T-cell development in the thymus undergoes the process of differentiation, selective proliferation, and survival from CD4CD8 double negative (DN) stage to CD4CD8 double positive (DP) stage prior to the formation of CD4 helper and CD8 cytolytic T cells ready for circulation. Each developmental stage is tightly regulated by sequentially operating molecular networks, of which only limited numbers of transcription regulators have been deciphered. Here, we identified Zfp335 transcription factor as a new player in the regulatory network controlling thymocyte development in mice. We demonstrate that intrinsically controls DN to DP transition, as T-cell-specific deficiency in leads to a substantial accumulation of DN3 along with reduction of DP, CD4, and CD8 thymocytes. This developmental blockade at DN stage results from the impaired intracellular TCRβ (iTCRβ) expression as well as increased susceptibility to apoptosis in thymocytes. Transcriptomic and ChIP-seq analyses revealed a direct regulation of transcription factors and by Zfp335. Importantly, enhanced expression of TCRβ and restores the developmental defect during DN3 to DN4 transition and improves thymocytes survival, respectively. These findings identify a critical role of in controlling T-cell development by maintaining iTCRβ expression-mediated β-selection and independently activating cell survival signaling.
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| http://dx.doi.org/10.7554/eLife.75508 | DOI Listing |
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