Worldwide, human respiratory syncytial virus (RSV) is the most common etiological agent for acute lower respiratory tract infections (ALRI). RSV-ALRI is the major cause of hospital admissions in young children, and it can cause in-hospital deaths in children younger than six months old. Therefore, RSV remains one of the pathogens deemed most important for the generation of a vaccine. On the other hand, the effectiveness of a vaccine depends on the development of immunological memory against the pathogenic agent of interest. This memory is achieved by long-lived memory T cells, based on the establishment of an effective immune response to viral infections when subsequent exposures to the pathogen take place. Memory T cells can be classified into three subsets according to their expression of lymphoid homing receptors: central memory cells (T CM ), effector memory cells (T EM ) and resident memory T cells (T RM ). The latter subset consists of cells that are permanently found in non-lymphoid tissues and are capable of recognizing antigens and mounting an effective immune response at those sites. T RM cells activate both innate and adaptive immune responses, thus establishing a robust and rapid response characterized by the production of large amounts of effector molecules. T RM cells can also recognize antigenically unrelated pathogens and trigger an innate-like alarm with the recruitment of other immune cells. It is noteworthy that this rapid and effective immune response induced by T RM cells make these cells an interesting aim in the design of vaccination strategies in order to establish T RM cell populations to prevent respiratory infectious diseases. Here, we discuss the biogenesis of T RM cells, their contribution to the resolution of respiratory viral infections and the induction of T RM cells, which should be considered for the rational design of new vaccines against RSV.
【저자키워드】 Vaccine development, respiratory infection, Human respiratory syncytial virus, resident memory T cells, human orthopneumovirus,