The Journal of immunology : official journal of the American Association of Immunologists
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Induction and maintenance of immunologic tolerance in humans remains a desirable but elusive goal. Therefore, understanding the physiologic mechanisms of regulation of immune responses is highly clinically relevant for immune-mediated diseases (e.g., autoimmunity and asthma/allergy) and for cell and organ transplantation. Acceptance of the fetus, which expresses paternally inherited alloantigens, by the mother during pregnancy is a unique example of how the immune system reshapes a destructive alloimmune response to a state of tolerance. Understanding the complex mechanisms of fetomaternal tolerance has important implications for developing novel strategies to induce immunologic tolerance in humans in general and for prevention of spontaneous abortion in at-risk populations in particular.
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Clinical Trial
Resolvin E1 selectively interacts with leukotriene B4 receptor BLT1 and ChemR23 to regulate inflammation.
Resolvin E1 (RvE1) is a potent anti-inflammatory and proresolving mediator derived from omega-3 eicosapentaenoic acid generated during the resolution phase of inflammation. RvE1 possesses a unique structure and counterregulatory actions that stop human polymorphonuclear leukocyte (PMN) transendothelial migration and PMN infiltration in several murine inflammatory models. To examine the mechanism(s) underlying anti-inflammatory actions on PMNs, we prepared [(3)H]RvE1 and characterized its interactions with human PMN. ⋯ In vivo anti-inflammatory actions of RvE1 were sharply reduced in BLT1 knockout mice when given at low doses (100 ng i.v.) in peritonitis. In contrast, RvE1 at higher doses (1.0 mug i.v.) significantly reduced PMN infiltration in a BLT1-independent manner. These results indicate that RvE1 binds to BLT1 as a partial agonist, potentially serving as a local damper of BLT1 signals on leukocytes along with other receptors (e.g., ChemR23-mediated counterregulatory actions) to mediate the resolution of inflammation.
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Comparative Study
Mcl-1 depletion in apoptosis elicited by ionizing radiation in peritoneal resident macrophages of C3H mice.
Remarkably, apoptosis was induced by exposing peritoneal resident macrophages (PRM) of C3H mice, but not other strains of mice, to ionizing radiation. The molecular mechanism of this strain-specific apoptosis in PRM was studied. The apoptosis elicited in C3H mouse PRM 4 h after exposure was effectively blocked by proteasome inhibitors. ⋯ Global protein synthesis was also suppressed by irradiation in C3H mouse PRM but not in B6 mouse PRM. The down-regulation of Mcl-1 expression with Mcl-1-specific small interfering RNA or antisense oligonucleotide significantly induced apoptosis in both C3H and B6 mouse PRM without irradiation. It was concluded that the apoptosis elicited in C3H mouse PRM by ionizing radiation was attributable to the depletion of Mcl-1 through radiation-induced arrest of global protein synthesis.
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Numerous recent reports suggest that statins (hydroxy-3-methylglutaryl-CoA reductase inhibitors) exhibit potential to suppress tumorigenesis through a mechanism that is not fully understood. Therefore, in this article, we investigated the effects of simvastatin on TNF-alpha-induced cell signaling. We found that simvastatin potentiated the apoptosis induced by TNF-alpha as indicated by intracellular esterase activity, caspase activation, TUNEL, and annexin V staining. ⋯ Simvastatin inhibited TNF-alpha-induced IkappaBalpha kinase activation, which led to inhibition of IkappaBalpha phosphorylation and degradation, suppression of p65 phosphorylation, and translocation to the nucleus. NF-kappaB-dependent reporter gene expression induced by TNF-alpha, TNFR1, TNFR-associated death domain protein, TNFR-associated factor 2, TGF-beta-activated kinase 1, receptor-interacting protein, NF-kappaB-inducing kinase, and IkappaB kinase beta was abolished by simvastatin. Overall, our results provide novel insight into the role of simvastatin in potentially preventing and treating cancer through modulation of IkappaB kinase and NF-kappaB-regulated gene products.
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Tumors may evade immune responses at multiple levels, including through a defect in the lymphocyte-vessel wall interactions. The angiogenic nature of endothelial cells (EC) lining tumor blood vessels may account for such anergy. In this study, we examined whether mechanisms other than down-regulation of adhesion molecules could be involved, particularly signaling pathways dependent on the caveolae platforms. ⋯ We found that the NO synthase inhibitor N-nitro-l-arginine methyl ester could reverse the inhibitory effects of VEGF on lymphocyte adhesion and EC cytoskeleton rearrangement. Symmetrically, a NO donor was shown to prevent the ICAM clustering-mediated lymphocyte adhesion, thereby recapitulating the effects of VEGF. In conclusion, this study provides new insights on the mechanisms leading to the tumor EC anergy vs immune cells and opens new perspectives for the use of antiangiogenic strategies as adjuvant approaches to cancer immunotherapy.