Your search keyword '"Shishido, Takao"' showing total 11 results

1. Prophylactic Treatment with Baloxavir Protects Mice from Lethal Infection with Influenza A and B Viruses.

Author

Fukao, Keita, Noshi, Takeshi, Shano, Shinya, Baba, Kaoru, Sato, Kenji, Sakuramoto, Masashi, Kitade, Naohisa, Tanioka, Hideki, Kusakabe, Shinji, and Shishido, Takao

Subjects

INFLUENZA B virus, VIRUS diseases, INFLUENZA viruses, MICE, ANTIVIRAL agents, H2 receptor antagonists

Abstract

Influenza remains a worldwide health concern. Antiviral drugs are considered as one of the useful options for its prevention as a complementary measure to vaccination. Baloxavir acid selectively inhibits the cap-dependent endonuclease of influenza viruses and exhibits marked viral titre reduction in patients. Here, we describe the prophylactic potency of baloxavir acid against lethal infection with influenza A and B viruses in mice. BALB/c mice were subcutaneously administered once with baloxavir acid suspension, or orally administered once daily for 10 days with oseltamivir phosphate solution at human relevant doses. Next, the mice were intranasally inoculated with A/PR/8/34 (H1N1) or B/Hong Kong/5/72 strain at 24 to 96 h after the initial dosing. Prophylactic treatment with the antiviral drugs significantly reduced the lung viral titres and prolonged survival time. In particular, baloxavir acid showed a greater suppressive effect on lung viral titres compared to oseltamivir phosphate. In this model, baloxavir acid maintained significant prophylactic effects against influenza A and B virus infections when the plasma concentration at the time of infection was at least 0.88 and 3.58 ng/mL, respectively. The significant prophylactic efficacy observed in our mouse model suggests the potential utility of baloxavir marboxil for prophylaxis against influenza in humans. [ABSTRACT FROM AUTHOR]

Published

2023

2. In Vivo Antiviral Activity of Baloxavir against PA/I38T-Substituted Influenza A Viruses at Clinically Relevant Doses.

Author

Kuroda, Takayuki, Fukao, Keita, Yoshida, Shinpei, Oka, Ryoko, Baba, Kaoru, Ando, Yoshinori, Taniguchi, Keiichi, Noshi, Takeshi, and Shishido, Takao

Subjects

INFLUENZA viruses, SUPERPHOSPHATES, PLANT viruses, OSELTAMIVIR, TITERS, HAMSTERS

Abstract

Although the prevalence of polymerase acidic (PA)/I38T strains of influenza virus with reduced susceptibility to baloxavir acid is low, there is a possibility of emergence under selective pressure. Furthermore, the virus may be transmitted between humans. We investigated the in vivo efficacy of baloxavir acid and oseltamivir phosphate against influenza A subtypes H1N1, H1N1pdm09, and H3N2, with PA/I38T substitution, at doses simulating human plasma concentrations. A pharmacokinetic/pharmacodynamic analysis was performed to strengthen the validity of the findings and the applicability in a clinical setting. Although the antiviral effect of baloxavir acid was attenuated in mice infected with PA/I38T-substituted viral strains compared with the wild type (WT), baloxavir acid significantly reduced virus titers at higher—but clinically relevant—doses. The virus titer reduction with baloxavir acid (30 mg/kg subcutaneous single dose) was comparable to that of oseltamivir phosphate (5 mg/kg orally twice daily) against H1N1 and H1N1pdm09 PA/I38T strains in mice, as well as the H3N2 PA/I38T strain in hamsters. Baloxavir acid demonstrated an antiviral effect against PA/I38T-substituted strains, at day 6, with no further viral rebound. In conclusion, baloxavir acid demonstrated dose-dependent antiviral effects comparable to that of oseltamivir phosphate, even though the degree of lung virus titer reduction was diminished in animal models infected with PA/I38T-substituted strains. [ABSTRACT FROM AUTHOR]

Published

2023

3. Assessing the fitness of a dual-antiviral drug resistant human influenza virus in the ferret model.

Author

Stannard, Harry L., Mifsud, Edin J., Wildum, Steffen, Brown, Sook Kwan, Koszalka, Paulina, Shishido, Takao, Kojima, Satoshi, Omoto, Shinya, Baba, Keiko, Kuhlbusch, Klaus, Hurt, Aeron C., and Barr, Ian G.

