Utilization of alpha-1-acid glycoprotein levels in the serum as a parameter for in vivo assay of influenza virus inhibitors.

Alpha-1-acid glycoprotein (AGP), an acute phase protein in serum assayed by single radial immunodiffusion using a commercially available kit, was found to significantly increase in mice infected with influenza A and B viruses. Experiments were run to determine the rate of increase of serum AGP and its relation to other influenza disease parameters, including lung consolidation, development of lung virus titres, decline in arterial oxygen saturation (SaO2), histopathological changes in the lung, and death of the animal. Maximal AGP levels occurred by day 3 in the animals, at about the same time lung virus titres reached their peak and inflammatory effects were evident in the lung. Serum levels of AGP were then compared with other disease parameters in the evaluation of the anti-influenza A and B virus efficacy of oseltamivir and ribavirin in mice. Treatment was by oral gavage twice daily for 5 days, beginning 4 h before virus exposure using doses of 100, 10, and 1 mg/kg per day of oseltamivir and 75 mg/kg per day of ribavirin. Against the influenza A infection, significant inhibition of death, SaO2 decline, and lung consolidation was seen at all doses of each compound; day-6 AGP levels were reduced in a dose-responsive manner. Lung virus titres were lessened at this time, but to a significant degree only at the high dose of oseltamivir and by ribavirin. The influenza B virus infection, which appeared more severe than the influenza A infection, was also significantly inhibited by both compounds, but to a lesser extent. The serum AGP levels were again lessened by therapy with both compounds. The influence of challenge dose of influenza A virus on AGP level and on the antiviral activity of 20 mg/kg per day of oseltamivir, administered by oral gavage, was determined in mice. The AGP level was in proportion to the viral challenge dose; oseltamivir significantly inhibited AGP levels and all other disease parameters regardless of size of viral inoculum. These data indicate murine AGP levels to be markedly stimulated by infection with influenza A and B viruses, and the level of the protein to be an additional measure of antiviral efficacy.

Cyclopentane neuraminidase inhibitors with potent in vitro anti-influenza virus activities.

A novel series of cyclopentane derivatives have been found to exhibit potent and selective inhibitory effects on influenza virus neuraminidase. These compounds, designated RWJ-270201, BCX-1827, BCX-1898, and BCX-1923, were tested in parallel with zanamivir and oseltamivir carboxylate against a spectrum of influenza A (H1N1, H3N2, and H5N1) and influenza B viruses in MDCK cells. Inhibition of viral cytopathic effect ascertained visually and by neutral red dye uptake was used, with 50% effective (virus-inhibitory) concentrations (EC(50)) determined. Against the H1N1 viruses A/Bayern/07/95, A/Beijing/262/95, A/PR/8/34, and A/Texas/36/91, EC(50)s (determined by neutral red assay) of the novel compounds were < or =1.5 microM. Twelve strains of H3N2 and two strains of avian H5N1 viruses were inhibited at <0.3 microM. Influenza B/Beijing/184/93 and B/Harbin/07/94 viruses were inhibited at <0.2 microM, with three other B virus strains inhibited at 0.8 to 8 microM. The novel inhibitors were comparable in potency to (or slightly more potent than) zanamivir and oseltamivir carboxylate. No cytotoxicity was seen with the compounds at concentrations of < or =1 mM in cell proliferation assays. The antiviral activity of RWJ-270201, chosen for clinical development, was studied in greater detail. Its potency and that of oseltamivir carboxylate decreased with increasing multiplicity of virus infection. Time-of-addition studies indicated that treatment with either compound needed to begin 0 to 12 h after virus exposure for optimal activity. Exposure of cells to RWJ-270201 caused most of the virus to remain cell associated, with extracellular virus decreasing in a concentration-dependent manner. This is consistent with its effect as a neuraminidase inhibitor. RWJ-270201 shows promise in the treatment of human influenza virus infections.

Influenza infections after hematopoietic stem cell transplantation: risk factors, mortality, and the effect of antiviral therapy.

BACKGROUND: Community-acquired respiratory viruses, such as influenza virus, are thought to be major causes of morbidity and mortality in patients who had undergone hematopoietic stem cell transplantation (HSCT). Risk factors for acquisition, progression to pneumonia, and the effect of antiviral therapy are unknown. METHODS: We reviewed records from patients with documented influenza over 12 consecutive respiratory-virus infection seasons at a single transplantation center. RESULTS: From 1 September 1989 through 31 March 2002, influenza virus was isolated from 62 of 4797 persons undergoing HSCT (1.3%); 44 patients had upper respiratory tract infections (URIs) alone, and 18 developed pneumonia. Among patients with influenza virus infection, pneumonia developed more commonly among those infected earlier after transplantation (median, 36 vs. 61 days, P=.04) and those with concurrent lymphopenia. Of the 51 cases that were initially diagnosed as URIs, 17 were treated with antivirals, and 34 were not treated. Six untreated patients (18%) developed pneumonia, whereas 1 (13%) of 8 patients treated with rimantadine and 0 of 9 treated with oseltamivir developed pneumonia. The duration of influenza virus shedding was longer in patients treated with steroid doses of >1 mg/kg than among those treated with doses of <1 mg/kg (mean, 15 vs. 9 days); there was a trend towards decreased shedding with oseltamivir therapy (but not rimantadine therapy) after controlling for steroid use (P<.08). The 30-day mortality rate was highest among patients who had progression to pneumonia (5 [28%] of 18 patients); pulmonary copathogens (such as Aspergillus fumigatus) were commonly isolated. CONCLUSIONS: Influenza virus infection is an important cause of mortality early after HSCT. Our nonrandomized data suggest that early antiviral therapy with neuraminidase inhibitors may prevent progression to pneumonia and decrease viral shedding, which may prevent both influenza-related death in index patients and nosocomial transmission to others.

Influenza virus carrying neuraminidase with reduced sensitivity to oseltamivir carboxylate has altered properties in vitro and is compromised for infectivity and replicative ability in vivo.

Oseltamivir phosphate (Tamiflu, Ro 64-0796) is the first orally administered neuraminidase (NA) inhibitor approved for use in treatment and prevention of influenza virus infection in man. Oseltamivir phosphate is the pro-drug of the active metabolite oseltamivir carboxylate (Ro 64-0802). Extensive monitoring throughout the oseltamivir development programme has identified a very low incidence of patients who have carried drug-resistant virus. The predominant mutation seen is the substitution of arginine for lysine at position 292 of the viral NA. The fitness of clinically isolated influenza virus A/Sydney/5/97 (H3N2) carrying this mutation was markedly reduced in animal models of influenza virus infection. The infectivity and replicative abilities of R292K mutant virus were reduced by at least 2 logs in a mouse model of influenza infection and by 2 and 4 logs, respectively, in the ferret model. Pathogenicity of R292K influenza virus A/Sydney/5/97 was reduced in ferrets as measured by inflammatory and febrile responses at least in parallel to the decrease in replicative ability. The data indicate that the R292K NA mutation compromises viral fitness such that virus carrying this mutation is unlikely to be of significant clinical consequence in man.