Thymocytes need to proliferate into a significant cell mass to allow a subsequent selection process during the double-positive (DP) stage. However, it is not clear at what stage this massive cell proliferation occurs. Immature CD8 single-positive (ISP) cells are a well-defined thymocyte subpopulation. However, the function of this cell subset has not yet been characterized. In this study, we analyzed the transcription pattern of mouse ISP cells and observed higher expression levels of cell cycling genes. We also found out that ISP cells exhibited the highest cell proliferative capacity among thymocytes in different developmental stages. Nuclear protein ataxia-telangiectasia (NPAT/p220) is one of the highly expressed cell cycling genes in ISP cells, which is known to play a critical role in coordinating histone gene expression necessary for rapid cell proliferation. Selective deletion of NPAT at the ISP stage led to reduced thymus size and significant loss of DP cells, secondary to reduced histone gene expression and impaired ISP cell proliferation capacity. A block of thymocyte development at the ISP stage was also observed, which was due to increased IL-7R expression. Continuous IL-7R signal served as a compensating mechanism for cell proliferation upon NPAT deletion, but in turn inhibited the expression of transcription factors TCF-1 and LEF-1, which is essential for the transition of ISP to DP cells. In summary, our study revealed the proliferation capacity of the ISP subpopulation during thymocyte differentiation as well as a vital role of NPAT in this developmental stage.
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