Subjects

INFLUENZA A virus, INFLUENZA viruses, INFLUENZA, INFECTIOUS disease transmission, AIRBORNE infection, FERRET, ANTIVIRAL agents, DRUG resistance

Abstract

Influenza antivirals are important tools in our fight against annual influenza epidemics and future influenza pandemics. Combinations of antivirals may reduce the likelihood of drug resistance and improve clinical outcomes. Previously, two hospitalised immunocompromised influenza patients, who received a combination of a neuraminidase inhibitor and baloxavir marboxil, shed influenza viruses resistant to both drugs. Here-in, the replicative fitness of one of these A(H1N1)pdm09 virus isolates with dual resistance mutations (NA-H275Y and PA-I38T) was similar to wild type virus (WT) in vitro, but reduced in the upper respiratory tracts of challenged ferrets. The dual-mutant virus transmitted well between ferrets in an airborne transmission model, but was outcompeted by the WT when the two viruses were co-administered. These results indicate the dual-mutant virus had a moderate loss of viral fitness compared to the WT virus, suggesting that while person-to-person transmission of the dual-resistant virus may be possible, widespread community transmission is unlikely. A clinical influenza isolate with dual antiviral resistant mutations displays a moderate loss of viral fitness in ferrets compared to wild-type virus, suggesting widespread community transmission of this dual mutant is unlikely. [ABSTRACT FROM AUTHOR]

Published

2022

4. Evaluating the fitness of PA/I38T-substituted influenza A viruses with reduced baloxavir susceptibility in a competitive mixtures ferret model.

Author

Lee, Leo YY, Zhou, Jie, Koszalka, Paulina, Frise, Rebecca, Farrukee, Rubaiyea, Baba, Keiko, Miah, Shahjahan, Shishido, Takao, Galiano, Monica, Hashimoto, Takashi, Omoto, Shinya, Uehara, Takeki, Mifsud, Edin J., Collinson, Neil, Kuhlbusch, Klaus, Clinch, Barry, Wildum, Steffen, Barclay, Wendy S., and Hurt, Aeron C.

Subjects

INFLUENZA viruses, INFLUENZA A virus, RECOMBINANT viruses, FERRET, ANTIVIRAL agents, INFLUENZA, DIVERTICULITIS

Abstract

Baloxavir is approved in several countries for the treatment of uncomplicated influenza in otherwise-healthy and high-risk patients. Treatment-emergent viruses with reduced susceptibility to baloxavir have been detected in clinical trials, but the likelihood of widespread occurrence depends on replication capacity and onward transmission. We evaluated the fitness of A/H3N2 and A/H1N1pdm09 viruses with the polymerase acidic (PA) I38T-variant conferring reduced susceptibility to baloxavir relative to wild-type (WT) viruses, using a competitive mixture ferret model, recombinant viruses and patient-derived virus isolates. The A/H3N2 PA/I38T virus showed a reduction in within-host fitness but comparable between-host fitness to the WT virus, while the A/H1N1pdm09 PA/I38T virus had broadly similar within-host fitness but substantially lower between-host fitness. Although PA/I38T viruses replicate and transmit between ferrets, our data suggest that viruses with this amino acid substitution have lower fitness relative to WT and this relative fitness cost was greater in A/H1N1pdm09 viruses than in A/H3N2 viruses. Author summary: Influenza viruses are associated with considerable disease burden and circulate annually causing seasonal epidemics. Antiviral drugs can be used to treat influenza infections and help reduce the disease burden. Occasionally, treatment can lead to the emergence of viruses with reduced antiviral susceptibility. Normally such viruses have reduced 'fitness', meaning they do not tend to spread or transmit widely, however on rare occasions, oseltamivir-resistant variants have become widespread in the community, thereby reducing the utility of the drug for treatment. Baloxavir is an antiviral recently licensed in many parts of the world for the treatment of influenza. Viruses with reduced susceptibility to baloxavir have been observed in clinical trials, but the frequency of such variants in the community has remained low (<0.1% globally since 2017–2018). We evaluated the fitness of viruses in ferrets and found that although A/H1N1 and A/H3N2 viruses with reduced baloxavir susceptibility were able to replicate and transmit among ferrets, they had a moderate reduction in fitness compared to normal 'wild-type' viruses, suggesting a reduced likelihood of spread. Surveillance to monitor for the frequency of viruses with reduced baloxavir susceptibility remains important. [ABSTRACT FROM AUTHOR]

Published

2021

5. Comprehensive assessment of amino acid substitutions in the trimeric RNA polymerase complex of influenza A virus detected in clinical trials of baloxavir marboxil.

