Resveratrol post-transcriptionally regulates pro-inflammatory gene expression via regulation of KSRP RNA binding activity.

Resveratrol shows beneficial effects in inflammation-based diseases like cancer, cardiovascular and chronic inflammatory diseases. Therefore, the molecular mechanisms of the anti-inflammatory resveratrol effects deserve more attention. In human epithelial DLD-1 and monocytic Mono Mac 6 cells resveratrol decreased the expression of iNOS, IL-8 and TNF-α by reducing mRNA stability without inhibition of the promoter activity. Shown by pharmacological and siRNA-mediated inhibition, the observed effects are SIRT1-independent. Target-fishing and drug responsive target stability experiments showed selective binding of resveratrol to the RNA-binding protein KSRP, a central post-transcriptional regulator of pro-inflammatory gene expression. Knockdown of KSRP expression prevented resveratrol-induced mRNA destabilization in human and murine cells. Resveratrol did not change KSRP expression, but immunoprecipitation experiments indicated that resveratrol reduces the p38 MAPK-related inhibitory KSRP threonine phosphorylation, without blocking p38 MAPK activation or activity. Mutation of the p38 MAPK target site in KSRP blocked the resveratrol effect on pro-inflammatory gene expression. In addition, resveratrol incubation enhanced KSRP-exosome interaction, which is important for mRNA degradation. Finally, resveratrol incubation enhanced its intra-cellular binding to the IL-8, iNOS and TNF-α mRNA. Therefore, modulation of KSRP mRNA binding activity and, thereby, enhancement of mRNA degradation seems to be the common denominator of many anti-inflammatory effects of resveratrol.

Mutated cylindromatosis gene affects the functional state of dendritic cells.

Cylindromatosis gene (CYLD) is a ubiquitously expressed deubiquitinating enzyme, which interacts with members of the NF-κB signaling pathway and attenuates NF-κB and JNK signaling. Here, we report that DC derived from transgenic mice, which solely express a naturally occurring CYLD isoform (CYLD(ex7/8)), display a higher content of nuclear RelB and express elevated levels of NF-κB family members as well as of known NF-κB-target genes comprising costimulatory molecules and pro-inflammatory cytokines, as compared with WT DC. Accordingly, unstimulated CYLD(ex7/8) DC exhibited a significantly higher primary allogenic T-cell stimulatory capacity than WT DC and exerted no tolerogenic activity. Transduction of unstimulated CYLD(ex7/8) DC with relB-specific shRNA reduced their T-cell stimulatory capacity. Treatment with the synthetic glucocorticoid dexamethasone known to inhibit NF-κB and AP-1 activity reverted the pro-immunogenic phenotype and function of CYLD(ex7/8) DC and re-established their tolerogenic function. DC derived from CYLD knockout mice showed no functional alterations compared with WT DC. Therefore, although complete loss of CYLD may be compensated for by other endogenous NF-κB inhibitors, CYLD(ex7/8) acts in a dominant negative manner. Our findings raise the question of whether genetic defects associated with increased NF-κB activity may result in disturbed maintenance of peripheral tolerance.

Dendritic cells lentivirally engineered to overexpress interleukin-10 inhibit contact hypersensitivity responses, despite their partial activation induced by transduction-associated physical stress.

BACKGROUND: Dendritic cells (DCs) constitute an attractive target for immunotherapeutic approaches. Because DCs are largely refractory to transfection with plasmid DNA, several viral transduction protocols were established. The potential side-effects of lentiviral transduction on the phenotype and activation state of DCs left unstimulated after transduction have not been assessed. There is a need to analyse these parameters as a result of the requirement of using DCs with a low activation state for therapeutic strategies intended to induce tolerance. METHODS: Lentivirally-transduced bone marrow (BM)-derived DCs (LV-DCs) in comparison with mock-transduced (Mock-DCs) and untreated DCs were analysed with regard to the induction of maturation processes on the RNA, protein and functional level. BM-DCs engineered to overexpress interleukin (IL)-10 were analysed for therapeutic potential in a mouse model of allergic contact dermatitis. RESULTS: Compared with untreated DCs, Mock-DCs and LV-DCs displayed an altered gene expression signature. Mock-DCs induced a stronger T cell proliferative response than untreated DCs. LV-DCs did not further augment the T cell proliferative response, but induced a slightly different T cell cytokine pattern compared to Mock-DCs. Accordingly, the gene promoter of the DC maturation marker fascin mediated efficient expression of the model transgene IL-10 in unstimulated-transduced BM-DCs. Nevertheless, IL-10 overexpressing BM-DCs exerted tolerogenic activity and efficiently inhibited the contact hypersensitivity response in previously hapten-sensitized mice. CONCLUSIONS: Lentiviral transduction of BM-DCs results in their partial activation. Nevertheless, the transduction of these DCs with a vector encoding the immunomodulatory cytokine IL-10 rendered them tolerogenic. Thus, lentivirally-transduced DCs expressing immunomodulatory molecules represent a promising tool for induction of tolerance.

