Indeed, the complexity of cell-to-cell interaction in the tumor microenvironment, in which beneficial effects of LXRα and/or LXRβ activation might parallel negative effects, and might be dependent on a particular tumor type, does not allow an unambiguous description of the effects of oxysterol signaling in vivo, thus deserving further investigations on appropriate tumor models. This is also in agreement with the emerging pleiotropic LXR-dependent and -independent effects of oxysterols. A further layer of complexity in order to get an integrated view of the direct and indirect effects
exerted by LXRs and oxysterols concerns their opposing protumor Small molecule library order and antitumor effects on immune cells and tumor cells, respectively. We have recently shown in transplantable mouse tumor models that the blockade of oxysterol production induces an antitumor response, which is fully dependent Sirolimus supplier on an intact immune system, as this effect is lost when tumor challenge
experiments are performed in immunodeficient mice [10]. These experiments seem to predict a more relevant effect of LXRs and oxysterols on immune cells rather than on tumor cells in the models investigated. This issue requires a careful investigation in spontaneous mouse tumor models as well as in human tumor samples analyzed ex vivo. The full characterization and identification of oxysterol effects within the tumor microenvironment could, in the near future, allow the manipulation of oxysterol PTK6 networks, and possibly setting new and more effective antitumor strategies.
Given the cell-, tissue- and context-dependent effects of oxysterols and their receptors, we could envisage the use of inhibitors of oxysterol production or the selective use of LXRα- or LXR-β-specific antagonists to restore antitumor immune responses and/or to inhibit tumor cell growth in cancer patients. This work was supported by the Association For International Cancer Research (AICR, UK), Italian Association for Cancer Research (AIRC), and the Italian Ministry of Health (Ricerca Finalizzata 2009). The authors declare no financial or commercial conflict of interest. C. Traversari is an employee of MolMed S.p.A. “
“Citation Wu C-H, Guo C-Y, Yang J-G, Tsai H-D, Chang Y-J, Tsai P-C, Hsu C-C, Kuo P-L. Polymorphisms of dioxin receptor complex components and detoxification-related genes jointly confer susceptibility to advanced-stage endometriosis in the Taiwanese Han population. Am J Reprod Immunol 2012; 67: 160–168 Problem To establish a multilocus model for studying the effect of dioxin receptor complex components and detoxification-related enzymes on advanced endometriosis. Method of study Six single-nucleotide polymorphisms (SNPs) and two deletion polymorphisms from eight genes (CYP1A1, CYP1B1, GSTM1, GSTT1, GSTP1, AhR, ARNT, and AhRR) were genotyped.