laninamivir and Orthomyxoviridae-Infections

Four neuraminidase (NA) inhibitors and an RNA synthesis inhibitor were recently approved and are currently in clinical use for influenza. Among NA inhibitors, oseltamivir phosphate (OSE, Tamiflu

Topics: Animals; Antiviral Agents; Cell Line; Dogs; Enzyme Inhibitors; Female; Guanidines; Inflammation; Influenza A Virus, H5N1 Subtype; Influenza A Virus, H7N9 Subtype; Madin Darby Canine Kidney Cells; Mice; Mice, Inbred BALB C; Neuraminidase; Orthomyxoviridae Infections; Oseltamivir; Pyrans; Sialic Acids; Zanamivir

Treatment of immunocompromised, influenza virus-infected patients with the viral neuraminidase inhibitor oseltamivir often leads to the emergence of drug-resistant variants. Combination therapy with compounds that target different steps in the viral life cycle may improve treatment outcomes and reduce the emergence of drug-resistant variants.. Here, we infected immunocompromised nude mice with an influenza A virus and treated them with neuraminidase (oseltamivir, laninamivir) or viral polymerase (favipiravir) inhibitors, or combinations thereof.. Combination therapy for 28 days increased survival times compared with monotherapy, but the animals died after treatment was terminated. Mono- and combination therapies did not consistently reduce lung virus titers. Prolonged viral replication led to the emergence of neuraminidase inhibitor-resistant variants, although viruses remained sensitive to favipiravir. Overall, favipiravir provided greater benefit than neuraminidase inhibitors.. Collectively, our data demonstrate that combination therapy in immunocompromised hosts increases survival times, but does not suppress the emergence of neuraminidase inhibitor-resistant variants.

Topics: Amides; Animals; Antiviral Agents; Dose-Response Relationship, Drug; Drug Therapy, Combination; Enzyme Inhibitors; Female; Guanidines; Immunocompromised Host; Influenza A Virus, H1N1 Subtype; Lung; Mice; Mice, Inbred BALB C; Mice, Nude; Neuraminidase; Nucleic Acid Synthesis Inhibitors; Orthomyxoviridae Infections; Oseltamivir; Pyrans; Pyrazines; Sialic Acids; Zanamivir

Viral fitness of a laninamivir-selected influenza A/Brisbane/10/2007-like (H3N2) isolate (LRVp9) containing a 237-amino acid neuraminidase deletion and a P194L hemagglutinin mutation was evaluated in vitro and in ferrets. LRVp9 and the wild-type (WT) virus showed comparable replication kinetics in MDCK-ST6GalI cells. Cultured virus was recovered between days 2 and 5 post-infection in nasal washes (NW) from the 4 WT-infected ferrets whereas no virus was recovered from the LRVp9-infected animals. There was a ≥1 log reduction in viral RNA copies/μl of NW for LRVp9 compared to WT at most time points. The large neuraminidase deletion compromises viral infectivity in vivo.

Topics: Animals; Antiviral Agents; Drug Resistance, Viral; Ferrets; Gene Deletion; Genetic Fitness; Guanidines; Hemagglutinin Glycoproteins, Influenza Virus; Humans; Influenza A Virus, H3N2 Subtype; Influenza, Human; Mutation; Neuraminidase; Orthomyxoviridae Infections; Pyrans; RNA, Viral; Sialic Acids; Virus Replication; Zanamivir

Laninamivir is a long-acting antiviral requiring only a single dose for the treatment of influenza infection, making it an attractive alternative to existing neuraminidase inhibitors that require multiple doses over many days. Like zanamivir, laninamivir is administered to patients by inhalation of dry powder. To date, studies investigating the effectiveness of laninamivir or zanamivir in a ferret model of influenza infection have administered the drug in a solubilised form. To better mimic the delivery action of laninamivir in humans, we assessed the applicability of a Dry Powder Insufflator™ (DPI) as a delivery method for laninamivir octanoate (LO) in ferrets to determine the effectiveness of this drug in reducing influenza A and B virus infections. In vitro characterisation of the DPI showed that both the small particle sized LO (0.7-6.0μm diameter) and the large particle sized lactose carrier (20-100μm diameter) were effectively discharged. However, LO delivered to ferrets via the DPI prior to infection with either A(H1N1)pdm09 or B viruses had a limited effect on nasal inflammation, clinical symptoms and viral shedding compared to placebo. Our preliminary findings indicate the feasibility of administering powder drugs into ferrets, but a better understanding of the pharmacokinetics and pharmacodynamics of LO in ferrets following delivery by the DPI is warranted prior to further studies.