Author

Hashimoto, Takashi, Baba, Keiko, Inoue, Kae, Okane, Miyako, Hata, Satoshi, Shishido, Takao, Naito, Akira, Wildum, Steffen, and Omoto, Shinya

Subjects

RNA polymerases, INFLUENZA A virus, INFLUENZA viruses, AMINO acids, INFLUENZA B virus, INFLUENZA A virus, H1N1 subtype

Abstract

Background: Baloxavir marboxil (BXM) is an approved drug that selectively targets cap‐dependent endonuclease on PA subunit in the RNA polymerase complex of influenza A and B viruses. Amino acid substitutions at position 38 in the PA subunit were identified as a major pathway for reduced susceptibility to baloxavir acid (BXA), the active form of BXM. Additionally, substitutions found at positions E23, A37, and E199 in the PA subunit impact BXA susceptibility by less than 10‐fold. Methods: We comprehensively evaluated the impact of novel amino acid substitutions identified in PA, PB1, and PB2 subunits in BXM clinical trials and influenza sequence databases by means of drug susceptibility and replicative capacity. Results: PA/I38N in A(H1N1)pdm09 and PA/I38R in A(H3N2) were newly identified as treatment‐emergent substitutions in the CAPSTONE‐2 study. The I38N substitution conferred reduced susceptibility by 24‐fold, whereas replicative capacity of the I38N‐substituted virus was impaired compared with the wild‐type. The I38R‐substituted virus was not viable in cell culture. All other mutations assessed in this extensive study did not significantly affect BXA susceptibility (< 2.4‐fold change). Conclusion: These results provide additional information on the impact of amino acid substitutions in the trimeric viral polymerase complex to BXA susceptibility and will further support influenza surveillance. [ABSTRACT FROM AUTHOR]

Published

2021

6. Pharmacokinetic and pharmacodynamic analysis of baloxavir marboxil, a novel cap-dependent endonuclease inhibitor, in a murine model of influenza virus infection.

Author

Ando, Yoshinori, Noshi, Takeshi, Sato, Kenji, Ishibashi, Toru, Yoshida, Yuki, Hasegawa, Takahiro, Onishi, Motoyasu, Kitano, Mitsutaka, Oka, Ryoko, Kawai, Makoto, Yoshida, Ryu, Sato, Akihiko, Shishido, Takao, and Naito, Akira

Subjects

VIRUS diseases, INFLUENZA viruses, H1N1 influenza, PHARMACOKINETICS, INFLUENZA B virus, VIRUS inhibitors, BIOLOGICAL models, PYRIDINE, RESEARCH, HETEROCYCLIC compounds, ANIMAL experimentation, RESEARCH methodology, ANTIVIRAL agents, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies, INFLUENZA, ESTERASES, INFLUENZA A virus, H1N1 subtype, MICE, INFLUENZA A virus, H3N2 subtype

Abstract

Background: Baloxavir acid, the active form of the orally available prodrug baloxavir marboxil, is a novel cap-dependent endonuclease inhibitor of influenza virus. Baloxavir marboxil has been shown to rapidly reduce virus titres compared with oseltamivir in clinical studies.Objectives: We investigated the relationship between pharmacokinetic (PK) parameters and antiviral activity of baloxavir acid based on virus titre reduction in lungs of infected mice.Methods: BALB/c mice infected with a sub-lethal dose of influenza A(H1N1), A(H1N1)pdm09, A(H3N2) or type B virus were treated on day 5 with oral baloxavir marboxil (0.5-50 mg/kg q12h), subcutaneous baloxavir acid (0.25-8 mg/kg/day), oseltamivir phosphate (5 or 50 eq mg/kg q12h) or other antivirals for 1 day. Lung virus titres were assessed 24 h after initial antiviral dosing. PK testing was performed at up to 24 h post-dosing of baloxavir marboxil or baloxavir acid in A/WSN/33-infected mice and the PK/pharmacodynamic (PD) relationship was evaluated for baloxavir acid.Results: Oral baloxavir marboxil administration showed dose-dependent virus titre reductions in lungs of mice infected with the different types/subtypes of influenza viruses 24 h post-dosing. Baloxavir marboxil at 15 mg/kg q12h resulted in ≥100-fold and ≥10-fold reductions in influenza A and B virus titres, respectively, compared with oseltamivir phosphate. PK/PD analysis showed that the plasma concentration at the end of the dosing interval (Cτ) or the plasma concentration at 24 h after initial dosing (C24) was the PK parameter predicting the virus titres at 24 h post-dosing of baloxavir acid.Conclusions: PK/PD analysis of baloxavir acid based on virus titre reduction in this mouse model could be helpful in predicting and maximizing virological outcomes in clinical settings. [ABSTRACT FROM AUTHOR]

