<i>S</i>-Adenosyl-<scp>l</scp>-Homocysteine Exhibits Potential Antiviral Activity Against Dengue Virus Serotype-3 (DENV-3) in Bangladesh: A Viroinformatics-Based Approach

Shill, Dipok Kumer; Jahan, Shafina; Alam, Mohammad Mamun; Limon, Md Belayet Hasan; Alam, Muntasir; Rahman, Mohammed Ziaur; Rahman, Mohammad Anisur

doi:10.1177/11779322231158249

Cited by 7 publications

(4 citation statements)

References 75 publications

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“…Compound 3A, which is supposed to deplete the pyrimidine pools, is an interesting small molecule because of its broad-spectrum antiviral activity (positive and negative strand RNA viruses, DNA viruses and retroviruses) in combination with low cytotoxicity 148 . Compound 2 and 3 in the study of Ye et al inhibited S-adenosylhomocysteine hydrolase, an enzyme involved in the synthesis of adenosine 149 . Other potential targets of host directed antivirals are cellular kinases used by viruses throughout their life cycle, as DENV NS5 was shown to be phosphorylated by host kinases.…”

Section: Convoluted Membranes (Cms)mentioning

confidence: 99%

The endoplasmic reticulum (ER): a crucial cellular hub in flavivirus infection and potential target site for antiviral interventions

Verhaegen,

Vermeire

2024

npj Viruses

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Dengue virus (DENV) is the most prevalent arthropod-borne flavivirus and imposes a significant healthcare threat worldwide. At present no FDA-approved specific antiviral treatment is available, and the safety of a vaccine against DENV is still on debate. Following its entry into the host cell, DENV takes advantage of the cellular secretory pathway to produce new infectious particles. The key organelle of the host cell in DENV infections is the endoplasmic reticulum (ER) which supports various stages throughout the entire life cycle of flaviviruses. This review delves into the intricate interplay between flaviviruses and the ER during their life cycle with a focus on the molecular mechanisms underlying viral replication, protein processing and virion assembly. Emphasizing the significance of the ER in the flavivirus life cycle, we highlight potential antiviral targets in ER-related steps during DENV replication and summarize the current antiviral drugs that are in (pre)clinical developmental stage. Insights into the exploitation of the ER by DENV offer promising avenues for the development of targeted antiviral strategies, providing a foundation for future research and therapeutic interventions against flaviviruses.

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Section: Convoluted Membranes (Cms)mentioning

confidence: 99%

The endoplasmic reticulum (ER): a crucial cellular hub in flavivirus infection and potential target site for antiviral interventions

Verhaegen,

Vermeire

2024

npj Viruses

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“…One of the most popular methods for creating precise structural models of proteins and for explaining experimental ndings is homology modeling [36][37][38]. It is frequently employed in the investigation of inter-individual variations in drug metabolism as well as structure-based drug design.…”

Section: Homology Modelingmentioning

confidence: 99%

“…For protein sequence and structure analysis, we used ExPASy and Robetta tool [36,37]. The Robetta server offers automated tools for analyzing and predicting protein structure.…”

Section: Phylogenetic Analysis and Protein Structure Predictionmentioning

confidence: 99%

Identification and Molecular Characterization of NS1 and NS2 Genes of Dengue Virus from two mini outbreaks (2022-2023) in Pakistan

Kanwal¹,

Batool¹,

Aziz

et al. 2023

Preprint

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Background Dengue viral infection is a global threat and approximately 400 million infections and 22000 deaths occur due to this virus worldwide annually. The exact mechanism of dengue virus pathogenesis remains unclear due to the absence of suitable in vivo and in vitro models. So far no antiviral medications available for the clinical treatment of Dengue virus (DENV) infection. The non-structural genes that are involved in disease pathogenesis are still not well defined. For that reason, there is a dire need to characterize these non-structural genes for further functional characterization. The main goal of this study is to identify DENV serotypes circulating in Pakistan during the year 2022 to 2023, characterize the non-structural (NS1 and NS2) genes for identification of their sequence variations and further functional analysis. Methods In this study, NS1 positive dengue serum samples were collected from the different molecular diagnostic laboratories and hospitals, in Pakistan. Viral RNA was purified and synthesized complementary DNA (cDNA). Serotype specific primers were used for the identification of dengue virus serotypes (DENV 1–4). Through nested PCR, inner and outer sense primers were used to amplify NS1 and NS2 genes of DENV and confirmed through gel electrophoresis. All purified DNA products were processed for sequencing. For cloning these fragments were then cloned in the TA cloning vector (pcDNA 2.1) and expressed expression vector (pcDNA3.) Results In our study, it was confirmed that the most prevalent serotype of DENV in Pakistan is Serotype-2 during the year 2022-23 and also amplified NS1 and NS2 genes. These amplified products were confirmed through Sanger sequencing. Through phylogenetic analysis of these sequences, it was confirmed that the isolated strains are closely related to the strains from Swat, Jeddah, India etc with homology about 97%. The amplified NS1 and NS2A gene fragments were then cloned in the TA cloning vector (pcDNA 2.1) and expressed in mammalian expression vector (pcDNA3.1) for further functional characterization. Conclusion Our study has shed light on the most prevalent serotype between the year 2022 to 2023 and characterization on the molecular genetic landscape of non-structural genes (NS1 and NS2). This study will give us a prime way for in-depth investigation of non-structural genes in the dengue virus, contributing valuable insights for the development of antiviral therapy against DENV infection.

