI que podem ser utilizados para outras proteínas relevantes. / The main products for the preparation of diagnostic tests are as proteins of the pathogens that necessarily present as the native structures. The objective of the present study was to obtain non-structural proteins 1 (NS1) from dengue virus (DENV) and zika virus (ZIKV) from the inclusion bodies (IBs) produced in Escherichia coli bacteria. We show that it is a combination of high hydrostatic pressure (HHP) and alkaline pH is efficient for a solubilization of NS1-IB. A 2.4 kbar incubation of NS1-IB suspensions at alkaline pH proved to be efficient for NS1 solubilization. The presence of Arg promotes the dissociation of oligomers. The application of 2.4 kbar to the suspensions of NS1-IB at pH 10.5 (DENV) and 11.5 (ZIKV) in the presence of Arg and a redox pair, dialysis in pH 8.5 buffer were as conditions chosen for the refolding of NS1. We obtained both NS1 at yields between 75% and 90% relative to the total amounts of the proteins present in the corresponding NS1 IB. Refolded NS1 showed similar to proteins obtained using an established standard protocol, with yields more than 25 times higher. A highly efficient process for the refolding of NS1 was obtained with preserved biological features regarding reactivity with antigen-specific antibodies, including sera of zikv-infected patients and that can be used as antigen for the development of vaccines or diagnostic tests. In addition, this study describes the creation of an innovative process, which is a concomitant use of HHP and alkaline pH, for solubilization and subsequent refolding of NS1-IB that can be used for other relevant proteins.

alta pressão hidrostática

corpúsculos de inclusão

dengue virus

high hydrostatic pressure

inclusion bodies

NS1

NS1

proteínas

proteins

reenovelamento

refolding

renaturação

renaturation

vírus da dengue

vírus da zika

zika virus

Renaturação das proteínas não estruturais 1(NS1) dos vírus da zika e da dengue utilizando altas pressões / Refolding of non-structural proteins 1 (NS1) of zika and dengue viruses using high

Cleide Mara Rosa da Silva

11 August 2017

As principais matérias primas necessárias para a preparação de testes diagnósticos são as proteínas dos patógenos que necessariamente apresentem as estruturas nativas. O objetivo do presente estudo foi a obtenção das proteínas não estruturais 1 (NS1) dos vírus da dengue (DENV) e da zika (ZIKV) a partir dos corpúsculos de inclusão (CI) produzidos em bactérias Escherichia coli. Mostramos que a combinação de alta pressão hidrostática (APH) e pH alcalino é eficiente para a solubilização de NS1-CI. A incubação em 2,4 kbar das suspensões de NS1-CI em pH alcalino mostrou-se eficiente para a solubilização da NS1. A presença de Arg promove a dissociação de oligômeros. A aplicação de 2,4 kbar às suspensões de NS1-CI em pH de 10,5 (DENV) e de 11,5 (ZIKV) na presença de Arg e um par redox, seguida de diálise em tampão em pH 8,5, foram as condições escolhidas para o reenovelamento de NS1. Obtivemos ambas NS1 com rendimentos entre 75% e 90% em relação às quantidades totais das proteínas presente nos correspondentes CI de NS1. As NS1 reenoveladas apresentaram reatividade comparável às proteínas obtidas utilizando um protocolo convencional estabelecido, com rendimentos mais de 25 vezes superiores. Foi obtido um processo altamente eficiente para o reenovelamento de NS1 apresentando características biológicas preservadas em relação a reatividade com anticorpos específicos de antígeno, incluindo soro de paciente infectado com zikv e que, portanto, podem ser usados como antígeno para o desenvolvimento de vacinas ou testes de diagnóstico. Além disso, este estudo descreve a criação de um processo inovador, que é a utilização concomitante de APH e pH alcalino, para solubilização e posterior reenovelamento de NS1-CI que podem ser utilizados para outras proteínas relevantes. / The main products for the preparation of diagnostic tests are as proteins of the pathogens that necessarily present as the native structures. The objective of the present study was to obtain non-structural proteins 1 (NS1) from dengue virus (DENV) and zika virus (ZIKV) from the inclusion bodies (IBs) produced in Escherichia coli bacteria. We show that it is a combination of high hydrostatic pressure (HHP) and alkaline pH is efficient for a solubilization of NS1-IB. A 2.4 kbar incubation of NS1-IB suspensions at alkaline pH proved to be efficient for NS1 solubilization. The presence of Arg promotes the dissociation of oligomers. The application of 2.4 kbar to the suspensions of NS1-IB at pH 10.5 (DENV) and 11.5 (ZIKV) in the presence of Arg and a redox pair, dialysis in pH 8.5 buffer were as conditions chosen for the refolding of NS1. We obtained both NS1 at yields between 75% and 90% relative to the total amounts of the proteins present in the corresponding NS1 IB. Refolded NS1 showed similar to proteins obtained using an established standard protocol, with yields more than 25 times higher. A highly efficient process for the refolding of NS1 was obtained with preserved biological features regarding reactivity with antigen-specific antibodies, including sera of zikv-infected patients and that can be used as antigen for the development of vaccines or diagnostic tests. In addition, this study describes the creation of an innovative process, which is a concomitant use of HHP and alkaline pH, for solubilization and subsequent refolding of NS1-IB that can be used for other relevant proteins.

