Project description:Cytokines are highly pleiotropic ligands that critically contribute to a balanced immune response. We have an incomplete understanding of how cytokines elicit their functional pleiotropy, which has limited their therapeutic efficacy. Here, using Interleukin-6 (IL-6) as a model system, we have performed detailed phosphoproteomic and transcriptomic studies in human CD4 + T helper (Th)-1 cells to address the molecular bases defining cytokine functional pleiotropy. We have identified cyclin dependent kinase (CDK)8 as a new negative regulator of transcriptional activities of signal transducer and activator of transcription (STAT)3. We found that CDK8 is a major regulator of the IL-6 phosphoproteome and interacts with STAT3 in the nucleus upon IL-6 stimulation. Inhibition of CDK8 activity, using specific small molecules inhibitors, reduced the IL-6-induced phosphoproteome by 23% in Th-1 cells, including STAT3 S727 phosphorylation. STAT3 binding to target DNA sites in the genome was increased upon CDK8 inhibition, which resulted in a concomitant increase in STAT3 mediated transcriptional activity. Importantly, inhibition of CDK8 activity under Th-17 polarizing conditions resulted in an enhancement of Th-17 differentiation. Our results support a model where CDK8 regulates STAT3 transcriptional processivity via modulation of its gene loci resident time, critically contributing to diversification of IL-6 responses.

Project description:CDK8 (cyclin-dependent kinase 8) is a kinase component of a multi - protein Mediator complex, involved in transcription control. Several studies indicated that high overexpression and activity of CDK8 could be a driver of malignant progression in colorectal cancer (CRC). Herewith we present molecular insights into mechanism of action of SEL120-34A - a selective small molecule inhibitor of CDK8 kinase. Biochemical and binding studies indicated that SEL120-34A selectively binds and inhibits enzymatic activity of CDK8 in the low nM range. Recently CDK8 has been described as a regulator of STAT1 activity in NK cells where by phosphorylating STAT1 serine 727 (Ser727) influences a possible immunoescape mechanism in various cancers. Consistently, SEL120-34A and other recently reported selective CDK8 inhibitors could repress phosphorylation of STAT1 at a Ser727 at low nM concentrations in cancer cells without any significant changes on tyrosine sites directly regulated by JAK kinases. SEL120-34A inhibited expression of several STAT1 dependent genes in CRC cell lines, stimulated by various cytokines and growth factors. These results were further corroborated with specific CDK8 siRNA knockdown experiments and chromatin immunoprecipitation studies showing CDK8 occupancy on promoters of SEL120-34A regulated genes. In order to better characterize in vivo mechanism of action, mice bearing HCT116 and Colo205 xenograft tumors were treated with SEL120-34A and gene expression changes were measured with microarrays in excised tumors. In animals treated with the CDK8 inhibitor a dose dependent repression of STAT1 Ser727 was observed. The functional analyses of significantly (adj. p. value < 0.05) altered genes with Gene Ontology revealed that those with reduced expression belong to interferon I pathway and type I interferon-mediated signaling pathway terms. This subset of STAT regulated genes was further characterized as an interferon-related DNA damage resistance signature (IRDS) - a prosurvival pathway which correlated strongly with resistance to radiation and chemotherapy in various tumors. Consistently, SEL120-34A has shown very potent cytotoxic synergy with standard of care drugs in CRC, particularly in cells stimulated with interferons. Taken together, for the first time we have shown that selective CDK8 inhibitors are potent regulators of STAT related - IRDS signaling pathway in vitro and in vivo. In addition to previously reported stand-alone efficacy of CDK8 inhibitors in vivo, we provide also a combination treatment rationale for CRC. Female mice, SCID beige , 7-8 weeks old, were maintained according to the standards of the specific pathogen free conditions. Colo205 or HCT116 cells were centrifuged at 1000 rpm for 5 min and counted using Trypan blue method. A 5M cells were suspended in PBS and Matrigel® (BD Biosciences) (3:1, v:v) and were injected subcutaneously (SC), on the right hind limb. As the tumor was maintained until it reached ~100-150 mm3. Mice were randomized into uniform groups and subjected to the compound administrations. Prior to use, compound was dissolved freshly in water and administered 30mg/kg BIDx3 per os using cannula in a volume of 10 ul per 1 g of body weight. Tumor samples were collected 4 and 16 hours after last compound dose and preserved in RNAlater.

