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Macrophages are important effector cells of the innate and adaptive immune response and exert a wide variety of immunological functions which necessitates a high level of plasticity on the chromatin level. In response to pathogen-associated molecular patterns (PAMPs) or inflammatory signals macrophages undergo a process of cellular activation which is associated with morphologic, functional and biochemical changes. Toll-like receptors (TLR) are able to sense many different PAMPs. TLR4 is an important sensor for lipopolysaccharide (LPS) which elicits a major portion of the host’s inflammatory response through the activation of many different signaling pathways such as the NF-κB and the MAPK protein kinase pathways RASRAF- MEK-ERK, p38 and JNK. Polycomb group (PcG) proteins are well known chromatin modifiers which function in large complexes and are required to maintain chromatin structure in a transcriptionally repressed state. It has previously been shown that the PcG protein Bmi1 is phosphorylated by 3pK, a downstream effector kinase of the MAPK protein kinase pathways RAS-RAF-MEK-ERK, p38 and JNK. In this work I analyzed the role of Bmi1 as a downstream effector of MAPK signaling during macrophage activation. Unexpectedly a rapid up-regulation on the Bmi1 protein level was observed in bone marrow derived macrophages (BMDMs) after LPS treatment. The Bmi1 induction was associated with transient protein phosphorylation that occured downstream of MAPK signaling. LPS treatment of BMDMs in the absence of Bmi1 resulted in a pronounced increase of IL-10 secretion. This secretion of the anti-inflammatory cytokine IL-10 was associated with increased IL-10 mRNA levels. Furthermore, siRNA mediated knock down of Bmi1 in J774A.1 macrophages also resulted in elevated IL-10 mRNA levels in response to LPS. ChIP analysis revealed that Bmi1 binds to throughout the il-10 locus. Alternative activation of wild type BMDMs via concomitant TLR4 and FcγR activation which triggers high IL-10 expression is paralleled by an attenuated Bmi1 protein expression. These results identify Bmi1 as a repressor of IL-10 expression during activation of macrophages.
In neoplastic diseases the tumor stroma and especially tumor-associated macrophages (TAMs) play an important role in tumor growth and progression. TAMs exhibit an intensive cross-talk with tumor cells resulting in the promotion of angiogenesis and the inhibition of local protective immune responses in certain tumor entities. Therefore, TAMs are a potential target for tumor therapy. Here it was shown that intravenously applied intracellular bacteria like Salmonella and Shigella primarily target TAMs. To exploit this feature a growth attenuated Shigella strain with the capacity to induce apoptosis in macrophages was designed. Shigella are invasive bacteria that penetrate the colonic tissue and initiate an acute inflammation. In macrophages, Shigella rapidly induces caspase-1 processing and apoptosis via the virulence factor IpaB. By genomic deletion of the aroA-locus a metabolically attenuated strain defective in intracellular growth but with retained capacity of infection, cell-to-cell spread, caspase-1 processing and apoptosis induction in macrophages was designed. It was shown that this strain primarily targets TAMs in 4T1 cell induced and transgenic MMTV-HER2/new breast cancer models. Shigella were almost exclusively found intracellularly, whereas growth attenuated Salmonella were also found extracellularly at late time points. The metabollically attenuated Shigella strain with retained virulence, but not avirulent Shigella strains, was able to activate caspase-1 and induce apoptosis in TAMs at all time points (4 h, 6 h and 7 d p.i.) in both breast cancer models. This unrestricted apoptosis induction translated into a substantial, long-lasting and highly significant reduction of TAMs number (up to 70 %) in both models. In contrast, Salmonella could only induce apoptosis in TAMs at early time points (6 h p.i.) and failed to reduce TAMs in both models. In the 4T1 model, the effect on tumor size was monitored and treatment of the mice with the attenuated Shigella strain resulted in a complete block of tumor growth. Finally, Shigella primarily infected the macrophage fraction, activated caspase-1 and induced apoptosis in cells derived from a human ovarian carcinoma ex vivo. Taken together, this data suggests that growth attenuated intracellular bacteria capable of inducing apoptosis in TAMs are a promising therapeutic option for certain cancer diseases where TAMs have a proven role for tumor growth or progression.