Human skin cells support thymus-independent T cell development
Rachael A. Clark, Kei-ichi Yamanaka, Mei Bai, Rebecca Dowgiert, Thomas S. Kupper
Rachael A. Clark, Kei-ichi Yamanaka, Mei Bai, Rebecca Dowgiert, Thomas S. Kupper
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Research Article Immunology

Human skin cells support thymus-independent T cell development

Abstract

Thymic tissue has previously been considered a requirement for the generation of a functional and diverse population of human T cells. We report that fibroblasts and keratinocytes from human skin arrayed on a synthetic 3-dimensional matrix support the development of functional human T cells from hematopoietic precursor cells in the absence of thymic tissue. Newly generated T cells contained T cell receptor excision circles, possessed a diverse T cell repertoire, and were functionally mature and tolerant to self MHC, indicating successful completion of positive and negative selection. Skin cell cultures expressed the AIRE, Foxn1, and Hoxa3 transcription factors and a panel of autoantigens. Skin and bone marrow biopsies can thus be used to generate de novo functional and diverse T cell populations for potential therapeutic use in immunosuppressed patients.

Authors

Rachael A. Clark, Kei-ichi Yamanaka, Mei Bai, Rebecca Dowgiert, Thomas S. Kupper

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Spectratype analysis of T cells produced in skin cell cultures. T cells ...
Spectratype analysis of T cells produced in skin cell cultures. T cells generated in skin cell cultures were subjected to TCR-CDR3 length analysis. Diversity within each Vβ family is signified by multiple peaks. Precursor cells from 1 bone marrow donor were matured in skin cell cultures from 2 different skin donors. T cells produced in cultures from the first skin donor (A; 8 × 105 cells analyzed) were more diverse and had a different T cell repertoire than T cells produced in cultures from the second skin donor (B; 5 × 105 cells analyzed).