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Front Immunol. 2014 Dec 17;5:645. doi: 10.3389/fimmu.2014.00645. eCollection 2014.

Human Peripheral CD4(+) Vδ1(+) γδT Cells Can Develop into αβT Cells.

Author information

1
Department of Hematology and Oncology, University Children's Hospital, University of Tübingen , Tübingen , Germany.
2
Department of Immunology, Interfaculty Institute for Cell Biology, University of Tübingen , Tübingen , Germany.

Abstract

The lifelong generation of αβT cells enables us to continuously build immunity against pathogens and malignancies despite the loss of thymic function with age. Homeostatic proliferation of post-thymic naïve and memory T cells and their transition into effector and long-lived memory cells balance the decreasing output of naïve T cells, and recent research suggests that also αβT-cell development independent from the thymus may occur. However, the sites and mechanisms of extrathymic T-cell development are not yet understood in detail. γδT cells represent a small fraction of the overall T-cell pool, and are endowed with tremendous phenotypic and functional plasticity. γδT cells that express the Vδ1 gene segment are a minor population in human peripheral blood but predominate in epithelial (and inflamed) tissues. Here, we characterize a CD4(+) peripheral Vδ1(+) γδT-cell subpopulation that expresses stem-cell and progenitor markers and is able to develop into functional αβT cells ex vivo in a simple culture system and in vivo. The route taken by this process resembles thymic T-cell development. However, it involves the re-organization of the Vδ1(+) γδTCR into the αβTCR as a consequence of TCR-γ chain downregulation and the expression of surface Vδ1(+)Vβ(+) TCR components, which we believe function as surrogate pre-TCR. This transdifferentiation process is readily detectable in vivo in inflamed tissue. Our study provides a conceptual framework for extrathymic T-cell development and opens up a new vista in immunology that requires adaptive immune responses in infection, autoimmunity, and cancer to be reconsidered.

KEYWORDS:

T-cell development; Vδ1+ γδT cells; extrathymic T-cell development; extrathymic T-cell progenitor; hematopoietic progenitor cell; inflammation; δβ heterodimer

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