Abstract
SummaryImmunological memory provides rapid protection to pathogens previously encountered through infection or vaccination. CD4 T‐cells play a central role in all adaptive immune responses. Vaccines must, therefore, activate CD4 T‐cells if they are to generate protective immunity. For many diseases, we do not have effective vaccines. These include human immunodeficiency virus (HIV), tuberculosis and malaria, which are responsible for many millions of deaths each year across the globe. CD4 T‐cells play many different roles during the immune response coordinating the actions of many other cells. In order to harness the diverse protective effects of memory CD4 T‐cells, we need to understand how memory CD4 T‐cells are generated and how they protect the host. Here we review recent findings on the location of different subsets of memory CD4 T‐cells that are found in peripheral tissues (tissue resident memory T‐cells) and in the circulation (central and effector memory T‐cells). We discuss the generation of these cells, and the evidence that demonstrates how they provide immune protection in animal and human challenge models.
Highlights
Vaccines are the most cost-effective form of healthcare worldwide
Immunological memory provides rapid protection to pathogens previously encountered through infection or vaccination
CD4 T-cells play a central role in all adaptive immune responses
Summary
Vaccines are the most cost-effective form of healthcare worldwide. Most current vaccines act by generating protective antibodies that inactivate the pathogen or its toxins.[1].
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