Finding a chink in the armor: Update, limitations, and challenges toward successful antivirals against flaviviruses

Komarasamy, Thamil Vaani; Adnan, Nur Amelia Azreen; James, William; Balasubramaniam, Vinod

doi:10.1371/journal.pntd.0010291

Cited by 13 publications

(14 citation statements)

References 152 publications

(185 reference statements)

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“…They have indicated that certain conditions warrant the continuous use of statins during pregnancy; however, this recommendation does not necessarily translate to fully endorsing the use of statins during pregnancy due to their safety concerns. Given that significant morbidities from ZIKV infections occur in fetuses and neonates, protecting fetuses from complications due to ZIKV infections during pregnancy and keeping them safe from the adverse effects of drugs are the goals of anti-ZIKV therapy [ 17 ]. Additionally, lipophilic statins have been associated with muscle toxicity collectively called statin-associated muscle symptoms (SAMS), which, in rare severe cases, may require drug discontinuation [ 18 , 19 ].…”

Section: Introductionmentioning

confidence: 99%

Effects of Statin Combinations on Zika Virus Infection in Vero Cells

Españo

Kim

2022

Pharmaceutics

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The Zika virus (ZIKV) remains a global health concern. Thus far, no antiviral or vaccine has been approved to prevent or treat ZIKV infection. In a previous study, we found that lipophilic statins can inhibit ZIKV production in Vero cells. These statins appear to have different potencies against ZIKV infection. Here, we determined whether combinations of statins would have synergistic effects to maximize the efficacy of the statins and to reduce potential side effects. Specifically, we used a modified fixed-ratio assay for the combinations of atorvastatin (ATO) or fluvastatin (FLU) with mevastatin (MEV) or simvastatin (SIM). All combinations with MEV tended towards synergy, especially with higher fractions of MEV in the combinations. The ATO + SIM combination tended towards additivity. The FLU + SIM combination also tended towards additivity except for one combination which had the highest fraction of FLU over SIM among the tested combinations. Overall, certain combinations of ATO or FLU with SIM or MEV may be synergistic. More exhaustive combinatorial assays in vitro and in vivo could help define whether combining lipophilic statins would be beneficial and safe for treating ZIKV infections.

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Section: Introductionmentioning

confidence: 99%

Effects of Statin Combinations on Zika Virus Infection in Vero Cells

Españo

Kim

2022

Pharmaceutics

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“…However, existing flavivirus vaccines are of variable efficacy, and their development has not always been straightforward, because of the complex immunological response to infection by different flaviviruses, and the presence of multiple endemic flaviviruses in tropical regions (Fischer et al, 2020; Sridhar et al, 2018). Despite more than 60 years of research, there are currently no FDA-approved antivirals to treat flavivirus infection, and there is an urgent need for these to be developed (Komarasamy et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

Inhibition of the DENV2 and ZIKV RNA polymerases by Galidesivir triphosphate measured using a continuous fluorescence assay

Deshpande¹,

Huo²,

Shrestha

et al. 2022

Preprint

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Millions of people are infected by the Dengue and Zika viruses each year, which can result in serious illness, permanent disability or death. There are currently no FDA-approved antivirals for treating infection by these viruses. Galidesivir is an adenosine nucleoside analog which can attenuate flavivirus replication in cell-based and animal models of infection. Galidesivir is converted to the triphosphorylated form by host kinases, and subsequently incorporated into viral RNA by viral RNA-dependent RNA polymerases, leading to the termination of RNA synthesis via an unknown mechanism. Here we report the direct in vitro testing of the effects of Galidesivir triphosphate on RNA synthesis by the polymerases of Dengue-2 and Zika virus. Galidesivir triphosphate was chemically synthesized and inhibition of RNA synthesis followed using a continuous fluorescence-based assay. Galidesivir triphosphate was equipotent against the polymerase activity of Dengue-2 and Zika, with IC50 values of 42 +/- 12 μM and 47 +/- 5 μM, respectively. This modest potency in vitro is consistent with results previously obtained in cell-based antiviral assays and suggests that the binding affinity for Galidesivir triphosphate is similar to the natural ATP substrate that it closely mimics. The inhibition assay we have developed will allow the rapid screening of Galidesivir and related compounds against other flavivirus polymerases, and the availability of Galidesivir triphosphate will allow detailed analysis of its mechanism of action.

