HRP
Since its emergence in April 2009, pandemic influenza A virus H1N1 (H1N1 pdm), a new type of influenza A virus with a triple-reassortant genome, has spread throughout the world. Initial attempts to diagnose the infection in patients using immunochromatography (IC) relied on test kits developed for seasonal influenza A and B viruses, many of which proved significantly less sensitive to H1N1 pdm. Here, we prepared monoclonal antibodies that react with H1N1 pdm but not seasonal influenza A (H1N1 and H3N2) or B viruses. Using two of these antibodies, one recognizing viral hemagglutinin (HA) and the other recognizing nucleoprotein (NP), we developed kits for the specific detection of H1N1 pdm and tested them using clinical specimens of nasal wash fluid or nasopharyngeal fluid from patients with influenza-like illnesses. The specificities of both IC test kits were very high (93% for the HA kit, 100% for the NP kit). The test sensitivities for detection of H1N1 pdm were 85.5% with the anti-NP antibody, 49.4% with the anti-HA antibody, and 79.5% with a commercially available influenza A virus detection assay. Use of the anti-NP antibody could allow the rapid and accurate diagnosis of H1N1 pdm infections.
We have studied which steps are enhanced in the infectious cycle of influenza A virus in Madin-Darby canine kidney (MDCK) cells, a cell line investigated for use in the production of an influenza vaccine because of its ability to yield high levels of virus. We have confirmed that MDCK had the highest production levels of virions among several cell lines early in the infection. Influenza A virus showed similar levels of viral genomic RNA replication, mRNA transcription, and protein expression in A549 as in MDCK. Thus, we focused on the post-translational transport of viral glycoproteins from the endoplasmic reticulum (ER) to the plasma membrane. Comparative characterization revealed more efficient processing in the folding and maturation of hemagglutinin and neuraminidase in the ER in MDCK than in A549. Also, the subsequent transport of these glycoproteins to the plasma membrane occurred much earlier in MDCK. These results indicate that the folding and maturation efficiencies of viral glycoproteins in the ER impact the efficiency with which influenza A viral particles are produced.