Topics: Administration, Inhalation; Animals; Antiviral Agents; Disease Models, Animal; Drug Carriers; Ferrets; Guanidines; Orthomyxoviridae Infections; Placebos; Powders; Pyrans; Sialic Acids; Zanamivir

Laninamivir octanoate (Inavir(®); Daiichi Sankyo, Tokyo, Japan) is an anti-influenza drug that provides complete treatment by a single inhalation. It works as a long-acting neuraminidase (NA) inhibitor by means of high and continuous exposure of laninamivir, its active metabolite, in the lungs of mice after intranasal administration. Even after 6 days after intranasal administration of 236 μg/kg laninamivir octanoate, the concentration of laninamivir in the lungs was maintained more than 2-3 orders higher than 50% inhibitory concentrations of laninamivir to N1 NAs, about 2 orders higher than N2 NA of seasonal influenza A viruses, and more than about 50 times higher than influenza B virus NA. From A/H1N1 influenza virus-infected and laninamivir octanoate-treated mice, no low-susceptibility mutants to laninamivir were obtained. In contrast, four different mutants to oseltamivir were obtained from mice administered oseltamivir phosphate, which required repeated administration for treatment under the experimental condition, showing similar virus load reduction between both compounds. This finding suggested the unique characteristics of laninamivir octanoate in mice may work suppressively to generate low-susceptibility mutants.

Topics: Administration, Intranasal; Animals; Antiviral Agents; Cell Line; Dogs; Drug Resistance, Viral; Female; Guanidines; Influenza A virus; Inhibitory Concentration 50; Lung; Mice; Mice, Inbred BALB C; Mutation; Neuraminidase; Orthomyxoviridae Infections; Oseltamivir; Pyrans; Sialic Acids; Viral Load; Zanamivir

Patients with influenza virus infection can develop severe pneumonia and acute respiratory distress syndrome (ARDS) which have a high mortality. Influenza virus infection is treated worldwide mainly by neuraminidase inhibitors (NAIs). However, monotherapy with NAIs is insufficient for severe pneumonia secondary to influenza virus infection. We previously demonstrated that mice infected with a lethal dose of influenza virus develop diffuse alveolar damage (DAD) with alveolar collapse similar to that seen in ARDS in humans. Additionally, pulmonary surfactant proteins were gradually increased in mouse serum, suggesting a decrease in pulmonary surfactant in the lung. Therefore, the present study examined whether combination therapy of NAI with exogenous artificial surfactant affects mortality of influenza virus-infected mice.. BALB/c mice were inoculated with several viral doses of influenza A/Puerto Rico/8/34 (PR8) virus (H1N1). The mice were additionally administered exogenous artificial surfactant in the presence or absence of a new NAI, laninamivir octanoate. Mouse survival, body weight and general condition were observed for up to 20 days after inoculation. Viral titer and cytokine/chemokine levels in the lungs, lung weight, pathological analysis, and blood O(2) and CO(2) pressures were evaluated. Infected mice treated with combination therapy of laninamivir octanoate with artificial surfactant showed a significantly higher survival rate compared with those that received laninamivir octanoate monotherapy (p = 0.003). However, virus titer, lung weight and cytokine/chemokine responses were not different between the groups. Histopathological examination, a hydrostatic lung test and blood gas analysis showed positive results in the combination therapy group.. Combination therapy of laninamivir octanoate with artificial surfactant reduces lethality in mice infected with influenza virus, and eventually suppresses DAD formation and preserves lung function. This combination could be effective for prevention of severe pneumonia secondary to influenza virus infection in humans, which is not improved by NAI monotherapy.

