Serological immune biomarker for disease severity in dengue-infected pediatric hospitalized patients.

Clinical manifestation of dengue disease ranges from asymptomatic, febrile fever without warning sign (DOS) to serious outcome dengue with warning sign (DWS) and severe disease (SD) leading to shock syndrome and death. The role of antibody response in natural dengue infection is complex and not completely understood. Here, we aimed to assess serological marker for disease severity. Antibody response of dengue-confirmed pediatric patients with acute secondary infection were evaluated against infecting virus, immature virus, and recombinant envelop protein. Immature virus antibody titers were significantly higher in DWS as compared to DOS (p = 0.0006). However, antibody titers against recombinant envelop protein were higher in DOS as compared to DWS, and antibody avidity was significantly higher against infecting virus in DOS. Serum samples of DOS patients displayed higher in vitro neutralization potential in plaque assay as compared to DWS, whereas DWS serum samples showed higher antibody-dependent enhancement in the in vitro enhancement assays. Thus, antibodies targeting immature virus can predict disease severity and could be used in early forecast of disease outcome using an enzyme-linked immunoassay assay system which is less laborious and cheaper than plaque assay system for correlates of protection and could help optimize medical care and resources.

Mutation of conserved histidine residues of dengue virus envelope protein impairs viral like particle maturation and secretion.

Dengue virus (DENV) envelope protein plays crucial role in virus entry and maturation of virus during infection. Maturation of DENV occurs in the trans Golgi network at slightly acidic pH which is close to pKa of histidine. When exposed to the acidic environment of the late secretory pathway, dengue virus particles go through a significant conformational change, whereby interactions of structural proteins envelope (E) and prM proteins are reorganised and enable furin protease to cleave prM resulting in mature virus. In order to study the role of histidine of E protein in DENV maturation, we mutated 7 conserved histidine residues of envelope protein and assessed the percent of budding using viral like particle (VLP) system. Histidine mutants; H144A, H244A, H261A and H282A severely disrupted VLP formation without any significant change in expression in cell and its oligomerization ability. Treatment with acidotropic amine reversed the defect for all 4 mutants suggesting that these histidines could be involved in maturation and release. Over expression of capsid protein slightly enhanced VLP release of H244A and H261A. Similarly, furin over expression increased VLP release of these mutants. Co-immunoprecipitation studies revealed that prM and E interaction is lost for H244A, H261A and H282A mutants at acidic pH but not at neutral pH indicating that they could be involved in histidine switch during maturation at acidic pH. Detailed analysis of the mutants could provide novel insights on the interplay of envelop protein during maturation and aid in target for drug development.

Therapeutic Potential of Medicinal Plants against Dengue Infection: A Mechanistic Viewpoint.

Dengue is a tropical disease caused by the Dengue virus (DENV), a positive-sense, single stranded RNA virus of the family Flaviviridae, which is transmitted by Aedes mosquitoes. The occurrence of dengue has grown dramatically around the globe in recent decades, and it is rapidly becoming a global burden. Furthermore, all four DENV serotypes cocirculate and create a problematic hyperendemic situation. Characteristic symptoms range from being asymptomatic, dengue fever to life-threatening complications such as hemorrhagic fever and shock. Apart from the inherent virulence of the virus strain, a dysregulated host immune response makes the condition worse. Currently, there is no highly recommended vaccine or therapeutic agent against dengue. With the advent of virus strains resistant to antiviral agents, there is a constant need for new therapies to be developed. Since time immemorial, human civilization has utilized plants in traditional medicine to treat various diseases, including infectious viral diseases. With the advancement in molecular biology, cell biology techniques, and bioinformatics, recent studies have tried to provide scientific evidence and determine the mechanism of anti-dengue activity of various plant extracts and plant-derived agents. The current Review consolidates the studies on the last 20 years of in vitro and in vivo experiments on the ethnomedicinal plants used against the dengue virus. Several active phytoconstituents like quercetin, castanospermine, α-mangostin, schisandrin-A, hirsutin have been found to be promising to inhibition of all the four DENV serotypes. However, novel therapeutics need to be reassessed in relevant cells using high-throughput techniques. Further, in vivo dose optimization for the immunomodulatory and antiviral activity should be examined on a vast sample size. Such a Review should help take the knowledge forward, validate it, and use medicinal plants in different combinations targeting multiple stages of virus infection for more effective multipronged therapy against dengue infection.

High viral load positively correlates with thrombocytopenia and elevated haematocrit in dengue infected paediatric patients.

BACKGROUND: Dengue fever is one of the major viral diseases worldwide transmitted by mosquitoes. Depending on the severity of disease it can range from mild fever to severe fatal cases. Rapid decline of platelet levels is one of indicators of clinical worsening. The role of viral factors in dengue pathogenesis and correlation with clinical and laboratory parameters remain unclear. METHODS: Between September 2017 to December 2018, 102 dengue confirmed paediatric cases were analysed for various viral and host parameters. Based on symptoms, they were classified into dengue without warning signs (DOS), dengue with warning signs (DWS) and severe dengue (SD) as per 2009 WHO classification. Quantitative analysis of NS1, IgM and IgG in were done by ELISA. IgM/IgG ratio revealed primary or secondary dengue infection. Serotyping of virus in serum was done by nested multiplex RT-PCR. Viral load (VL) was determined by quantitative real time polymerase chain reaction. Association between VL and NS1 in patient sera with clinical and laboratory parameters was statistically analysed. RESULTS: It was found that disease severity (as per 2009 WHO classification) significantly associated with secondary dengue infection. DENV3 was found to be the only serotype detected. The present study reports neither NS1 nor VL significantly associated with disease severity or type of infection (primary or secondary). However, VL positively correlated with haematocrit (p < 0.05). Viral load above 106 copies/mL was found in 61% of patients. Further, high viral load (>106 copies/mL) negatively correlated with platelet levels (p < 0.05). CONCLUSION: Thus, viral load could be an important predictive parameter in dengue related severe symptoms like thrombocytopenia and elevated hematocrit when it goes above a certain threshold (>106 copies/ mL).