Project description:CDK8 (cyclin-dependent kinase 8) is a kinase component of a multi - protein Mediator complex, involved in transcription control. Several studies indicated that high overexpression and activity of CDK8 could be a driver of malignant progression in colorectal cancer (CRC). Herewith we present molecular insights into mechanism of action of SEL120-34A - a selective small molecule inhibitor of CDK8 kinase. Biochemical and binding studies indicated that SEL120-34A selectively binds and inhibits enzymatic activity of CDK8 in the low nM range. Recently CDK8 has been described as a regulator of STAT1 activity in NK cells where by phosphorylating STAT1 serine 727 (Ser727) influences a possible immunoescape mechanism in various cancers. Consistently, SEL120-34A and other recently reported selective CDK8 inhibitors could repress phosphorylation of STAT1 at a Ser727 at low nM concentrations in cancer cells without any significant changes on tyrosine sites directly regulated by JAK kinases. SEL120-34A inhibited expression of several STAT1 dependent genes in CRC cell lines, stimulated by various cytokines and growth factors. These results were further corroborated with specific CDK8 siRNA knockdown experiments and chromatin immunoprecipitation studies showing CDK8 occupancy on promoters of SEL120-34A regulated genes. In order to better characterize in vivo mechanism of action, mice bearing HCT116 and Colo205 xenograft tumors were treated with SEL120-34A and gene expression changes were measured with microarrays in excised tumors. In animals treated with the CDK8 inhibitor a dose dependent repression of STAT1 Ser727 was observed. The functional analyses of significantly (adj. p. value < 0.05) altered genes with Gene Ontology revealed that those with reduced expression belong to interferon I pathway and type I interferon-mediated signaling pathway terms. This subset of STAT regulated genes was further characterized as an interferon-related DNA damage resistance signature (IRDS) - a prosurvival pathway which correlated strongly with resistance to radiation and chemotherapy in various tumors. Consistently, SEL120-34A has shown very potent cytotoxic synergy with standard of care drugs in CRC, particularly in cells stimulated with interferons. Taken together, for the first time we have shown that selective CDK8 inhibitors are potent regulators of STAT related - IRDS signaling pathway in vitro and in vivo. In addition to previously reported stand-alone efficacy of CDK8 inhibitors in vivo, we provide also a combination treatment rationale for CRC.

Project description:Interleukin 17 (IL-17) producing T helper 17 (Th17) cells are critical drivers of pathogenesis in a variety of autoimmune and inflammatory diseases. Strategies to mitigate excessive Th17 response thus remain an attractive target for immunotherapies. Here we report that Cancerous Inhibitor of Protein Phosphatase 2A (CIP2A) regulates IL-17 production by Th17 cells in human and mouse. Using CIP2A knock-out (KO) mice and siRNA-mediated CIP2A silencing in human primary CD4+ T cells, we demonstrated that CIP2A silencing results in a significant increase in IL-17 production. Interestingly, CIP2A deficient Th17 cells were characterized by increased strength and duration of STAT3 (Y705) phosphorylation. Genome-wide gene expression profile as well as the p-STAT3 (Y705) interactome of CIP2A deficient Th17 cells identified that CIP2A regulates the strength of the interaction between Acylglycerol kinase (AGK) and STAT3, and thereby, modulates STAT3 phosphorylation as well as expression of IL-17 in Th17 cells. Our results uncover the physiological function of CIP2A in Th17 cells and provides new opportunities for therapeutic intervention in Th17 cell mediated diseases.

Project description:Interleukin 2 (IL-2), a cytokine linked to human autoimmune diseases, limits IL-17 production. We show that deletion of Stat3 in T cells abrogates IL-17 production and attenuates autoimmunity associated with IL-2 deficiency. While STAT3 induces IL-17 and RORγt and inhibits Foxp3, IL-2 inhibited IL-17 independently of Foxp3 and RORγt. We found that STAT3 and STAT5 bound to multiple common sites across the Il17 genetic locus. The induction of STAT5 binding by IL-2 was associated with a reduction in STAT3 binding at these sites and the inhibition of associated active epigenetic marks. Titrating the relative activation of STAT3 and STAT5 modulated TH17 cell specification. Thus, the balance rather than the absolute magnitude of these signals determines the propensity of cells to make a key inflammatory cytokine. The genome-wide binding of STAT3 and STAT5 under Th17 conditions was investigated by CHIP-seq.

