GILZ (glucocorticoid-induced leucine zipper) is an ubiquitous protein whose expression is induced by glucocorticoids in lymphoid cells. We previously showed that GILZ expression is rapidly induced upon interleukin 2 deprivation in T-cells, protecting cells from apoptosis induced by forkhead box subgroup O3 (FOXO3). The aim of this work is to elucidate the molecular mechanism of FOXO factor inhibition by GILZ. We show in the myeloid cell line HL-60 and the lymphoid CTLL-2 T-cell line that GILZ down-regulates the expression of p27 KIP1 and Bim, two FOXO targets involved in cell cycle regulation and apoptosis, respectively. GILZ inhibits FOXO1, FOXO3, and FOXO4 transcriptional activities measured with natural or synthetic FOXO-responsive promoters in HL-60 cells. This inhibitory effect is independent of protein kinase B and IB kinase phosphorylation sites. GILZ does not hinder FOXO3 DNA-binding activity and does not physically interact with FOXO3. However, using fluorescence microscopy, we observe that GILZ expression provokes a Crm-1-dependent nuclear exclusion of FOXO3 leading to its relocalization to the cytoplasm. Moreover, GILZ exclusive cytoplasmic localization is a prerequisite for FOXO3 inhibition and relocalization. We propose that GILZ is a general inhibitor of FOXO factors acting through an original mechanism by preventing them from reaching target genes within the nucleus.Forkhead box subgroup O1 (FOXO1 or FKHR), FOXO3a (FKHRL1), FOXO4 (AFX), and FOXO6 constitute the mammalian FOXO family of transcription factors and achieve important functions in the regulation of genes involved in cell cycle regulation, apoptosis, DNA repair, stress response, energy metabolism, and control of lifespan (for review, see Ref. 1). These highly related members are ubiquitously expressed in all mammalian tissues, interact with the same core consensus DNA sequence, and display overlapping patterns of transcriptional activities (2). Interest about FOXO factors in the hematopoietic system is increasing due to their role in regulation of immune responses. In vitro, FOXO3 has been shown to participate in cytokine withdrawal-induced apoptosis of lymphocytes through up-regulation of Bim (3) or Puma (4). Moreover, the Fas Ligand gene has been described as a downstream target of FOXO3 in Jurkat T-lymphocytes (5). Pink1 was recently described as an anti-apoptotic FOXO3 target gene whose induction upon growth factor deprivation paradoxically prolongs lymphocyte survival (6). In vivo, FOXO3 appears to be predominant in peripheral lymphoid organs and to regulate lymphoid and myeloid homeostasis. Indeed, mice bearing a mutated FOXO3 allele presented spontaneous T-cell activation and a multisystemic inflammatory syndrome associated with lymphadenopathy (7). Moreover, adult mice with conditional deletion of FOXO1, FOXO3a, and FOXO4 showed hematopoietic stem cells with increased cell cycling and apoptosis and defective long term repopulating activity in the bone marrow (8). Somatic disruption of the three FOXO genes in mice resulted in thym...
