migration to the follicles in the lymph node. Also coming to the lymph node are
antigen-laden dendritic cells, which present the antigen to T-cells. This in turn
causes T-cell activation followed by migration into the follicle. In the follicle,
activated T-cells stimulate B-cells to initiate a process of antibody maturation in-
volving genetic rearrangements, that results in the production of higher-affinity
binders. They also trigger the formation of memory cells that can be re-activated
upon re-infection. These T-cells are thus called T-helper cells.
3.3.2.3
Cytotoxic T-Cells
The other important type of T-cells are the cytotoxic T-cells. This type of T-cell
attacks abnormal cells, such as those infected by a virus. Intracellular proteolytic
fragments of a pathogen or abnormal protein are displayed on the surface of the cell
in question, and are recognized by T-cells expressing receptors that specifically
recognize those fragments. As shown in Figure 3.12, upon activation by antigen-
binding, cytotoxic T-cells produce perforin, a molecule that will kill the cell by
making holes in it. They also produce granzymes, molecules that trigger apoptosis
in the target cell. Cytotoxic T-cells induce cell death very much like NK cells, but
their action is much more specific because T-cells recognize their targets with the
help of very specific receptors. Figure 3.13 shows the difference in function of
the two types of T-cells, one that supports antibody formation in B cells (T-helper)
and the other that triggers cell death (killer T) in abnormal cells such as those that
are virally infected or cancerous [7].
3.4
VACCINES
The aim of vaccination is to induce protection from the pathogen, without making the
individual experience the sickness. Therefore, the strategy is to initiate the innate
FIGURE 3.11 T-cell receptor. The T-cell receptor is made up of two chains, α and β held
together by a disulfide bond. Both chains consist of variable and constant regions, with the
variable region harboring an antigen-binding site. Both chains span the plasma membrane
and have a short cytoplasmic domain.
Introduction to basic immunology
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