Published

2021

7. Baloxavir treatment of ferrets infected with influenza A(H1N1)pdm09 virus reduces onward transmission.

Author

Lee, Leo Yi Yang, Zhou, Jie, Frise, Rebecca, Goldhill, Daniel H., Koszalka, Paulina, Mifsud, Edin J., Baba, Kaoru, Noda, Takahiro, Ando, Yoshinori, Sato, Kenji, Yuki, Aoe-Ishikawa, Shishido, Takao, Uehara, Takeki, Wildum, Steffen, Zwanziger, Elke, Collinson, Neil, Kuhlbusch, Klaus, Clinch, Barry, Hurt, Aeron C., and Barclay, Wendy S.

Subjects

PANDEMICS, FERRET, INFLUENZA, SEASONAL influenza, INFLUENZA viruses, VIRAL transmission

Abstract

Influenza viruses cause seasonal outbreaks and pose a continuous pandemic threat. Although vaccines are available for influenza control, their efficacy varies each season and a vaccine for a novel pandemic virus manufactured using current technology will not be available fast enough to mitigate the effect of the first pandemic wave. Antivirals can be effective against many different influenza viruses but have not thus far been used extensively for outbreak control. Baloxavir, a recently licensed antiviral drug that targets the influenza virus endonuclease, has been shown to reduce virus shedding more effectively than oseltamivir, a widely used neuraminidase inhibitor drug. Thus it is possible that treatment with baloxavir might also interrupt onward virus transmission. To test this, we utilized the ferret model, which is the most commonly used animal model to study influenza virus transmission. We established a subcutaneous baloxavir administration method in ferrets which achieved similar pharmacokinetics to the approved human oral dose. Transmission studies were then conducted in two different locations with different experimental setups to compare the onward transmission of A(H1N1)pdm09 virus from infected ferrets treated with baloxavir, oseltamivir or placebo to naïve sentinel ferrets exposed either indirectly in adjacent cages or directly by co-housing. We found that baloxavir treatment reduced infectious viral shedding in the upper respiratory tract of ferrets compared to placebo, and reduced the frequency of transmission amongst sentinels in both experimental setups, even when treatment was delayed until 2 days post-infection. In contrast, oseltamivir treatment did not substantially affect viral shedding or transmission compared to placebo. We did not detect the emergence of baloxavir-resistant variants in treated animals or in untreated sentinels. Our results support the concept that antivirals which decrease viral shedding could also reduce influenza transmission in the community. Author summary: During seasonal influenza outbreaks and global pandemics, influenza can cause significant morbidity and mortality and spread rapidly. Influenza viruses constantly change, and the effectiveness of vaccination can be low if the match between the vaccine and circulating viruses is poor. However, antiviral drugs target conserved parts of the virus and therefore typically remain effective against new seasonal or pandemic strains of influenza. The new antiviral baloxavir is more effective than existing drugs, such as oseltamivir, in reducing the amount of virus particles produced by infected people, suggesting it might reduce the onward spread of influenza viruses to others. To test this, we developed an effective way to deliver baloxavir to ferrets, the best available animal model of influenza virus transmission. We then treated influenza-infected ferrets with baloxavir to determine if they were less likely to pass their virus onto healthy ferrets housed in the same cage, or in the adjacent cage. In both cases, we found that compared to oseltamivir or placebo treatment, infected ferrets treated with baloxavir produced fewer virus particles and were less likely to transmit virus to healthy ferrets. Our results suggest baloxavir can contribute to the early control of influenza outbreaks by limiting community-based viral spread. [ABSTRACT FROM AUTHOR]

Published

2020

8. Treatment-Emergent Influenza Variant Viruses With Reduced Baloxavir Susceptibility: Impact on Clinical and Virologic Outcomes in Uncomplicated Influenza.