Overlapping activator sequences determined for two oppositely oriented promoters in halophilic Archaea.

Transcription of the genomic region involved in gas vesicle formation in Halobacterium salinarum (p-vac) and Haloferax mediterranei (mc-vac) is driven by two divergent promoters, P(A) and P(D), separated by only 35 nt. Both promoters are activated by the transcription activator GvpE which in the case of P(mcA) requires a 20-nt sequence (UAS) consisting of two conserved 8-nt sequence portions located upstream of BRE. Here, we determined the two UAS elements in the promoter region of p-vac by scanning mutageneses using constructs containing P(pD) (without P(pA)) fused to the bgaH reporter gene encoding an enzyme with beta-galactosidase activity, or the dual reporter construct pApD with P(pD) fused to bgaH and P(pA) to an altered version of gvpA. The two UAS elements found exhibited a similar extension and distance to BRE as previously determined for the UAS in P(mcA). Their distal 8-nt portions almost completely overlapped in the centre of P(pD)-P(pA), and mutations in this region negatively affected the GvpE-mediated activation of both promoters. Any alteration of the distance between BRE and UAS resulted in the loss of the GvpE activation, as did a complete substitution of the proximal 8-nt portion, underlining that a close location of UAS and BRE was very important.

The RNA binding protein tristetraprolin influences the activation state of murine dendritic cells.

Dendritic cells (DCs) serve to maintain peripheral tolerance under steady state conditions. Upon triggering by activation signals they initiate strong immune responses. The activation of DCs is accompanied by a rapid upregulation of proinflammatory cytokines, which were shown in other cell types to be regulated by mechanisms at the transcriptional and posttranscriptional level. Tristetraprolin (TTP), an important RNA binding protein, is involved in the regulation of mRNA stability of such cytokines. In this study we analyzed the significance of TTP for mouse DCs, which were derived from TTP(-/-) and WT bone marrow progenitor cells (BM-DCs). Unstimulated BM-DCs of TTP(-/-) mice expressed lower levels of mRNAs encoding the costimulatory molecules CD40 and CD86 and surprisingly also the canonical TTP targets TNF-alpha and IL-10 as compared with WT DCs. On the protein level, both DC populations expressed comparable amounts of CD80 and CD86 and of either cytokine, but TTP(-/-) DCs expressed less MHCII than WT DCs. On the other hand, TTP(-/-) DCs displayed elevated expression of other TTP target mRNAs like IL-1beta, c-fos and Mkp-1. Stimulation of BM-DCs of either genotype with lipopolysaccharide resulted in a rapid upregulation to a comparable extent of all molecules monitored so far, except for c-fos mRNA. Subsequent mRNA decay analysis revealed gene-specific differences in mRNA stability, which was influenced by the presence of TTP and the activation state of the DCs. Unstimulated TTP(-/-) DCs exerted a markedly lower allogeneic T cell stimulatory potential than WT DCs. Moreover, TTP(-/-) DCs induced an altered cytokine pattern in cocultures of DCs and T cells. However, allogeneic T cells primed by unstimulated DCs of either genotype were equally refractory to restimulation and suppressed the proliferation of naive T cells to the same extent. Thus, the findings of this study lend support to the interpretation that without external stimulation antigen presenting activity in DCs in the presence of TTP is more pronounced than in its absence and that posttranscriptional regulation contributes to the control of gene expression in DCs.

A novel plasmid DNA electroporation method allows transfection of murine DC.

Under steady state conditions dendritic cells (DC) exert tolerogenic function, but acquire potent immunogenic function due to strong upregulation of costimulatory molecules and proinflammatory cytokines. In numerous studies the potential of modified DC to induce tolerance or immune reactions towards a distinct antigen has been demonstrated. However, DC are refractory to transfection with plasmid DNA by non-viral methods. In this study we have tested the suitability of a newly developed electroporation device to transfect immature murine bone-marrow derived DC (BM-DC). Transfected BM-DC expressed reporter molecules at considerable extent which renders this method suitable to perform all kinds of promoter studies. While electroporation did not alter the low allostimulatory capacity of immature BM-DC, it impaired the stimulation-associated increase in allostimulatory potency of transfectants. However, stimulated transfected BM-DC pulsed with myelin oligodendrocyte protein (MOG)-derived peptide induced proliferation of MOG-reactive CD4(+) T cells as potently as did non-transfected MOG peptide-pulsed BM-DC. BM-DC transfected with an expression construct encoding MOG efficiently stimulated MOG peptide-specific T cell proliferation. Transfection of BM-DC with an IL-10 encoding expression construct resulted in high IL-10 expression and strongly diminished allogeneic T cell proliferation. Therefore, this method also allows to study functional properties of genetically altered DC.