Antibody production following vaccination can provide protective immunity to subsequent infection by pathogens such as influenza viruses. However, circumstances where antibody formation is impaired after vaccination, such as in older people, require us to better understand the cellular and molecular mechanisms that underpin successful vaccination in order to improve vaccine design for at-risk groups. Here, by studying the breadth of anti-haemagglutinin (HA) IgG, serum cytokines, and B and T cell responses by flow cytometry before and after influenza vaccination, we show that formation of circulating T follicular helper (cTfh) cells was associated with high-titre antibody responses. Using Major Histocompatability Complex (MHC) class II tetramers, we demonstrate that HA-specific cTfh cells can derive from pre-existing memory CD4+ T cells and have a diverse T cell receptor (TCR) repertoire. In older people, the differentiation of HA-specific cells into cTfh cells was impaired. This age-dependent defect in cTfh cell formation was not due to a contraction of the TCR repertoire, but rather was linked with an increased inflammatory gene signature in cTfh cells. Together, this suggests that strategies that temporarily dampen inflammation at the time of vaccination may be a viable strategy to boost optimal antibody generation upon immunisation of older people.
This paper addresses the problem of decreasing protein expression levels in genetically modified plant cells. A modeling approach was used to explain the loss of productivity over successive generations. Using this model, productivity losses were simulated for two cell lines. Although the lines were relatively stable, the protein production level could decrease by more than 80% after a large number of generations. Motivated by this problem, a dispersion method was developed to isolate productive cells from existing cell suspensions. Dilution of transgenic cells in a feeder layer of nonproducing cells at a ratio of 1:1000 facilitated the recovery of distinct, separate daughter colonies. Applying this method, it was possible to recover high producing cell lines.
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