Project description:Basal-like breast cancer (BBC) is a poor prognosis cancer that lacks effective targeted therapy. Recently our group and others found that forkhead box transcription factor FOXO1 promotes stem gene expression in BBC and GBM cell lines. Given the critical role of cancer stem cells in promoting cancer progression, we examined the impact of FOXO1 inhibition with AS1842856 on BBC cells. We treated BT549 cells with 200nM AS1842856 for 48 hours and found that FOXO1 inhibition induced a set of WNT Pathway genes.

Project description:We have observed that the FOXO1 inhibitor AS1842856 induces a significant increase of both the bioenergetics and transcriptional activity of human T cells, together with a significant increase in their size, without any cell division. These modifications are accompanied by a decrease of p27 expression, contrasting with an increase of CDK2 cellular levels and by the phosphorylation of Rb and SAMHD1 proteins. As these changes are known to be characteristic of cells undergoing a G0 to G1 progression. To get an overall view of these changes in T-cell metabolism, we performed gene expression microarray analysis of PBT cultured during 7 days in the presence or not of AS1842856. We conclude that inhibition of FOXO1 by AS1842856 is sufficient to induce a profound reprogramming of human T lymphocytes, regulating their exit from quiescence.

Project description:AS1842856 treatment in BT549 cells

Project description:Quiescence is a hallmark of CD4+ T cells latently infected with HIV-1. While reversing this quiescence is an effective approach to reactivate latent HIV from T cells in culture, it can cause deleterious cytokine dysregulation in patients. Here we report that FOXO1, a key regulator of T-cell quiescence, promotes latency and suppresses productive HIV infection. In resting T cells, FOXO1 inhibition induces ER stress and activates two associated transcription factors: activating transcription factor 4 (ATF4) and nuclear factor of activated T cells (NFAT). Thus, our studies uncover a novel link between FOXO1, ER stress, and HIV infection that could be therapeutically exploited to selectively reverse T-cell quiescence and reduce the size of the latent viral reservoir.

Project description:Transcriptomics modification consecutive to AS1842856 treatment in primary T lymphocytes

Project description:Transcription factors ERG and AR (prostate cancer), ER (breast cancer), CTNNB1 (colorectal cancer), GLI1 and PAX3-FOXO1 fusion (Rhabodomyosarcoma) have been shown to be critical for the formation of tumors. The purpose of this study was to identify common targets of these transcription factors. We used microarrays to study gene expression in response to modulating these transcription factors by RNAi (ERG, CTNNB1, GLI1, PAX3-FOXO1) or their ligands (AR and ER).

Project description:Identification of beta-catenin interacting proteins via affinity purification with anti-beta-catenin antibody or IgG control in WT (NTC control) or Ikzf1/Ikzf3-KO (dual CRISPR KO) BCR-ABL1 transformed murine pre-B cells with CTNNB1 activation via a Ctnnb1 Ex3 fl/fl + Ert2Cre model.

Project description:RNA-Seq of CD4+ T cells treated with AS1842856 or DMSO

Project description:We found that small moleculal weight FOXO1 inhibitor has antitumor affect against BCP-ALL cell lines RS4;11 and UoCB6

Project description:Regulatory T (Treg) cells characterized by expression of the transcription factor forkhead box P3 (Foxp3) maintain immune homeostasis by suppressing self-destructive immune responses1-4. Foxp3 operates as a late acting differentiation factor controlling Treg cell homeostasis and function5, whereas the early Treg cell lineage commitment is regulated by the Akt kinase and the forkhead box O (Foxo) family of transcription factors6-10. However, whether Foxo proteins act beyond the Treg cell commitment stage to control Treg cell homeostasis and function remains largely unexplored. Here we show that Foxo1 is a pivotal regulator of Treg cell function. Treg cells express high amounts of Foxo1, and display reduced T-cell receptor-induced Akt activation, Foxo1 phosphorylation, and Foxo1 nuclear exclusion. Mice with Treg cell-specific deletion of Foxo1 develop a fatal inflammatory disorder similar in severity to Foxp3-deficient mice, but without the loss of Treg cells. Genome-wide analysis of Foxo1 binding sites reveals ~300 Foxo1-bound target genes, including the proinflammatory cytokine Ifng, that do not appear to be directly regulated by Foxp3. These findings demonstrate that the evolutionarily ancient Akt-Foxo1 signaling module controls a novel genetic program indispensable for Treg cell function. Regulatory T cells were FACS sorted in WT mice (2 reps), Foxo1 KO mice (2 reps), mice expressing a constitutively active form of Foxo1 (1 rep), and Foxo1 KO mice expressing constitutively active Foxo1. We identified genes differentially expressed in WT vs. KO mice and assessed whether expression was recovered in the KO in presence of constitutively active Foxo1