Primary infection of BALB/c mice with a dengue virus type 4 strain leads to kidney injury

BACKGROUND Dengue is a disease caused by dengue virus (DENV-1 through -4). Among the four serotypes, DENV-4 remains the least studied. Acute kidney injury is a potential complication of dengue generally associated with severe dengue infection. OBJECTIVES The goal of this study was to investigate the alterations caused by experimental dengue infection in the kidney of adult BALB/c mice. METHODS In this study, BALB/c mice were infected through the intravenous route with a DENV-4 strain, isolated from a human patient. The kidneys of the mice were procured and subject to histopathological and ultrastructural analysis. FINDINGS The presence of the viral antigen was confirmed through immunohistochemistry. Analysis of tissue sections revealed the presence of inflammatory cell infiltrate throughout the parenchyma. Glomerular enlargement was a common find. Necrosis of tubular cells and haemorrhage were also observed. Analysis of the kidney on a transmission electron microscope allowed a closer look into the necrotic tubular cells, which presented nuclei with condensed chromatin, and loss of cytoplasm. MAIN CONCLUSIONS Even though the kidney is probably not a primary target of dengue infection in mice, the inoculation of the virus in the blood appears to damage the renal tissue through local inflammation.

Development of monoclonal antibodies against prM of Dengue virus 4 / Desenvolvimento de anticorpos monoclonais para prM de Dengue vírus 4

Introduction: dengue is a most common mosquito-borne viral disease in the Americas and tropical countries. Objective: in this work, mice were hyperimmunized with DENV 4 antigen to produce monoclonal antibodies (mAbs). Methodology: DENV 4 (GenBank KC806069) was inoculated in C6/36 cell monolayers cultivated in Leibovitz's 15 medium supplemented with 5% fetal bovine serum and incubated at 28 oC. The virus stock was submitted to concentration and ultracentrifugation and stored at -80 oC until use (VC DENV 4). Balb/c mice were injected intraperitoneally with 50µg of DENV-4 and successive intraperitoneal injections of 25 µg of VCDENV 4 with Freund's incomplete adjuvant were performed. The spleen cells were fused to SP2/0 myeloma cells with PEG 1540 and distributed in 96-well microplates with Iscove's modified medium with Hipoxantina­Aminopterina­Timidina. Hybridoma screening by indirect ELISA showed positive results for six mAbs, and their characterization was performed by Western blotting and Indirect Immunofluorescence (IFI) techniques. Results: the six mAbs showed strong recognition of prM (24/29 kDa), and minor reaction to E protein (66 kDa), E/E protein dimer (105 kDa), and NS1 (49 kDa) protein in two mAbs. The use of mAbs anti-prM as a diagnostic tool using IFI has been demonstrated to detect DENV-4 antigen in infected cells or tissues. Conclusion: DENV 4 generate mAbs with strong reactivity to prM with potential use to confirm the presence of DENV 4 antigen in tissues or infected cells.

Introdução: a dengue é uma doença viral transmitida por mosquitos comumente das Américas e países tropicais. Objetivo: neste trabalho, camundongos foram hiperimunizados com antígeno DENV 4 para produzir anticorpos monoclonais (mAbs). Metodologia: DENV 4 (GenBank KC806069) foi inoculado em monocamadas de células C6 / 36 cultivadas em meio Leibovitz 15 suplementado com 5% de soro fetal bovino e incubadas a 28oC. O estoque viral foi submetido à concentração, ultracentrifugação e armazenado a -80 oC (VC DENV 4). Camundongos Balb / c foram injetados intraperitonealmente com 50 µg de VC DENV-4 e injeções intraperitoneais sucessivas de 25 µg de antigeno com adjuvante incompleto de Freund. As células do baço foram misturadas a células SP2/0 com PEG 1540 e distribuídas em microplacas de 96 poços com meio Iscove Modificado em presença de Hipoxantina ­ Aminopterina ­ Timidina. A triagem de hibridomas por ELISA indireto apresentou resultados positivos para seis mAbs, e sua caracterização foi realizada por técnicas de Western blotting e Imunofluorescência Indireta (IFI). Resultados: os seis mAbs mostraram forte reconhecimento de prM (24/29 kDa) e reação menor à proteína E (66 kDa), dímero de proteína E / E (105 kDa) e proteína NS1 (49 kDa) em dois mAbs. O uso de mAbs anti-prM como uma ferramenta de diagnóstico utilizando IFI demonstrou eficacia em detectar o antígeno DENV-4 em células ou tecidos infectados. Conclusão: o mAbs produzidos para DENV 4 demonstraram uma forte reatividade contra prM, e poderiam ser uma ferramenta de uso potencial no diagnóstico de DENV 4 .

An in silico investigation of phytochemicals as potential inhibitors against non-structural protein 1 from dengue virus 4

Dengue fever has emerged as a big threat to human health since the last decade owing to high morbidity with considerable mortalities. The proposed study aims at the in silico investigation of the inhibitory action against DENV4-NS1 of phytochemicals from two local medicinal plants of Pakistan. Non-Structural Protein 1 of Dengue Virus 4 (DENV4-NS1) is known to be involved in the replication and maturation of viron in the host cells. A total of 129 phytochemicals (50 from Tanacetum parthenium and 79 from Silybum marianum) were selected for this study. The tertiary structure of DENV4-NS1 was predicted based on homology modelling using Modeller 9.18 and the structural stability was evaluated using molecular dynamics simulations. Absorption, distribution, metabolism, excretion and toxicity (ADMET) along with the drug-likeness was also predicted for these phytochemicals using SwissADME and PreADMET servers. The results of ADMET and drug-likeness predictions exhibited that 54 phytochemicals i.e. 25 from Tanacetum parthenium and 29 from Silybum marianum showed effective druglikeness. These phytochemicals were docked against DENV4-NS1 using AutoDock Vina and 18 most suitable phytochemicals with binding affinities ≤ -6.0 kcal/mol were selected as potential inhibitors for DENV4-NS1. Proposed study also exploits the novel inhibitory action of Jaceidin, Centaureidin, Artecanin, Secotanaparthenolide, Artematin, Schizolaenone B, Isopomiferin, 6, 8-Diprenyleriodictyol, and Anthraxin against dengue virus. It is concluded that the screened 18 phytochemicals have strong inhibition potential against Dengue Virus 4.