Topics: Animals; Body Weight; Carbon Dioxide; Chemokines; Dogs; Drug Therapy, Combination; Female; Guanidines; Influenza A Virus, H1N1 Subtype; Lung; Madin Darby Canine Kidney Cells; Mice; Mice, Inbred BALB C; Organ Size; Orthomyxoviridae Infections; Oxygen; Pressure; Pulmonary Surfactant-Associated Protein D; Pulmonary Surfactants; Pyrans; Sialic Acids; Survival Analysis; Viral Load; Zanamivir

Two neuraminidase (NA) inhibitors, zanamivir (Relenza) and oseltamivir phosphate (Tamiflu), have been licensed for use for the treatment and prophylaxis of influenza. We have reported on laninamivir (code name, R-125489), a novel neuraminidase inhibitor, and have discovered that the laninamivir prodrug CS-8958 worked as a long-acting neuraminidase inhibitor in a mouse influenza virus infection model when it is intranasally administered. In this study, CS-8958 was administered just once 7 days before infection and showed significant efficacy in vivo. The efficacy of a single administration of CS-8958 after viral infection was then compared with that of repeated administrations of oseltamivir phosphate or zanamivir in mice and ferrets. CS-8958 showed efficacy superior or similar to the efficacies of the two licensed NA inhibitors. CS-8958 also significantly reduced the titers of an oseltamivir-resistant H1N1 virus with a neuraminidase H274Y substitution in a mouse infection model. These results suggest that since CS-8958 is characteristically long lasting in the lungs, it may be ideal for the prophylaxis and treatment of influenza.

Topics: Animals; Antiviral Agents; Disease Models, Animal; Ferrets; Humans; Influenza A Virus, H1N1 Subtype; Influenza B virus; Mice; Mice, Inbred BALB C; Neuraminidase; Orthomyxoviridae Infections; Oseltamivir; Prodrugs; Treatment Outcome; Zanamivir

Currently, two neuraminidase (NA) inhibitors, oseltamivir and zanamivir, which must be administrated twice daily for 5 days for maximum therapeutic effect, are licensed for the treatment of influenza. However, oseltamivir-resistant mutants of seasonal H1N1 and highly pathogenic H5N1 avian influenza A viruses have emerged. Therefore, alternative antiviral agents are needed. Recently, a new neuraminidase inhibitor, R-125489, and its prodrug, CS-8958, have been developed. CS-8958 functions as a long-acting NA inhibitor in vivo (mice) and is efficacious against seasonal influenza strains following a single intranasal dose. Here, we tested the efficacy of this compound against H5N1 influenza viruses, which have spread across several continents and caused epidemics with high morbidity and mortality. We demonstrated that R-125489 interferes with the NA activity of H5N1 viruses, including oseltamivir-resistant and different clade strains. A single dose of CS-8958 (1,500 microg/kg) given to mice 2 h post-infection with H5N1 influenza viruses produced a higher survival rate than did continuous five-day administration of oseltamivir (50 mg/kg twice daily). Virus titers in lungs and brain were substantially lower in infected mice treated with a single dose of CS-8958 than in those treated with the five-day course of oseltamivir. CS-8958 was also highly efficacious against highly pathogenic H5N1 influenza virus and oseltamivir-resistant variants. A single dose of CS-8958 given seven days prior to virus infection also protected mice against H5N1 virus lethal infection. To evaluate the improved efficacy of CS-8958 over oseltamivir, the binding stability of R-125489 to various subtypes of influenza virus was assessed and compared with that of other NA inhibitors. We found that R-125489 bound to NA more tightly than did any other NA inhibitor tested. Our results indicate that CS-8958 is highly effective for the treatment and prophylaxis of infection with H5N1 influenza viruses, including oseltamivir-resistant mutants.

Topics: Animals; Antiviral Agents; Female; Guanidines; Influenza A Virus, H5N1 Subtype; Mice; Mice, Inbred BALB C; Neuraminidase; Orthomyxoviridae Infections; Oseltamivir; Prodrugs; Pyrans; Sialic Acids; Zanamivir