6533b82efe1ef96bd1293e32
RESEARCH PRODUCT
The designer cytokine hyper-interleukin-6 is a potent activator of STAT3-dependent gene transcription in vivo and in vitro.
Martina FischerT RakemannChristian TrautweinMonika NiehofMichael P. MannsStefan KubickaStefan Rose Johnsubject
Therapeutic gene modulationSTAT3 Transcription FactorTranscriptional ActivationTranscription GeneticRecombinant Fusion ProteinsResponse elementE-boxBiologyTransfectionBiochemistryCell LineMiceSp3 transcription factorAntigens CDCytokine Receptor gp130E2F1AnimalsHumansRNA MessengerPhosphorylationMolecular BiologyCell NucleusATF3Sp1 transcription factorMice Inbred C3HMembrane GlycoproteinsHaptoglobinsInterleukin-6Liver receptor homolog-1Biological TransportCell BiologyDNAReceptors InterleukinMolecular biologyReceptors Interleukin-6DNA-Binding ProteinsGene Expression RegulationTrans-ActivatorsTyrosinedescription
Interleukin-6 (IL-6) triggers pivotal pathways in vivo. The designer protein hyper-IL-6 (H-IL-6) fuses the soluble IL-6 receptor (sIL-6R) through an intermediate linker with IL-6. The intracellular pathways that are triggered by H-IL-6 are not defined yet. Therefore, we studied the molecular mechanisms leading to H-IL-6-dependent gene activation. H-IL-6 stimulates haptoglobin mRNA expression in HepG2 cells, which is transcriptionally mediated as assessed by run-off experiments. The increase in haptoglobin gene transcription correlates with higher nuclear translocation of tyrosine-phosphorylated STAT3 and its DNA binding. As H-IL-6 stimulates STAT3-dependent gene transcription, we compared the molecular mechanism between IL-6 and H-IL-6. Transfection experiments were performed with a STAT3-dependent luciferase construct. The same amount of H-IL-6 stimulated luciferase activity faster, stronger, and for a longer period of time. Dose response experiments showed that a 10-fold lower dose of H-IL-6 stimulated STAT3-dependent gene transcription comparable with the higher amount of IL-6. Cotransfection with the gp80 and/or gp130 receptor revealed that the effect of H-IL-6 on STAT3-dependent gene transcription is restricted to the gp80/gp130 receptor ratio. High amounts of gp130 increased and high amounts of gp80 decreased the effect on H-IL-6-dependent gene transcription. To investigate the in vivo effect of H-IL-6 on gene transcription in the liver, H-IL-6 and IL-6 were injected into C3H mice. H-IL-6 was at least 10-fold more effective in stimulating the DNA binding and nuclear translocation of STAT3, which enhances haptoglobin mRNA and protein expression. Thus H-IL-6 stimulates STAT3-dependent gene transcription in liver cells in vitro and in vivo at least 10-fold more effectively than IL-6. Our results provide evidence that H-IL-6 is a promising designer protein for therapeutic intervention during different pathophysiological conditions also in humans.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1999-01-09 | The Journal of biological chemistry |