4’-Fluorouridine mitigates lethal infection with pandemic human and highly pathogenic avian influenza viruses

Lieber, Carolin M.; Aggarwal, Megha; Yoon, Jeong-Joong; Cox, Robert; Sourimant, Julien; Toots, Märt; Kang, Hae-Ji; Johnson, Scott K.; Jones, Cheryl; Sticher, Zachary M.; Kolykhalov, Alexander A.; Sindaine, Manohar T; Tompkins, Stephen Mark; Planz, Oliver; Painter, George R.; Natchus, Michael G.; Sakamoto, Kaori; Plemper, Richard K.

doi:10.1101/2022.11.05.515296

Cited by 3 publications

(13 citation statements)

References 43 publications

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“…Dose-response assessment of 4'-FlU against recCA09 returned 50 and 90% inhibitory concentrations (EC50 and EC90, respectively) of 0.14 and 0.24 µM (S1 Fig), which was consistent with our previous observations [29].…”

Section: Resultssupporting

confidence: 91%

“…None of the combinations of mutations required for moderate resistance to 4'-FlU existed in complete IAV genome sequences available in the NCBI Virus database (S4 Fig) . Although some mutations were present individually, all remained below 1% relative frequency except PB1 M339I and PB2 E191K in complete and partial sequences (S6 Table ), confirming our previous observation that circulating human and avian IAVs are efficiently inhibited by the compound [29].…”

Section: Iav Adaption Identifies Distinct Mutations Mediating Partial...supporting

confidence: 87%

“…At every passage, progeny virus titers were determined, viral RNA extracted, and fresh cells infected at a controlled multiplicity of infection (MOI) of 0.01 TCID50 units/cell. We rebuilt all mutations in polymerase subunits in a recCA09-maxGFP background, which expresses a maxGFP from the HA segment [29,30] Lineage #4 co-replicated with the genetic parent without substantial change in relative allele frequencies, and one substitution each of lineages #5 and #6, V285I in PB1 and Y488C in PB2, respectively, disappeared rapidly, whereas others co-existed with the parent allele.…”

Section: Iav Adaption Identifies Distinct Mutations Mediating Partial...mentioning

confidence: 99%

“…We localized all resistance mutations in structural models of the influenza virus polymerase complex, built on the coordinates released for influenza virus C (ICV) [33], the 1918 H1N1 IAV [34], and a bat IAV [35] Overall, altered geometry of the polymerase active site, achieved through combinations of mutations in distinct sets, emerged as the common theme across all resistance lineages (S7 Table ). These changes may either increase selectivity of the polymerase complex for substrate triphosphates or, more likely based on in vitro RdRP assay results of immediate chain termination [29], increase spatial flexibility at the active site to better accommodate secondary structure changes introduced by incorporation of the 4'-FlU analog into the nascent RNA strand [27,29]. Structural limits for flexibility appear to be tight, however, since different artificially engineered combinations of independently emerged signature resistance mutations did not result in bioactive polymerase complexes that could support productive virus replication (S8 Table ).…”

Section: Spatial Localization Implicates Resistance Mutations With Al...mentioning

confidence: 99%

“…We have recently identified 4'-FlU, an orally efficacious nucleoside analog with broad spectrum activity against multiple positive and negative strand RNA viruses including betacoronaviruses [27,28], RSV and paramyxoviruses [27], and both seasonal and highly pathogenic avian influenza viruses [29]. Inducing immediate chain termination of the IAV polymerase, 4'-FlU displayed an unusually wide therapeutic time window in the lethal pdm09 H1N1 mouse model, mediating complete survival of animals when treatment was initiated up to 60 hours after infection [29].…”

Section: Introductionmentioning

confidence: 99%

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Influenza A virus resistance to 4’-fluorouridine coincides with viral attenuationin vitroandin vivo

Lieber,

Kang,

Aggarwal

et al. 2023

Preprint

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Pre-existing or rapidly emerging resistance of influenza viruses to approved antivirals makes the development of novel therapeutics to mitigate seasonal influenza and improve preparedness against future influenza pandemics an urgent priority. We have recently identified the chain-terminating broad-spectrum nucleoside analog clinical candidate 4-fluorouridine (4-FlU) and demonstrated oral efficacy against seasonal, pandemic, and highly pathogenic avian influenza viruses in the mouse and ferret model. Here, we have resistance-profiled 4-FlU against a pandemic A/CA/07/2009 (H1N1) (CA09). In vitro viral adaptation yielded six independently generated escape lineages with distinct mutations that mediated moderate resistance to 4-FlU in the genetically controlled background of recombinant CA09 (recCA09). Mutations adhered to three distinct structural clusters that are all predicted to affect the geometry of the active site of the viral RNA-dependent RNA polymerase (RdRP) complex for phosphodiester bond formation. Escape could be achieved through an individual causal mutation, a combination of mutations acting additively, or mutations functioning synergistically. Fitness of all resistant variants was impaired in cell culture, and all were attenuated in the mouse model. Oral 4-FlU administered at lowest-efficacious (2 mg/kg) or elevated (10 mg/kg) dose overcame moderate resistance when mice were inoculated with 10 LD50 units of parental or resistant recCA09, demonstrated by significantly reduced virus load and complete survival. In the ferret model, invasion of the lower respiratory tract by variants representing four adaptation lineages was impaired. Resistant variants were either transmission-incompetent, or spread to untreated sentinels was fully blocked by therapeutic treatment of source animals with 4-FlU.