Project description:Interleukin 2 (IL-2), a cytokine linked to human autoimmune diseases, limits IL-17 production. We show that deletion of Stat3 in T cells abrogates IL-17 production and attenuates autoimmunity associated with IL-2 deficiency. While STAT3 induces IL-17 and ROR?t and inhibits Foxp3, IL-2 inhibited IL-17 independently of Foxp3 and ROR?t. We found that STAT3 and STAT5 bound to multiple common sites across the Il17 genetic locus. The induction of STAT5 binding by IL-2 was associated with a reduction in STAT3 binding at these sites and the inhibition of associated active epigenetic marks. Titrating the relative activation of STAT3 and STAT5 modulated TH17 cell specification. Thus, the balance rather than the absolute magnitude of these signals determines the propensity of cells to make a key inflammatory cytokine. The roles of STAT3 and STAT5 in regulation of gene expression under Th17 differentiation was investigated. Affymetrix Mouse Genome 430 2.0 Arrays were used to evaluate global gene expression.

Project description:Interleukin 2 (IL-2), a cytokine linked to human autoimmune diseases, limits IL-17 production. We show that deletion of Stat3 in T cells abrogates IL-17 production and attenuates autoimmunity associated with IL-2 deficiency. While STAT3 induces IL-17 and RORγt and inhibits Foxp3, IL-2 inhibited IL-17 independently of Foxp3 and RORγt. We found that STAT3 and STAT5 bound to multiple common sites across the Il17 genetic locus. The induction of STAT5 binding by IL-2 was associated with a reduction in STAT3 binding at these sites and the inhibition of associated active epigenetic marks. Titrating the relative activation of STAT3 and STAT5 modulated TH17 cell specification. Thus, the balance rather than the absolute magnitude of these signals determines the propensity of cells to make a key inflammatory cytokine.

Project description:Interleukin 2 (IL-2), a cytokine linked to human autoimmune diseases, limits IL-17 production. We show that deletion of Stat3 in T cells abrogates IL-17 production and attenuates autoimmunity associated with IL-2 deficiency. While STAT3 induces IL-17 and RORγt and inhibits Foxp3, IL-2 inhibited IL-17 independently of Foxp3 and RORγt. We found that STAT3 and STAT5 bound to multiple common sites across the Il17 genetic locus. The induction of STAT5 binding by IL-2 was associated with a reduction in STAT3 binding at these sites and the inhibition of associated active epigenetic marks. Titrating the relative activation of STAT3 and STAT5 modulated TH17 cell specification. Thus, the balance rather than the absolute magnitude of these signals determines the propensity of cells to make a key inflammatory cytokine.

Project description:CD4+ and CD8+ T cells can reciprocally differentiate into Th/Tc1, Th/Tc17 and Th/Tc22. Although alloreactive Th/Tc1 cells play a critical role in initiating pathogenesis of gut acute graft-versus-host disease (Gut-aGVHD), the pathogenic T cells in steroid-resistant Gut-aGVHD (SR-Gut-aGVHD) remains unclear. Here, we show that in murine models of SR-Gut-aGVHD, the pathogenesis is associated with reduction of IFN-g+ Th/Tc1 and IL-17A+IL-22- Th/Tc17 cells but expansion of IL-17-IL-22+ Th/Tc22, particularly Tc22 cells. The IL-22 from Th/Tc22 cells causes dysbiosis.

Project description:Mesenchymal stem cells (MSCs) exhibit immunosuppressive properties. However the homing mechanisms underlying MSC trafficking to target tissues remain elusive. Here we report that skin-derived MSCs (S-MSCs) secrete high levels of interleukin-6 (IL-6), inhibit T helper (Th)1- and Th17-cell differentiation, and possess IL-6-dependent immunomodulatory capacity in inflammatory microenvironment. Disruption of the il6 locus or its signaling transducer gp130 blocks voltage-operated calcium (Ca2+) channels (VOCC) critically required for cell contraction involved in the sequential adhesion and de-adhesion events during S-MSC migration. IL-6 directly regulates CaV2.3 encoded by cacna1e of R-type Ca2+ channels through the JAK3/STAT3 signaling pathway. Deletion of il6 or silencing CaV2.3 gene expression leads to a severe defect in S-MSC’s homing and immunosuppressive function in vivo. Thus, this unexpected requirement of autocrine IL-6 for activating CaV2.3 Ca2+ channels uncovers a previously unrecognized link between IL-6 signaling and the VOCC, and provides novel mechanistic insights for the immunomodulatory activities of S-MSCs. A two chip study using total RNA recovered from three mixed S-MSCs derived from WT mice and three mixed S-MSCs derived from IL6KO mice.