alta pressão hidrostática

corpúsculos de inclusão

NS1

proteínas

reenovelamento

renaturação

vírus da dengue

vírus da zika

dengue virus

high hydrostatic pressure

inclusion bodies

NS1

proteins

refolding

renaturation

zika virus

Padronização de uma nova técnica para detecção de anticorpos neutralizantes anti-dengue baseada na RT-PCR em tempo real / Standardization of a new technique for anti-dengue neutralizing antibodies detection based on Real Time RT-PCR

Feitosa, Ana Luisa Pereira

06 November 2015

Por representar a mais importante arbovirose em nível mundial, as infecções causadas pelos vírus da dengue são de grande importância em nosso país, apresentando uma ampla variedade de sintomas clínicos que vão desde infecção assintomática até formas mais graves da doença. O título de anticorpos neutralizantes produzidos frente à infecção por dengue parece ser determinante na forma de apresentação da doença no paciente. Atualmente, a forma com que o teste de neutralização é realizado demanda tempo para sua realização. O objetivo deste trabalho foi padronizar um ensaio de neutralização viral por RT-PCR em tempo real em cepas virais dos quatro sorotipos dengue para, posteriormente, ser empregada na detecção rápida e em grande escala de anticorpos em soro de pacientes e de candidatos vacinais. Para isso, foram construídas curvas padrão, para cada sorotipo viral, por meio da transcrição in vitro do RNA viral. O ensaio de neutralização padronizado nesse estudo reduziu o número de dias de detecção da neutralização em 48 horas quando comparada com a técnica de neutralização tradicional (PRNT), além de utilizar técnicas moleculares sensíveis e específicas para detecção como a RT-PCR em tempo real que garantem maior aplicabilidade do teste. / Because Dengue virus is the most important arboviral disease worldwide, infections caused by this pathogen are of great importance in Brazil, producing a wide variety of clinical symptoms ranging from asymptomatic infection to more serious forms of the disease. The title of neutralizing antibodies produced against the dengue infection appears to be determinant in the outcome of the disease. Currently, neutralization tests that have been performed take time for its execution. The aim of this study was to standardize a viral neutralization assay by real-time RT-PCR of viral strains of the four Dengue serotypes to subsequently be used for rapid detection and large-scale using antibodies of patients and for vaccine candidates. For this matter, standard curves were constructed for each Dengue serotype, by in vitro transcription of viral RNA. The neutralization assay in this study reduced the period of neutralization to 48 hours, compared to traditional neutralization test (PRNT), and it uses a more sensitive and specific molecular technique for detection of neutralizing antibodies, such as real time RT-PCR, to ensure greater applicability of the test

Anticorpos neutralizantes

Dengue

Dengue virus

Ensaio de neutralização viral

Neutralization Assay

Neutralizing Antibodies

PRNT

PRNT

Real time RT-PCR

RT-PCR em tempo real

Valorisation des éco-extraits de plantes médicinales réunionnaises dans la lutte contre les maladies virales émergentes de l'océan Indien / Valorization of medicinal plants eco-extracts from La Reunion against emerging viral diseases in the Indian Ocean

