Abstract
Transcription factors regulate T cell fates at every stage of development and differentiation. Members of the Foxp family of forkhead transcription factors are essential for normal T lineage development; Foxp3 is required for T regulatory cell generation and function, and Foxp1 is necessary for generation and maintenance of naïve T cells. Foxp4, an additional member of the Foxp family, is highly homologous to Foxp1 and has been shown to dimerize with other Foxp proteins. We report the initial characterization of Foxp4 in T lymphocytes. Foxp4 is expressed in both thymocytes and peripheral CD4+ and CD8+ T cells. We used a CD4Cre mediated approach to evaluate the cell autonomous role for Foxp4 in murine T lymphocytes. T cell development, peripheral cellularity and cell surface phenotype are normal in the absence of Foxp4. Furthermore, Foxp3+ T regulatory cells develop normally in Foxp4 deficient animals and naïve Foxp4 deficient CD4 T cells can differentiate to inducible T regulatory cells in vitro. In wild-type T cells, expression of Foxp4 increases following activation, but deletion of Foxp4 does not affect T cell proliferative responses or in vitro effector T cell differentiation. In vivo, despite effective control of Toxoplasma gondii and acute lymphocytic choriomeningitis virus infections, effector cytokine production during antigen specific recall responses are reduced in the absence of Foxp4. We conclude that Foxp4 is dispensable for T cell development, but necessary for normal T cell cytokine recall responses to antigen following pathogenic infection.
Highlights
The Foxp family of forkhead transcription factors regulates diverse cell fate decisions [1,2,3]
Foxp4 is expressed in T lymphocytes We first asked whether Foxp4 is expressed in lymphoid tissues
Because Foxp family members form homo- and heterodimers with other family members, we examined whether Foxp4 deficient mice develop Foxp3+ regulatory T cells (Treg)
Summary
The Foxp family of forkhead transcription factors regulates diverse cell fate decisions [1,2,3]. Members of the Foxp family regulate gene programs important for normal development and function. Several groups have demonstrated the importance of Foxp for the development and function of CD4+ T regulatory cells [5,6,7]. Foxp has essential roles in both B and T lymphocyte development and acts as a transcriptional repressor of the il7r gene, which encodes the alpha chain of the interleukin-7 receptor [8,9]. Related Foxp member, Foxp, regulates developmental programs in heart and lung tissues, its deletion resulting in early embryonic lethality [10]. The function and role of Foxp in T cells has not been described
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