Characterization of peptide aptamers targeting Bfl-1 anti-apoptotic protein.

Bfl-1, an anti-apoptotic protein of the Bcl-2 family, has been identified as a potential therapeutic target for B-cell malignancies. We describe herein the first characterization of peptide aptamers selected against Bfl-1. We show that most of the Bfl-1 peptide aptamers do not interact with Bcl-2, Bcl-xL, or Mcl-1 in yeast and that some of them restore the pro-apoptotic activity of Bax in yeast in which Bax and Bfl-1 proteins are coexpressed. When expressed in mammalian cells, peptide aptamers interact with Bfl-1 and sensitize B-cell lines to apoptosis induced by chemotherapeutic agents. We further demonstrate that a nonconstrained peptide derived from one aptamer variable region reverses Bfl-1 anti-apoptotic activity in HeLa cells through disruption of Bax-Bfl-1 interaction. This peptide also promotes cell death in lymphoma B-cell lines expressing a high level of Bfl-1 and sensitizes these cells to drug-induced apoptosis. Taken together, these results further validate Bfl-1 as a therapeutic target for malignant B-cells and suggest that peptide aptamers may be a useful tool for guiding the identification of small compounds that target the anti-apoptotic Bfl-1 protein.

Rapid generation of a well-matched vaccine seed from a modern influenza A virus primary isolate without recourse to eggs.

Most influenza vaccines are produced in chicken eggs but recent human influenza strains often do not grow well in this substrate. The PER.C6 cell line is an alternative platform for vaccine production. Here we demonstrate that PER.C6 cells faithfully propagate recent clinical isolates, without selecting for mutations in the HA gene. PER.C6 cells support the rescue of recombinant influenza viruses from cDNA. We used sequence data from a surveillance programme to generate a PR8-based seed virus with the HA and NA of a contemporary circulating H3N2 human strain, A/England/611/07 (E611) that did not itself grow in eggs. We engineered mutations that affected receptor-binding, G186V or L194P, into the E611 HA gene. Whilst the L194P mutation conferred efficient growth in eggs, G186V did not. The L194P mutation was also spontaneously selected during egg propagation of E611/PR8 7:1 recombinant virus. This suggests generation of a single recombinant vaccine seed might satisfy manufacturers that utilize either eggs or cells for vaccine production.