Literature DB >> 27894837

CD4+ virtual memory: Antigen-inexperienced T cells reside in the naïve, regulatory, and memory T cell compartments at similar frequencies, implications for autoimmunity.

Alina I Marusina1, Yoko Ono1, Alexander A Merleev1, Michiko Shimoda1, Hiromi Ogawa1, Elizabeth A Wang1, Kayo Kondo1, Laura Olney1, Guillaume Luxardi1, Yoshinori Miyamura1, Tilahun D Yilma2, Itzel Bustos Villalobos1, Jennifer W Bergstrom1, Daniel G Kronenberg1, Athena M Soulika1, Iannis E Adamopoulos3, Emanual Maverakis4.   

Abstract

It is widely accepted that central and effector memory CD4+ T cells originate from naïve T cells after they have encountered their cognate antigen in the setting of appropriate co-stimulation. However, if this were true the diversity of T cell receptor (TCR) sequences within the naïve T cell compartment should be far greater than that of the memory T cell compartment, which is not supported by TCR sequencing data. Here we demonstrate that aged mice with far fewer naïve T cells, respond to the model antigen, hen eggwhite lysozyme (HEL), by utilizing the same TCR sequence as their younger counterparts. CD4+ T cell repertoire analysis of highly purified T cell populations from naive animals revealed that the HEL-specific clones displayed effector and central "memory" cell surface phenotypes even prior to having encountered their cognate antigen. Furthermore, HEL-inexperienced CD4+ T cells were found to reside within the naïve, regulatory, central memory, and effector memory T cell populations at similar frequencies and the majority of the CD4+ T cells within the regulatory and memory populations were unexpanded. These findings support a new paradigm for CD4+ T cell maturation in which a specific clone can undergo a differentiation process to exhibit a "memory" or regulatory phenotype without having undergone a clonal expansion event. It also demonstrates that a foreign-specific T cell is just as likely to reside within the regulatory T cell compartment as it would the naïve compartment, arguing against the specificity of the regulatory T cell compartment being skewed towards self-reactive T cell clones. Finally, we demonstrate that the same set of foreign and autoreactive CD4+ T cell clones are repetitively generated throughout adulthood. The latter observation argues against T cell-depleting strategies or autologous stem cell transplantation as therapies for autoimmunity-as the immune system has the ability to regenerate pathogenic clones. Published by Elsevier Ltd.

Entities:  

Keywords:  Autoimmunity; CD4 T cell; Driver T cells; Experimental autoimmune encephalomyelitis; Hematopoietic stem cell transplantation; Memory T cells; Next generation sequencing; T cell repertoire analysis; T regulatory cells; Virtual memory

Mesh:

Substances:

Year:  2016        PMID: 27894837      PMCID: PMC6066671          DOI: 10.1016/j.jaut.2016.11.001

Source DB:  PubMed          Journal:  J Autoimmun        ISSN: 0896-8411            Impact factor:   7.094


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