1. Human Th1 and Th17 cells exhibit epigenetic stability at signature cytokine and transcription factor loci.
- Author
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Cohen CJ, Crome SQ, MacDonald KG, Dai EL, Mager DL, and Levings MK
- Subjects
- Cell Lineage immunology, Cell Transdifferentiation immunology, Chromatin Immunoprecipitation, Cytokines immunology, Gene Expression Profiling, Humans, Polymerase Chain Reaction, Th1 Cells cytology, Th17 Cells cytology, Transcription Factors immunology, Cell Lineage genetics, Cell Transdifferentiation genetics, Cytokines genetics, Epigenesis, Genetic genetics, Epigenesis, Genetic immunology, Th1 Cells immunology, Th17 Cells immunology, Transcription Factors genetics
- Abstract
The linear model of Th cell lineage commitment is being revised due to reports that mature Th cells can trans-differentiate into alternate lineages. This ability of Th cells to reprogram is thought to be regulated by epigenetic mechanisms that control expression of transcription factors characteristic of opposing lineages. It is unclear, however, to what extent this new model of Th cell plasticity holds true in human Th cell subsets that develop under physiological conditions in vivo. We isolated in vivo-differentiated human Th1 and Th17 cells, as well as intermediate Th1/17 cells, and identified distinct epigenetic signatures at cytokine (IFNG and IL17A) and transcription factor (TBX21, RORC, and RORA) loci. We also examined the phenotypic and epigenetic stability of human Th17 cells exposed to Th1-polarizing conditions and found that although they could upregulate TBX21 and IFN-γ, this occurred without loss of IL-17 or RORC expression, and resulted in cells with a Th1/17 phenotype. Similarly, Th1 cells could upregulate IL-17 upon enforced expression of RORC2, but did not lose expression of IFN-γ or TBX21. Despite alterations in expression of these signature genes, epigenetic modifications were remarkably stable aside from the acquisition of active histone methylation marks at cytokine gene promoters. The limited capacity of human Th17 and Th1 cells to undergo complete lineage conversion suggests that the bipotent Th1/17 cells may arise from Th1 and/or Th17 cells. These data also question the broad applicability of the new model of Th cell lineage plasticity to in vivo-polarized human Th cell subsets.
- Published
- 2011
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