Wild dengue virus types 1, 2 and 3 viremia in rhesus monkeys

Among the flaviviruses, dengue, with its four serotypes, has spread throughout the tropics. The most advanced vaccines developed so far include live attenuated viruses, which have been tested in humans but none has been licensed. Preclinical testing of dengue vaccine candidates is performed initially in mice and in nonhuman primates. In the latter the main criteria used to assay protection are neutralizing antibodies elicited by the vaccine candidate and the magnitude and duration of peripheral viremia upon challenge of previously immunized animals. Towards the identification of wild-type viruses that could be used in challenge experiments a total of 31 rhesus monkeys were inoculated subcutaneously of wild dengue types 1, 2, and 3 viruses. The viremia caused by the different viruses was variable but it was possible to identify dengue viruses useful as challenge strains.

Attenuation and immunogenicity of recombinant yellow fever 17D-dengue type 2 virus for rhesus monkeys

A chimeric yellow fever (YF)-dengue serotype 2 (dengue 2) virus was constructed by replacing the premembrane and envelope genes of the YF 17D virus with those from dengue 2 virus strains of Southeast Asian genotype. The virus grew to high titers in Vero cells and, after passage 2, was used for immunogenicity and attenuation studies in rhesus monkeys. Subcutaneous immunization of naive rhesus monkeys with the 17D-D2 chimeric virus induced a neutralizing antibody response associated with the protection of 6 of 7 monkeys against viremia by wild-type dengue 2 virus. Neutralizing antibody titers to dengue 2 were significantly lower in YF-immune animals than in YF-naive monkeys and protection against challenge with wild-type dengue 2 virus was observed in only 2 of 11 YF-immune monkeys. An anamnestic response to dengue 2, indicated by a sharp increase of neutralizing antibody titers, was observed in the majority of the monkeys after challenge with wild-type virus. Virus attenuation was demonstrated using the standard monkey neurovirulence test. The 17D-D2 chimera caused significantly fewer histological lesions than the YF 17DD virus. The attenuated phenotype could also be inferred from the limited viremias compared to the YF 17DD vaccine. Overall, these results provide further support for the use of chimeric viruses for the development of a new live tetravalent dengue vaccine.

Clonación y expresión de una proteína recombinante del Gen M del virus del Dengue Serotipo 2.

Tesis (Maestro en Ciencias con Acentuación en Inmunolobiología) UANL, 2011.

Refolded dengue virus type 2 NS1 protein expressed in Escherichia coli preserves structural and immunological properties of the native protein

The dengue virus NS1 protein has been shown to be a protective antigen under different experimental conditions but the recombinant protein produced in bacterial expression systems is usually not soluble and loses structural and immunological features of the native viral protein In the present study, experimental conditions leading to purification and refolding of the recombinant dengue virus type 2 (DENV-2) NS1 protein expressed in Escherichia coil are described The refolded recombinant protein was recovered as heat-stable soluble dimers with preserved structural features, as demonstrated by spectroscopic methods In addition, antibodies against epitopes of the NS1 protein expressed in eukaryotic cells recognized the refolded protein expressed in E coli but not the denatured form or the same protein submitted to a different refolding condition Collectively, the results demonstrate that the recombinant NS1 protein preserved important conformation and antigenic determinants of the native virus protein and represents a valuable reagent either for the development of vaccines or for diagnostic methods. (C) 2010 Elsevier B V All rights reserved

Immune transcript variations among Aedes aegypti populations with distinct susceptibility to dengue virus serotype 2

The innate immune response of insects is one of the factors that may dictate their susceptibility to viral infection. Two immune signaling pathways, Toll and JAK-STAT, and the RNA interference (RNAi) pathway are involved in Aedes aegypti responses against dengue virus (DENV), however natural differences in these antiviral defenses among mosquito populations have not been studied. Here, two field Ae. aegypti populations from distinct ecological environments, one from Recife and the other from Petrolina (Brazil), and a laboratory strain were studied for their ability to replicate a primary isolate of dengue virus serotype 2 (DENV-2). Virus infectivity and replication were determined in insect tissues collected after viral exposure through reverse-transcription real time PCR (RT-PCR). The expression of a transcript representing these defense mechanisms (Toll, JAK-STAT and RNAi) in the midgut and fat body was studied with RTPCR to evaluate variations in innate immune mechanisms possibly employed against DENV. Analyses of infection rates indicated that the field populations were more susceptible to DENV-2 infection than the lab strain. There were distinct expression patterns among mosquito populations, in both control and infected insects. Moreover, lower expression of immune molecules in DENV-2-infected insects compared to controls was observed in the two field populations. These results suggest that natural variations in vector competence against DENV may be partly due to differences in mosquito defense mechanisms, and that the down-regulation of immune transcripts after viral infection depends on the insect strain. (C) 2012 Elsevier B.V. All rights reserved.

