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Institute
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Tumor-associated macrophages (TAM) are a major supportive component within neoplasms and by their plasticity promote all phases of tumor development. Mechanisms of macrophage (M Phi) attraction and differentiation to a tumor-promoting phenotype, defined among others by distinct cytokine patterns such as pronounced immunosuppressive interleukin 10 (IL-10) production, are largely unknown. However, a high apoptosis index within tumors and strong M Phi infiltration correlate with poor prognosis. Thus, I aimed at identifying signaling pathways contributing to generation of TAM-like M Phi by using supernatant of apoptotic cancer cells (ACM) as stimulus.
To distinguish novel factors involved in generating TAM-like M Phi, I used an adenoviral RNAi-based approach. The primary read-out was production of IL-10. However, mediators modulating IL-10 were re-validated for their impact on regulation of the cytokines IL-6, IL-8 and IL-12. Following assay development, optimization and down-scaling to a 384-well format, primary human M Phi were transduced with 8495 constructs of the adenoviral shRNA SilenceSelect® library of Galapagos BV, followed by activation to a TAM-like phenotype using ACM. I identified 96 genes involved in IL-10 production in response to ACM and observed a pronounced cluster of 22 targets regulating IL-10 and IL-6. Principal validation of five targets of the IL-10/IL-6 cluster was performed using siRNA or pharmacological inhibitors. Among those, IL-4 receptor-alpha and cannabinoid receptor 2 were confirmed as regulators of IL-10 and IL-6 secretion.
One protein identified in the screen, the nerve growth factor (NGF) receptor TRKA was chosen for in-depth validation, based on its involvement in IL-10, IL-6 and IL-12 secretion from ACM-stimulated human M Phi. TRKA possesses a cardinal role in neuronal development, but compelling evidence emerges suggesting participation of TRKA in cancer development. First experiments using pharmacological inhibitors principally confirmed the involvement of TRKA in IL-10 secretion by ACM-stimulated M Phi and revealed PI3K/AKT and to a lesser extend MAPK p38 as important signaling molecules downstream of TRKA activation. Signaling through TRKA required the presence of its ligand NGF, as indicated by NGF neutralization experiments. NGF was not induced by or present in ACM, but was constitutively secreted by M Phi. Interestingly, M Phi responded to authentic NGF with neither AKT and p38 phosphorylation nor IL-10 production. TRKA is well known to be transactivated by other receptors and in neurons its cellular localization is decisive for its function. Inhibitors of common transactivation partners did not influence IL-10 production by human M Phi. Rather, ACM-treatment provoked pronounced translocation of TRKA to the plasma membrane within 10 minutes as observed by immunofluorescence staining. Consequently, I was intrigued to clarify mechanisms of TRKA trafficking in response to ACM.
The bioactive lipid sphingosine-1-phosphate (S1P) has been previously identified as important apoptotic cell-derived mediator involved in TAM-like M Phi polarization. Indeed, I observed S1P and src kinase involvement in ACM-mediated IL-10 induction. Furthermore, inhibition of S1P receptor (S1PR) signaling or src kinase activity prevented TRKA translocation, whereas a TRKA inhibitor or anti-NGF did not block TRKA trafficking to the plasma membrane in response to ACM. Thus, autocrine secreted NGF activated TRKA to promote IL-10 secretion, which required previous S1PR/src-dependent translocation of TRKA to the plasma membrane. Following the detailed analysis of IL-10 regulation, I was interested whether other TAM phenotype markers were influenced by ACM and whether their expression was regulated through TRKA-dependent signaling. Five of six markers were up-regulated on mRNA level by ACM, and secretion of IL-6, IL-8 and TNF-alpha was triggered. S1PR-signaling was essential for induction of all but one marker, whereas TRKA signaling was only required for cytokine secretion. Interestingly, none of the investigated TAM markers was regulated identically to IL-10, emphasizing a tight and exclusive regulation machinery of this potent immunosuppressive cytokine.
Finally, I aimed to validate the in vitro findings in human ACM-stimulated M Phi. Therefore, I isolated murine TAM as well as other major mononuclear phagocyte populations from primary oncogene-induced breast cancer tissue. Indeed, TRKA-dependent signaling was required for spontaneous cytokine production selectively by primary murine TAM. Besides IL-10, the TRKA pathway was decisive for secretion of IL-6, TNF-alpha and monocyte chemotactic protein-1, indicating its relevance in cancer-associated inflammation.
In summary, my findings highlight a fine-tuned regulatory system of S1P-dependent TRKA trafficking and autocrine NGF signaling in TAM biology. Both factors, S1P as well as NGF, might be interesting targets for future cancer therapy.
The role of peroxisome proliferator-activated receptor gamma during sepsis-induced lymphopenia
(2011)
Sepsis is one of the most common diseases on intensive care units all over the world and accounts there for the highest mortality rate. One of the hallmarks of sepsis is an accelerated T-cell apoptosis, resulting in a compromised immune state with the inability to eradicate pathogens. This promotes organ damage or even organ failure. A multiple organ dysfunction evolves, which often ends up in septic shock and death. Recently, it was shown that severe T-cell depletion correlates with sepsis mortality. When inhibiting T-cell apoptosis, an increased mouse survival was observed in experimental sepsis. ...