Tissue-resident T cells and other resident leukocytes

D Masopust, AG Soerens - Annual review of immunology, 2019 - annualreviews.org
D Masopust, AG Soerens
Annual review of immunology, 2019annualreviews.org
Resident memory T (Trm) cells stably occupy tissues and cannot be sampled in superficial
venous blood. Trm cells are heterogeneous but collectively constitute the most abundant
memory T cell subset. Trm cells form an integral part of the immune sensing network,
monitor for local perturbations in homeostasis throughout the body, participate in protection
from infection and cancer, and likely promote autoimmunity, allergy, and inflammatory
diseases and impede successful transplantation. Thus Trm cells are major candidates for …
Resident memory T (Trm) cells stably occupy tissues and cannot be sampled in superficial venous blood. Trm cells are heterogeneous but collectively constitute the most abundant memory T cell subset. Trm cells form an integral part of the immune sensing network, monitor for local perturbations in homeostasis throughout the body, participate in protection from infection and cancer, and likely promote autoimmunity, allergy, and inflammatory diseases and impede successful transplantation. Thus Trm cells are major candidates for therapeutic manipulation. Here we review CD8+ and CD4+ Trm ontogeny, maintenance, function, and distribution within lymphoid and nonlymphoid tissues and strategies for their study. We briefly discuss other resident leukocyte populations, including innate lymphoid cells, macrophages, natural killer and natural killer T cells, nonclassical T cells, and memory B cells. Lastly, we highlight major gaps in knowledge and propose ways in which a deeper understanding could result in new methods to prevent or treat diverse human diseases.
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