Low Sensitivity of NS1 Protein Tests Evidenced during a Dengue Type 2 Virus Outbreak in Santos, Brazil, in 2010

In 2010, a large outbreak of dengue occurred in Santos, Brazil. The detection of the NS1 antigen was used for diagnosis in addition to the detection of IgG, IgM, and RNA. A large number of NS1 false-negative results were obtained. A total of 379 RNA-positive samples were selected for thorough evaluation. NS1 was reactive in 37.7% of cases. Most of the cases were characterized as a secondary infection by dengue 2 virus. Sequencing of NS1 positive and negative isolates did not reveal any mutation that could justify the diagnostic failure. Use of existing NS1 tests in the Brazilian population may present a low negative predictive value, and they should be used with caution, preferentially after performing a validation with samples freshly obtained during the ongoing epidemic.

Synthese, Charakterisierung und Testung von Phenylacrylsäure-Derivaten, Benzothiazolen und Diarylthioethern als potentielle Inhibitoren der Dengue-Virus-Typ-2-NS2B-NS3-Protease

Dengue-Fieber ist eine durch Stechmücken der Gattungen Aedes aegypti und Aedes albopticus übertragene, virale Infektionskrankheit des Menschen, welche eine zunehmende Bedrohung für die Weltbevölkerung darstellt; das Infektionsrisiko betrifft vorwiegend Menschen, die in tropischen und subtropischen Gebieten der Erde (Asien, Afrika, Amerika) leben. Bei dem Erreger handelt es sich um ein Flavivirus, bestehend aus einer positiv polarisierten Einzelstrang-RNA, welches in vier verschiedenen Serotypen existiert. Eine Infektion mit Dengue-Viren zeigt sich durch drei mögliche Krankheitsbilder: Klassisches Dengue-Fieber (DF), hämorrhagisches Dengue-Fieber (DHF) oder Dengue-Schock-Syndrom (DSS). Das Dengue-Virus-Genom codiert eine Serin-Protease mit einer klassischen katalytischen Triade, bestehend aus den Aminosäuren His51, Asp75 und Ser135. Die Funktion der Dengue-Virus-Protease besteht in der post-translationalen, proteolytischen Prozessierung des viralen Polyprotein-Vorläufers, womit sie essentiell für die Virus-Replikation ist und damit einen wichtigen therapeutischen Ansatz für die Entwicklung neuer Wirkstoffe gegen Dengue-Fieber darstellt. Die Ziele der vorliegenden Arbeit bestanden darin, neue potentielle Inhibitoren der Dengue-Virus Typ 2 NS2B-NS3 Protease (DEN-2 NS2B-NS3pro) zu synthetisieren, deren Hemmwirkung sowie den Inhibitionstyp mithilfe fluorimetrischer Enzym-Assays zu bestimmen, Struktur-Wirkungs-Beziehungen (u.a. mithilfe von Molecular Docking-Rechnungen) zu analysieren und die erhaltenen Leitstrukturen zu optimieren. In der vorliegenden Arbeit wurden zwei Substanzklassen und damit zwei Teilprojekte behandelt: Phenylacrylsäureamide im ersten Teilprojekt, Benzothiazole und Diarylthioether zusammen im zweiten Teilprojekt. Im ersten Teilprojekt zeigten einige Phenylacrylsäureamide eine schwache Hemmung der DEN-2 NS2B-NS3pro zwischen ca. 50 und 61 % bei einer Inhibitorkonzentration von 50 µM sowie eine nicht-kompetitive Hemmung, welche jedoch durch vielfältige Derivatisierung kaum verändert oder verbessert werden konnte. Darüber hinaus wurden die endogenen Serin-Proteasen alpha-Chymotrypsin und Trypsin durch einige Phenylacrylsäureamide erheblich stärker gehemmt als die DEN-2 NS2B-NS3pro. Das zweite Teilprojekt befasste sich mit der Synthese und Testung von Diarylthioethern mit hydroxy-substituierten Benzothiazol-Bausteinen sowie der Testung einiger methoxy-substituierter Synthese-Vorstufen der Endverbindungen, um die Relevanz und den Einfluss der einzelnen Bausteine auf die Hemmung der DEN-2 NS2B-NS3pro zu untersuchen. Der in der vorliegenden Arbeit synthetisierte, potenteste Inhibitor der DEN-2 NS2B-NS3pro (Hemmung: 90 % [50 µM]; IC50 = 3.6 +/- 0.11 µM) und der DEN-3 NS2B-NS3pro (Hemmung: >99 % [100 µM]; IC50 = 9.1 +/- 1.02 µM), SH65, ein Diarylthioether-Benzothiazol-Derivat, entstand aufgrund der Vorhersage zweier möglicher Bindungsmodi (kompetitiv und nicht-kompetitiv) mithilfe von Molecular Docking-Experimenten an der Röntgen-Kristall-struktur der DEN-3 NS2B-NS3pro (PDB-Code: 3U1I). Nach experimenteller Bestimmung der IC50-Werte bei unterschiedlichen Substratkonzentrationen erwies sich SH65 jedoch als nicht-kompetitiver Inhibitor der DEN-2 NS2B-NS3pro. Trypsin wurde von SH65 vergleichbar stark gehemmt (96% [50 µM]; IC50 = 6.27 +/- 0.68 µM) wie die beiden getesteten Dengue-Virus-Proteasen, nicht jedoch alpha-Chymotrypsin (nur 21% Hemmung bei 50 µM), wodurch diesem Inhibitor zumindest eine relative Selektivität gegenüber Serin-Proteasen zugeschrieben werden kann. SH65 zeigte lediglich Protease-Hemmung in den Enzym-Assays, jedoch keine antivirale Aktivität bei der Testung an Dengue-Virus-infizierten Zellen, was aber wiederum bei der synthetisierten Vorstufe von SH65, welche anstelle der beiden Hydroxy-Gruppen über Methoxy-Gruppen verfügt, der Fall war. Diarylthioether mit mehrfach hydroxy-substituiertem Benzothiazol-Baustein stellen hiermit eine neue, vielversprechende Wirkstoffgruppe zur Hemmung sowohl der Dengue-Virus Typ 2- als auch der Dengue-Virus Typ 3 NS2B-NS3 Protease dar.

