3.4.6 RNA Vaccine .....................................................................................53
3.5 Conclusion......................................................................................................53
References................................................................................................................54
3.1
INTRODUCTION
We are continuously exposed to pathogens, many of which could cause serious
disease. If it were not for our immune system, that is constantly surveying the
environment, recognizing pathogens, and defending us from attack, we would
succumb to infection more frequently. This is a formidable task given the large
number and diversity of pathogens. The immune system needs not only to recognize
them but also to distinguish one from the other. Moreover, some pathogens share
molecular features with humans and so the immune system has the other major
challenge of distinguishing “foreign” from “self.” This chapter will describe the
toolkit and strategies that the immune system uses to accomplish this daunting task.
The response to a pathogen takes place in two stages, depicted schematically in
Figure 3.1. The first, a “rapid-acting” innate immune system, recognizes the threat and
swiftly triggers a response, although the recognition and therefore the response is not
specific to the pathogen. However, the importance of this phase cannot be overstated,
since, not only the intensity, but also the quality of the second or adaptive phase
FIGURE 3.1 The immune system. This figure is a schematic representation of the response
of the immune system to a foreign organism. Starting from the rapid response of the cells of
the innate immune system, information about the risk is conveyed by the bridging elements
(macrophage and dendritic cells) to the adaptive immune system that mounts both a humoral
(production of antibodies by the B cells) and a cellular (T cells that can either support the
humoral response or produce cytotoxic molecules) response that attacks the pathogen with
exquisite specificity.
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Bioprocessing of Viral Vaccines