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Section: Resultssupporting

confidence: 91%

Section: Iav Adaption Identifies Distinct Mutations Mediating Partial...supporting

confidence: 87%

Section: Iav Adaption Identifies Distinct Mutations Mediating Partial...mentioning

confidence: 99%

Section: Spatial Localization Implicates Resistance Mutations With Al...mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Influenza A virus resistance to 4’-fluorouridine coincides with viral attenuationin vitroandin vivo

Lieber,

Kang,

Aggarwal

et al. 2023

Preprint

Self Cite

View full text Add to dashboard Cite

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Intestinal microbiota programming of alveolar macrophages influences severity of respiratory viral infection

Ngo,

Lieber,

Kang

et al. 2023

Preprint

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Investigating the influence of intestinal microbiota composition on respiratory viral infection (RVI) revealed that segmented filamentous bacteria (SFB), naturally acquired or exogenously administered, protected mice against influenza virus (IAV) infection, as assessed by viral titers, histopathology, and clinical disease features. Such protection, which also applied to RSV and SARS-CoV-2, was independent of interferon and adaptive immunity but required basally resident alveolar macrophages (AM), which, in SFB-negative mice, were quickly depleted as RVI progressed. Examination of AM from SFB-colonized mice revealed that they were intrinsically altered to resist IAV-induced depletion and inflammatory signaling. Yet, AM from SFB-colonized mice were not quiescent. Rather, they directly disabled IAV via enhanced complement production and phagocytosis. Transplant of SFB-transformed AM into SFB-free hosts recapitulated SFB-mediated protection against IAV mechanistically linking intestinal microbiota, AM phenotype, and RVI severity.

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Efficacy of late-onset antiviral treatment in immune-compromised hosts with persistent SARS-CoV-2 infection

Lieber,

Kang,

Sobolik

et al. 2024

Preprint

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The immunocompromised are at high risk of prolonged SARS-CoV-2 infection and progression to severe COVID-19. However, efficacy of late-onset direct-acting antiviral (DAA) therapy with therapeutics in clinical use and experimental drugs to mitigate persistent viral replication is unclear. In this study, we employed an immunocompromised mouse model, which supports prolonged replication of SARS-CoV-2 to explore late-onset treatment options. Tandem immuno-depletion of CD4+ and CD8+ T cells in C57BL/6 mice followed by infection with SARS-CoV-2 variant of concern (VOC) beta B.1.351 resulted in prolonged infection with virus replication for five weeks after inoculation. Early-onset treatment with nirmatrelvir/ritonavir (paxlovid) or molnupiravir was only moderately efficacious, whereas the experimental therapeutic 4'-fluorourdine (4'-FlU, EIDD-2749) significantly reduced virus load in upper and lower respiratory compartments four days post infection (dpi). All antivirals significantly lowered virus burden in a 7-day treatment regimen initiated 14 dpi, but paxlovid-treated animals experienced rebound virus replication in the upper respiratory tract seven days after treatment end. Viral RNA was detectable 28 dpi in paxlovid-treated animals, albeit not in the molnupiravir or 4'-FlU groups, when treatment was initiated 14 dpi and continued for 14 days. Low-level virus replication continued 35 dpi in animals receiving vehicle but had ceased in all treatment groups. These data indicate that late-onset DAA therapy significantly shortens the duration of persistent virus replication in an immunocompromised host, which may have implications for clinical use of antiviral therapeutics to alleviate the risk of progression to severe disease in highly vulnerable patients.

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4’-Fluorouridine mitigates lethal infection with pandemic human and highly pathogenic avian influenza viruses

Cited by 3 publications

References 43 publications

Influenza A virus resistance to 4’-fluorouridine coincides with viral attenuationin vitroandin vivo

Influenza A virus resistance to 4’-fluorouridine coincides with viral attenuationin vitroandin vivo

Intestinal microbiota programming of alveolar macrophages influences severity of respiratory viral infection

Efficacy of late-onset antiviral treatment in immune-compromised hosts with persistent SARS-CoV-2 infection

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