Detection of dengue virus in saliva and urine by real time RT-PCR

Early diagnosis of dengue virus (DENV) infection is important for patient management and control of dengue outbreaks. The objective of this study was to analyze the usefulness of urine and saliva samples for early diagnosis of DENV infection by real time RT-PCR. Two febrile patients, who have been attended at the General Hospital of the School of Medicine of Ribeirao Preto, Sao Paulo University were included in the study. Serum, urine and saliva samples collected from both patients were subjected to real time RT-PCR for DENV detection and quantification. Dengue RNA was detected in serum, urine and saliva samples of both patients. Patient 1 was infected with DENV-2 and patient 2 with DENV-3. Data presented in this study suggest that urine and saliva could be used as alternative samples for early diagnosis of dengue virus infection when blood samples are difficult to obtain, e.g.,in newborns and patients with hemorrhagic syndromes.

Involvement of the central nervous system in patients with dengue virus infection

The findings of a neurological evaluation in 85 patients with confirmed, acute, dengue virus infection are described. Signs of central nervous system involvement were present in IS patients (21.2%). The most frequent neurological symptom was mental confusion. The frequency of neurological involvement did not differ between patients with primary and secondary dengue infection, and the prevalence of central nervous system involvement in dengue fever and dengue hemorrhagic fever also did not differ significantly. The presence of CNS involvement did not influence the prognosis of dengue infection. Dengue viral CSF RNA was found in 7 of 13 patients submitted to a spinal tap, the CSF viral load being less than 1000 copies/ml. PCR was negative in serum samples obtained from three patients on the same day as the CSF samples, suggesting that the dengue virus actively enters the CNS and that the presence of the virus in the CNS does not result from passive crossing of the blood-brain barrier. (C) 2007 Elsevier B.V. All rights reserved.

Lectins and/or xyloglucans/alginate layers as supports for immobilization of dengue virus particles

Formation of stable thin films of mixed xyloglucan (XG) and alginate (ALG) onto Si/SiO2 wafers was achieved under pH 11.6, 50 mM CaCl2, and at 70 degrees C. XG-ALG films presented mean thickness of (16 +/- 2) nun and globules rich surface, as evidenced by means of ellipsometry and atomic force microscopy (AFM), respectively. The adsorption of two glucose/mannose-binding seed (Canavalia ensiformis and Dioclea altissima) lectins, coded here as ConA and DAlt, onto XG-ALG surfaces took place under pH 5. Under this condition both lectins present positive net charge. ConA and DAIt adsorbed irreversibly onto XG-ALG forming homogenous monolayers similar to(4 +/- 1)nm thick. Lectins adsorption was mainly driven by electrostatic interaction between lectins positively charged residues and carboxylated (negatively charged) ALG groups. Adhesion of four serotypes of dengue virus, DENV (1-4), particles to XG-ALG surfaces were observed by ellipsometry and AFM. The attachment of dengue particles onto XG-ALG films might be mediated by (i) H bonding between E protein (located at virus particle surface) polar residues and hydroxyl groups present on XG-ALG surfaces and (ii) electrostatic interaction between E protein positively charged residues and ALG carboxylic groups. DENV-4 serotype presented the weakest adsorption onto XG-ALG surfaces, indicating that E protein on DENV-4 surface presents net charge (amino acid sequence) different from E proteins of other serotypes. All four DENV particles serotypes adsorbed similarly onto lectin films adsorbed. Nevertheless, the addition of 0.005 mol/L of mannose prevented dengue particles from adsorbing onto lectin films. XG-ALG and lectin layers serve as potential materials for the development of diagnostic methods for dengue. (c) 2008 Elsevier B.V. All rights reserved.