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“…The Robetta server provides automated tools to analyze and predict the structure of proteins. It takes input sequences, identi es potential domains, and generates structural models using either de novo structure prediction or comparative modeling techniques [36,37]. 3D Models predicted through ExPASy and Robetta tools were visualized using molecular visualization system PyMOL (https://pymol.org/2/) [37,38].…”

Section: Homology Modelingmentioning

confidence: 99%

Molecular Characterization and Expression Analysis of NS3 and NS4 Genes of Dengue Virus Serotype-2 from Pakistani Isolates

Batool,

Kanwal,

Akram

et al. 2023

Preprint

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Background Dengue virus (DENV) infection poses a significant public health threat, particularly in tropical and subtropical regions. Current estimates suggest that approximately 390 million cases of dengue occur annually, putting around 3.97 billion people at risk of contracting the infection. Despite global efforts, no antivirals or preventive vaccines are presently available in the market for the clinical treatment of dengue infection due to its ill-defined pathogenesis mechanism and lack of suitable in vitro and in infection models. The aim of this study was to identify the prevalent DENV serotypes circulating in Pakistan and to characterize and express the non-structural genes (NS3 and NS4) of dengue virus to better understand the disease pathogenesis. Methods In the present study, we tested NS1 positive serum samples for the identification of dengue serotypes through nested PCR using serotype-specific primers. The viral RNA was purified from the serum samples and complementary DNA (cDNA) was synthesized. We targeted serotype-2 samples for the amplification of NS3 and NS4A genes through nested PCR using two sets of gene-specific primers. The PCR products were initially verified using gel electrophoresis and subsequently confirmed through Sanger sequencing. Further, we cloned the amplified NS3 and NS4A gene fragments in the pCR 2.1 cloning vector and expressed them in mammalian vector (pET28) for further functional analysis. Results The NS1-positive DENV samples were tested for various dengue serotypes, confirming that serotype-2 continues to be predominant in Pakistan after COVID-19 pandemic. We successfully amplified the NS3 and NS4A genes of dengue virus. The computational analysis revealed that NS3 and NS4A gene sequences were closely related to the DENV-2 strains isolated from other areas of Pakistan like Swat. This analysis also confirmed their homology above 98% with Indian and Saudi Arabian isolates. The amplified NS3 and NS4A genes were then cloned in pCR 2.1 cloning vector and subcloned in mammalian expression vector pET28. Further, the NS3 gene was transfected into mammalian cell line and tests were conducted with siRNA targeting the NS3 protein, resulting in approximately a 50% inhibition. Conclusions Our current study has confirmed the prevalence of DENV serotype-2 following the COVID-19 pandemic and provided a molecular characterization of the genetic landscape of the non-structural genes (NS3 and NS4). This investigation serves as an important underpinning for a comprehensive examination of the DENV non-structural genes, proposing valuable insights that can contribute to the development of early diagnosis and antiviral therapies against DENV infections.

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S-Adenosyl-l-Homocysteine Exhibits Potential Antiviral Activity Against Dengue Virus Serotype-3 (DENV-3) in Bangladesh: A Viroinformatics-Based Approach

Cited by 7 publications

References 75 publications

The endoplasmic reticulum (ER): a crucial cellular hub in flavivirus infection and potential target site for antiviral interventions

The endoplasmic reticulum (ER): a crucial cellular hub in flavivirus infection and potential target site for antiviral interventions

Identification and Molecular Characterization of NS1 and NS2 Genes of Dengue Virus from two mini outbreaks (2022-2023) in Pakistan

Molecular Characterization and Expression Analysis of NS3 and NS4 Genes of Dengue Virus Serotype-2 from Pakistani Isolates

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