Stachyflin is a novel compound having H1 and H2 subtype-specific anti-influenza A virus activity. Stachyflin has no inhibition on H3 subtype influenza A or influenza B viruses. The susceptibility of the reassortant viruses between H1 and H3 subtype influenza A viruses to Stachyflin indicated that its target was virus-encoded hemagglutinin (HA). The results of the timing of Stachyflin addition against in vitro virus infection and virus-mediated hemolysis assay suggested that the drug inhibited the HA-mediated virus-cell fusion process. More directly, Stachyflin interfered with HA conformational change induced by low pH or heat treatment. The effect of Stachyflin could not be eliminated by washing of the Stachyflin-treated virus, which caused very specific virucidal effect. This is a remarkable property among small molecules which inhibit low-pH induced HA conformational change. From these findings, we concluded that the mechanism of Stachyflin action is to inhibit HA conformational change which is necessary for virus-cell membrane fusion. Stachyflin may be used as a tool for a study of molecular mechanism of low-pH induced HA conformational change, and offers potential as a pharmaceutical agent.
To test the feasibility of using bacterial artificial chromosomes (BAC) containing kinases for pathological diagnosis using fluorescence in situ hybridization (FISH), 10 BAC probes containing a gene amplified in 5% or more of a pilot cohort were selected from a previous survey using arbitrarily selected BAC clones harboring 100 kinases. In this report, we describe the prevalence and association with the clinicopathological profile of these selected 10 BAC probes in 365 gastric cancer tissues. FISH analyses using these 10 BAC probes containing loci encoding EGFR, ERBB2(HER2), EPHB3, PIK3CA, MET, PTK7, ACK1, STK15, SRC, and HCK showed detectable amplifications in paraffin-embedded tissue in 2.83% to 13.6% of the gastric cancer tissues. Considerable numbers of the cases showed the co-amplification of two or more of the probes that were tested. BAC probes located within a genome neighborhood, such as PIK3CA, EPHB3, and ACK1 at 3q26-29 or HCK, SRC, and STK15 at 20q11-13.1, were often co-amplified in the same cases, but non-random co-amplifications of genes at distant genomic loci were also observed. These findings provide basic information regarding the creation of a strategy for personalizing gastric cancer therapy, especially when using multiple kinase inhibitors.
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