Binding of Dengue Virus Partitcles and Dengue Proteins onto Solid Surfaces

The interaction between dengue virus particles (DENV), sedimentation hemagglutinin particles (SHA), dengue virus envelope protein (Eprot), and solid surfaces was investigated by means of ellipsometry and atomic force microscopy (AFM). The surfaces chosen are bare Si/SiO(2) wafers and Si/SiO(2) wafers covered with concanavalin A (ConA), jacalin (Jac), polystyrene (PS), or poly(styrene sulfonate) (PSS) films. Adsorption experiments at pH 7.2 and pH 3 onto all surfaces revealed that (i) adsorption of DENV particles took place only onto ConA under pH 7.2, because of specific recognition between glycans on DENV surface and ConA binding site; (ii) DENV particles did not attach to any of the surfaces at pH 3, suggesting the presence of positive charges on DENV surface at this pH, which repel the positively charged lectin surfaces; (iii) SHA particles are positively charged at pH 7.2 and pH 3 because they adhered to negatively charged surfaces at pH 7.2 and repelled positively charged layers at pH 3; and (iv) SHA particles carry polar groups on the surface because they attached to silanol surfaces at pH 3 and avoided hydrophobic PS films at pH 3 and pH 7.2. The adsorption behavior of Eprot at pH 7.2 revealed affinity for ConA > Jac > PSS > PS approximate to bare Si/SiO(2) layers. These findings indicate that selectivity of the Eprot adsorption is higher when it is part of virus structure than when it is free in solution. The correlation between surface energy values determined by means of contact angle measurements and DENV, SHA, or Eprot adsorption behavior was used to understand the intermolecular forces at the interfaces. A direct correlation was not found because the contributions from surface energy were probably surpassed by specific contributions.

Dengue virus binding to human leukocyte cell lines: receptor usage differs between cell types and virus strains

Monocyte macrophages (M phi) are thought to be the principal target cells for the dengue viruses (DV), the cause of dengue fever and hemorrhagic fever. Cell attachment is mediated by the virus envelope (E) protein, but the host-cell receptors remain elusive. Currently, candidate receptor molecules include proteins, Fc receptors, glycosaminoglycans (GAGs) and lipopolysaccharide binding CD14-associated molecules. Here, we show that in addition to M phi, cells of the T- and B-cell lineages, and including cells lacking GAGs, can bind and become infected with DV. The level of virus binding varied widely between cell lines and, notably, between virus strains within a DV serotype. The latter difference may be ascribable to one or more amino acid differences in domain II of the E protein. Heparin had no significant effect on DV binding, while heparinase treatment of cells in all cases increased DV binding, further supporting the contention that GAGs are not required for DV binding and infection of human cells. In contrast to a recent report, we found that lipopolysaccharide (LPS) had either no effect or enhanced DV binding to, and infection of various human leukocyte cell lines, while in all virus-cell combinations, depletion of Ca2+/Mg2+ enhanced DV binding. This argues against involvement of beta (2) integrins in virus-host cell interactions, a conclusion in accord with the demonstration of three virus binding membrane proteins of < 75 kDa. Collectively, the results of this study question the purported exclusive importance of the E protein domain III in DV binding to host cells and point to a far more complex interaction between various target cells and, notably, individual DV strains. (C) 2001 Elsevier Science B.V. All rights reserved.

High circulating levels of the dengue virus nonstructural protein NS1 early in dengue illness correlate with the development of dengue hemorrhagic fever

Infection with any 1 of 4 dengue viruses produces a spectrum of clinical illness ranging from a mild undifferentiated febrile illness to dengue fever (DF) to dengue hemorrhagic fever (DHF), a potentially life-threatening disease. The morbidity and mortality of DHF can be reduced by early hospitalization and careful supportive care. To determine its usefulness as a predictor of DHF, plasma levels of the secreted dengue virus nonstructural protein NS1 (sNS1) were measured daily in 32 children with dengue-2 virus infections participating in a prospective, hospital-based study. Free sNS1 levels in plasma correlated with viremia levels and were higher in patients with DHF than in those with DF. An elevated free sNS1 level (greater than or equal to600 ng/mL) within 72 h of illness onset identified patients at risk for developing DHF.