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“…There are currently no approved JEV antiviral drugs despite decades of research and several compounds showing efficacy in vitro and in mouse models 29 . This is partly due to the difficulty of conducting clinical trials for JEV since outbreaks are unpredictable and occur in remote settings and recruitment is challenging due to a lack of good‐quality diagnostics.…”

mentioning

confidence: 99%

“…The JEV antiviral drug pipeline includes newly developed compounds and repurposed existing drugs, such as prochlorperazine, niclosamide, nitazoxanide and ivermectin 9,29–31 . Drug repurposing is attractive as registered drugs already have regulatory approval and their safety has been established, whereas bringing a novel tropical disease drug to market is a financial risk for pharmaceutical companies.…”

mentioning

confidence: 99%

“…The JEV antiviral drug pipeline includes newly developed compounds and repurposed existing drugs, such as prochlorperazine, niclosamide, nitazoxanide and ivermectin. 9,[29][30][31] Drug repurposing is attractive as registered drugs already have regulatory approval and their safety has been established, whereas bringing a novel tropical disease drug to market is a financial risk for pharmaceutical companies. Potential new JEV antiviral therapies targeting the envelope protein, the NS2B-NS3 protease, the replication complex or the RNA-dependent RNA polymerase have demonstrated JEV inhibition, either in vitro or in mouse models.…”

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confidence: 99%

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Japanese encephalitis disease: overview of the virus, its risk to Australia and the need for better surveillance

Mackenzie

Smith

Speers

2022

Internal Medicine Journal

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Japanese encephalitis disease: overview of the virus, its risk to Australia and the need for better surveillance Japanese encephalitis virus (JEV) re-emerged in Australia in 2021, initially as a fatal case from the Tiwi Islands north of Darwin. Sequencing studies showed the virus causing the outbreak was a JEV genotype IV (GIV) virus. Encephalitis caused by JEV GIV appeared to be indistinguishable from encephalitis caused by other JEV genotypes or other members of the Japanese encephalitis (JE) serological complex such as Murray Valley encephalitis virus (MVEV) and West Nile virus (WNV).A fatal case of JE occurred in the Northern Territory (NT) in March 2021 in a 45-year-old resident of the Tiwi Islands. 1,2 This was the first recorded case of JE acquired in Australia since 1995-1998 when five cases of encephalitis, two of them fatal, had occurred on Badu, an island in the central Torres Strait, and on Cape York near the mouth of the Mitchell River. 3 The 2021 Tiwi Island case was the sentinel case for a subsequent widespread outbreak of JE that was first detected in February 2022, associated with mummified and stillborn piglets in over 80 piggeries in southern Queensland, New South Wales (NSW), northern Victoria and eastern South Australia (SA). 4 It also resulted in 42 human cases in the four states, seven of them fatal. 5 JEV, a mosquito-transmitted flavivirus, is the most important vaccine-preventable cause of viral encephalitis in Asia 6,7 and is known for its high mortality and high frequency of severe sequelae in symptomatic cases. It is thought to cause the loss of 709 000 disability-adjusted life years annually, making it one of the most important human arboviral diseases. 8,9 The geographic distribution of JEV extends from eastern Asia in maritime Russia, Japan, Korea and China to South-East Asia from the Philippines to Vietnam, Malaysia and Thailand, and southern Asia from Indonesia to India, Nepal and Sri Lanka. It also spread into Papua New Guinea and the Torres Strait islands of north-eastern Australia. 10 It is closely related antigenically and genetically to the Australian flaviviruses, MVEV and WNV (Kunjin strain) viruses. This close antigenic relationship can make serological diagnoses difficult, especially as prior exposure to a flavivirus can often result in higher antibody levels to a previous virus than to a different newly infecting flavivirus. 11 Laboratory testing and the interpretation of results

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Finding a chink in the armor: Update, limitations, and challenges toward successful antivirals against flaviviruses

Cited by 13 publications

References 152 publications

Effects of Statin Combinations on Zika Virus Infection in Vero Cells

Effects of Statin Combinations on Zika Virus Infection in Vero Cells

Inhibition of the DENV2 and ZIKV RNA polymerases by Galidesivir triphosphate measured using a continuous fluorescence assay

Japanese encephalitis disease: overview of the virus, its risk to Australia and the need for better surveillance

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