Clain, Marie Élodie

04 December 2018

Les maladies virales à transmission vectorielle émergentes et ré-émergentes comme la dengue, le chikungunya ou le zika sont responsables de nombreuses épidémies sévères à travers le monde. Récemment, la propagation rapide et très étendue du virus zika (ZIKV) ainsi que les complications neurologiques graves liées à l’infection par ZIKV ont incité l’Organisation Mondiale de la Santé (OMS) à déclarer le ZIKV comme une urgence de santé publique mondiale. Aujourd’hui, les mesures préventives ou curatives de l’infection par ZIKV sont quasiment inexistantes. D’autre part, la flore endémique de La Réunion est connue comme une source riche, renouvelable et prometteuse en produits naturels anti-infectieux. L’inscription à la pharmacopée française de 19 plantes médicinales réunionnaises souligne le potentiel thérapeutique des substances naturelles issues de la biodiversité locale. Les travaux ont été consacrés à l’identification de substances naturelles anti-ZIKV issues d’une sélection de sept plantes médicinales réunionnaises inscrites à la pharmacopée française. Dans une première étape, une extraction sans solvant assistée par micro-ondes a été appliquée sur les sept plantes médicinales sélectionnées afin d’obtenir des éco-extraits. Dans une deuxième étape, le criblage de l’activité antivirale, en utilisant un clone moléculaire du ZIKV avec un gène rapporteur, a permis d’identifier deux éco-extraits actifs provenant de Aphloia theiformis et de Psiloxylon mauritianum. Après avoir vérifié l’absence de cytotoxicité et de génotoxicité des extraits actifs, l’activité antivirale a été aussi démontrée sur d’autres types d’extraits réalisés via des méthodes d’extractions traditionnelles (infusion, décoction et macération). L’activité antivirale a été validée sur différentes souches de ZIKV (historique et épidémique) ainsi que sur les 4 sérotypes du virus de la dengue. Enfin, le mode d’action des deux extraits actifs a été étudié. Il a été montré que les éco-extraits d’A. theiformis et de P. mauritianum ciblent les phases précoces du cycle viral en inhibant l’attachement du virus à la cellule hôte. À l’aide de la microscopie électronique, il a été montré que l’éco-extrait d’A. theiformis déforme la particule virale empêchant cette dernière de s’attacher à la membrane de la cellule hôte. Ces résultats démontrent l’importance des plantes médicinales réunionnaises comme source de substances naturelles anti-infectieuses. / Emerging and re-emerging vector-borne viral diseases such as dengue, chikungunya or zika are responsible for many severe epidemics worldwide. Recently, the rapid spread of zika virus (ZIKV) worldwide and the serious neurological complications associated with ZIKV infection have prompted the World Health Organization (WHO) to declare ZIKV a public health emergency. Today, preventive or curative measures against ZIKV infection are almost non-existing. On the other hand, the endemic flora of Reunion Island is known as a rich, renewable and promising source of natural anti-infective products. The registration of 19 medicinal plants from Reunion Island in the French pharmacopoeia highlights the therapeutic potential of natural substances derived from local biodiversity. The work was dedicated to the identification of natural anti-ZIKV substances from a selection of seven medicinal plants from La Reunion registered in the French pharmacopoeia. In a first step, in collaboration with a local start-up (Bourbon Extracts), a solvent-free microwave-assisted extraction was applied to the seven selected plants in order to obtain eco-extracts. In a second step, the screening for antiviral activity, using a ZIKV molecular clone with a reporter gene, allowed the identification of two candidate plants: Aphloia theiformis and Psiloxylon mauritianum. After verifying the absence of cytotoxicity and genotoxicity of the active extracts, the antiviral activity was also demonstrated on other types of extracts using traditional extraction methods (infusion, decoction and maceration). The antiviral activity has been validated on different strains of ZIKV (historical and epidemic) as well as on the four serotypes of the dengue virus. Finally, the mode of action of the two active extracts has been studied. It has been shown that the eco-extracts from A. theiformis and P. mauritianum target the early steps of the viral cycle by inhibiting the attachment of the virus to the host cell. Using electron microscopy, it has been shown that the eco-extract of A. theiformis deforms the viral particle preventing its attachment to the membrane of the host cell. These results demonstrate the importance of medicinal plants from Reunion Island as a source of natural anti-infectious substances.

Virus zika

Flavivirus

Virus de la dengue

Plantes médicinales

Aphloia theiformis

Psiloxylon mauritianum

Activité antivirale

Attachement

Zika virus

Flavivirus

Dengue virus

Medicinal plants

Aphloia theiformis

Psiloxylon mauritianum

Antiviral activity

Attachment