Author

Uehara, Takeki, Hayden, Frederick G, Kawaguchi, Keiko, Omoto, Shinya, Hurt, Aeron C, Jong, Menno D De, Hirotsu, Nobuo, Sugaya, Norio, Lee, Nelson, Baba, Keiko, Shishido, Takao, Tsuchiya, Kenji, Portsmouth, Simon, Kida, Hiroshi, and De Jong, Menno D

Subjects

INFLUENZA viruses, AMINO acids, INFLUENZA, SULFUR compounds, PYRIDINE, RESEARCH, HETEROCYCLIC compounds, VIRAL load, RESEARCH methodology, ANTIVIRAL agents, EVALUATION research, MEDICAL cooperation, TREATMENT effectiveness, COMPARATIVE studies, BLIND experiment, DRUG resistance in microorganisms, INFLUENZA A virus, H3N2 subtype, OSELTAMIVIR, PHARMACODYNAMICS

Abstract

Background: Single-dose baloxavir rapidly reduces influenza virus titers and symptoms in patients with uncomplicated influenza, but viruses with reduced in vitro susceptibility due to amino acid substitutions at position 38 of polymerase acidic protein (PA/I38X) sometimes emerge.Methods: We evaluated the kinetics, risk factors, and effects on clinical and virologic outcomes of emergence of PA/I38X-substituted viruses.Results: Viruses containing PA/I38X substitutions were identified 3-9 days after baloxavir treatment in 9.7% (36/370) of patients, of whom 85.3% had transient virus titer rises. Median time to sustained cessation of infectious virus detection was 192, 48, and 96 hours in the baloxavir recipients with PA/I38X-substituted viruses, without PA/I38X-substituted viruses, and placebo recipients, respectively. The corresponding median times to alleviation of symptoms were 63.1, 51.0, and 80.2 hours, respectively. After day 5, symptom increases occurred in 11.5%, 8.0%, and 13.0%, respectively, and in 8.9% of oseltamivir recipients. Variant virus emergence was associated with lower baseline neutralizing antibody titers.Conclusions: The emergence of viruses with PA/I38X substitutions following baloxavir treatment was associated with transient rises in infectious virus titers, prolongation of virus detectability, initial delay in symptom alleviation, and uncommonly with symptom rebound. The potential transmissibility of PA/I38X-substituted viruses requires careful study.Clinical Trial Registration: NCT02954354. [ABSTRACT FROM AUTHOR]

Published

2020

9. Baloxavir marboxil, a novel cap-dependent endonuclease inhibitor potently suppresses influenza virus replication and represents therapeutic effects in both immunocompetent and immunocompromised mouse models.

Author

Fukao, Keita, Ando, Yoshinori, Noshi, Takeshi, Kitano, Mitsutaka, Noda, Takahiro, Kawai, Makoto, Yoshida, Ryu, Sato, Akihiko, Shishido, Takao, and Naito, Akira

Subjects

ENDONUCLEASES, INFLUENZA A virus, NEURAMINIDASE, INFLUENZA B virus, VIRAL replication, VIRUS diseases, THERAPEUTICS

Abstract

Baloxavir marboxil (BXM) is an orally available small molecule inhibitor of cap-dependent endonuclease (CEN), an essential enzyme in the initiation of mRNA synthesis of influenza viruses. In the present study, we evaluated the efficacy of BXM against influenza virus infection in mouse models. Single-day oral administration of BXM completely prevented mortality due to infection with influenza A and B virus in mice. Moreover, 5-day repeated administration of BXM was more effective for reducing mortality and body weight loss in mice infected with influenza A virus than oseltamivir phosphate (OSP), even when the treatment was delayed up to 96 hours post infection (p.i.). Notably, administration of BXM, starting at 72 hours p.i. led to significant decrease in virus titers of >2-log10 reduction compared to the vehicle control within 24 hours after administration. Virus reduction in the lung was significantly greater than that observed with OSP. In addition, profound and sustained reduction of virus titer was observed in the immunocompromised mouse model without emergence of variants possessing treatment-emergent amino acid substitutions in the target protein. In our immunocompetent and immunocompromised mouse models, delayed treatment with BXM resulted in rapid and potent reduction in infectious virus titer and prevention of signs of influenza infection, suggesting that BXM could extend the therapeutic window for patients with influenza virus infection regardless of the host immune status. [ABSTRACT FROM AUTHOR]

Published

2019

10. Characterization of the In Vitro and In Vivo Efficacy of Baloxavir Marboxil against H5 Highly Pathogenic Avian Influenza Virus Infection.

