TY - JOUR
T1 - Superior T memory stem cell persistence supports long-lived T cell memory
AU - Lugli, Enrico
AU - Dominguez, Maria H.
AU - Gattinoni, Luca
AU - Chattopadhyay, Pratip K.
AU - Bolton, Diane L.
AU - Song, Kaimei
AU - Klatt, Nichole R.
AU - Brenchley, Jason M.
AU - Vaccari, Monica
AU - Gostick, Emma
AU - Price, David A.
AU - Waldmann, Thomas A.
AU - Restifo, Nicholas P.
AU - Franchini, Genoveffa
AU - Roederer, Mario
PY - 2013/2/1
Y1 - 2013/2/1
N2 - Long-lived memory T cells are able to persist in the host in the absence of antigen; however, the mechanism by which they are maintained is not well understood. Recently, a subset of human T cells, stem cell memory T cells (TSCM cells), was shown to be self-renewing and multipotent, thereby providing a potential reservoir for T cell memory throughout life. However, their in vivo dynamics and homeostasis still remain to be defined due to the lack of suitable animal models. We identified T cells with a TSCM phenotype and stem cell-like properties in nonhuman primates. These cells were the least-differentiated memory subset, were functionally distinct from conventional memory cells, and served as precursors of central memory. Antigen-specific TSCM cells preferentially localized to LNs and were virtually absent from mucosal surfaces. They were generated in the acute phase of viral infection, preferentially survived in comparison with all other memory cells following elimination of antigen, and stably persisted for the long term. Thus, one mechanism for maintenance of long-term T cell memory derives from the unique homeostatic properties of TSCM cells. Vaccination strategies designed to elicit durable cellular immunity should target the generation of TSCM cells.
AB - Long-lived memory T cells are able to persist in the host in the absence of antigen; however, the mechanism by which they are maintained is not well understood. Recently, a subset of human T cells, stem cell memory T cells (TSCM cells), was shown to be self-renewing and multipotent, thereby providing a potential reservoir for T cell memory throughout life. However, their in vivo dynamics and homeostasis still remain to be defined due to the lack of suitable animal models. We identified T cells with a TSCM phenotype and stem cell-like properties in nonhuman primates. These cells were the least-differentiated memory subset, were functionally distinct from conventional memory cells, and served as precursors of central memory. Antigen-specific TSCM cells preferentially localized to LNs and were virtually absent from mucosal surfaces. They were generated in the acute phase of viral infection, preferentially survived in comparison with all other memory cells following elimination of antigen, and stably persisted for the long term. Thus, one mechanism for maintenance of long-term T cell memory derives from the unique homeostatic properties of TSCM cells. Vaccination strategies designed to elicit durable cellular immunity should target the generation of TSCM cells.
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U2 - 10.1172/JCI66327
DO - 10.1172/JCI66327
M3 - Article
C2 - 23281401
AN - SCOPUS:84873395620
SN - 0021-9738
VL - 123
SP - 594
EP - 599
JO - Journal of Clinical Investigation
JF - Journal of Clinical Investigation
IS - 2
ER -