Although an eruption of information on the role of Toll-like receptor 4 (TLR4), the main receptor for bacterial lipopolysaccharide, in activating macrophages and dendritic cells has emerged, very little is known about the role of TLR4 present on epithelial cells from sterile environments like tumors. The main goal of this work was to investigate the consequences of TLR4 activation present on tumor cells in two different animal models of cancer: the Dunning rat prostate cancer and the B16 murine melanoma models. We show that (a) activating TLR4 signaling in two different tumor cell lines in vitro modifies the tumor outgrowth in vivo; (b) this effect is not due to a direct consequence of TLR4 signaling on the proliferation/apoptosis balance of the tumor cells; (c) the T-cell compartment is somehow involved in the described phenomenon because the inhibitory effect observed is not seen in athymic nude mice; and (d) tumor-infiltrating lymphocytes purified from tumors induced by TLR4-activated cells show strong induction of IFN; transcript in detriment of interleukin-10 transcript, suggesting a change in their functionality. We hypothesize that TLR4 signaling in tumor cells in vitro induces the expression of proinflammatory mediators, which could dramatically alter the maturation state of dendritic cells present at the site of inoculation, switching the type of immune response elicited against the tumor. These results open up new avenues for understanding the role of TLR4 in tumor cells and for identifying potential new therapy strategies for cancer.
Despite the prevalence of prostate disease, little is known about the immunobiology of the prostate and its contribution to disease. The main goal of this work was to investigate how prostate epithelial cells deal with inflammatory stimuli. To this aim, we stimulated a rat prostate epithelial cell line [metastasis-lung (MAT-LU)] or rat primary epithelial cells with lipopolysaccharide (LPS). Prostate epithelial cells constitutively express significant levels of Toll-like receptor 4 (TLR4) and CD14 mRNA. TLR2 transcription could also be demonstrated, suggesting that these cells could recognize a broader spectrum of microbial molecular patterns. TLR4, TLR2, and CD14 proteins were also detected, although not at the cell surface but intracellularly. Prostate epithelial cells not only express these receptors, but they are also able to respond to LPS, and LPS-stimulated MAT-LU cells activate nuclear factor-kappaB transcription factor, induce the expression of inducible nitric oxide (NO) synthase, and secrete NO. Even more, numerous chemokine genes are up-regulated or induced in this response. Our results clearly demonstrate that prostate epithelial cells are fully competent to respond. The fact that they express TLR4 and TLR2 intracellularly suggests the presence of regulatory mechanisms, which once overcome, could turn these cells into active players of the innate immunity, capable of initiating an inflammatory response.
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