Author

Taniguchi, Keiichi, Ando, Yoshinori, Kobayashi, Masanori, Toba, Shinsuke, Nobori, Haruaki, Sanaki, Takao, Noshi, Takeshi, Kawai, Makoto, Yoshida, Ryu, Sato, Akihiko, Shishido, Takao, Naito, Akira, Matsuno, Keita, Okamatsu, Masatoshi, Sakoda, Yoshihiro, and Kida, Hiroshi

Subjects

AVIAN influenza A virus, VIRUS diseases, AVIAN influenza, H5N1 Influenza, INFLUENZA A virus, INFLUENZA viruses

Abstract

Human infections caused by the H5 highly pathogenic avian influenza virus (HPAIV) sporadically threaten public health. The susceptibility of HPAIVs to baloxavir acid (BXA), a new class of inhibitors for the influenza virus cap-dependent endonuclease, has been confirmed in vitro, but it has not yet been fully characterized. Here, the efficacy of BXA against HPAIVs, including recent H5N8 variants, was assessed in vitro. The antiviral efficacy of baloxavir marboxil (BXM) in H5N1 virus-infected mice was also investigated. BXA exhibited similar in vitro activities against H5N1, H5N6, and H5N8 variants tested in comparison with seasonal and other zoonotic strains. Compared with oseltamivir phosphate (OSP), BXM monotherapy in mice infected with the H5N1 HPAIV clinical isolate, the A/Hong Kong/483/1997 strain, also caused a significant reduction in viral titers in the lungs, brains, and kidneys, thereby preventing acute lung inflammation and reducing mortality. Furthermore, compared with BXM or OSP monotherapy, combination treatments with BXM and OSP using a 48-h delayed treatment model showed a more potent effect on viral replication in the organs, accompanied by improved survival. In conclusion, BXM has a potent antiviral efficacy against H5 HPAIV infections. [ABSTRACT FROM AUTHOR]

Published

2022

11. In vitro characterization of baloxavir acid, a first-in-class cap-dependent endonuclease inhibitor of the influenza virus polymerase PA subunit.

Author

Noshi, Takeshi, Kitano, Mitsutaka, Taniguchi, Keiichi, Yamamoto, Atsuko, Omoto, Shinya, Baba, Keiko, Hashimoto, Takashi, Ishida, Kayo, Kushima, Yukihiro, Hattori, Kazunari, Kawai, Makoto, Yoshida, Ryu, Kobayashi, Masanori, Yoshinaga, Tomokazu, Sato, Akihiko, Okamatsu, Masatoshi, Sakoda, Yoshihiro, Kida, Hiroshi, Shishido, Takao, and Naito, Akira

Subjects

*ENDONUCLEASES, *ENZYME inhibitors, *INFLUENZA viruses, *POLYMERASES, *GENETIC transcription

Abstract

Abstract Cap-dependent endonuclease (CEN) resides in the PA subunit of the influenza virus and mediates the critical "cap-snatching" step of viral RNA transcription, which is considered to be a promising anti-influenza target. Here, we describe in vitro characterization of a novel CEN inhibitor, baloxavir acid (BXA), the active form of baloxavir marboxil (BXM). BXA inhibits viral RNA transcription via selective inhibition of CEN activity in enzymatic assays, and inhibits viral replication in infected cells without cytotoxicity in cytopathic effect assays. The antiviral activity of BXA is also confirmed in yield reduction assays with seasonal type A and B viruses, including neuraminidase inhibitor-resistant strains. Furthermore, BXA shows broad potency against various subtypes of influenza A viruses (H1N2, H5N1, H5N2, H5N6, H7N9 and H9N2). Additionally, serial passages of the viruses in the presence of BXA result in isolation of PA/I38T variants with reduced BXA susceptibility. Phenotypic and genotypic analyses with reverse genetics demonstrate the mechanism of BXA action via CEN inhibition in infected cells. These results reveal the in vitro characteristics of BXA and support clinical use of BXM to treat influenza. Highlights • In vitro characterization of a CEN inhibitor baloxavir acid (BXA), the active form of baloxavir marboxil, was conducted. • BXA selectively blocks CEN activity of the viral polymerase complex in enzymatic assay. • BXA exhibits potent and broad activities against various types of influenza viruses. • In vitro drug resistant isolation study supports BXA targets CEN of PA subunit. [ABSTRACT FROM AUTHOR]

Published

2018