Lipoxins are a group of biologically active eicosanoids typically formed by transcellular lipoxygenase activity. Lipoxin A4 (LXA4) and Lipoxin B4 (LXB4) biosynthesis has been detected in a variety of inflammatory conditions. The native lipoxins LXA4 and LXB4 demonstrate potent antiinflammatory and proresolution bioactions. However, their therapeutic potential is compromised by rapid metabolic inactivation by PG dehydrogenase-mediated oxidation and reduction. Here we report on the stereoselective synthesis of aromatic LXA4 and LXB4 analogues by employing Sharpless epoxidation, Pd-mediated Heck coupling, and diastereoselective reduction as the key transformations. Subsequent biological testing has shown that these analogues display potent biological activities. Phagocytic clearance of apoptotic leukocytes plays a critical role in the resolution of inflammation. Both LXA4 analogues (1R)-3a and (1S)-3a were found to stimulate a significant increase in phagocytosis of apoptotic polymorphonuclear leukocytes (PMN) by macrophages, with comparable efficacy to the effect of native LXA4, albeit greater potency, while the LXB4 analogue also stimulated phagocytosis with a maximum effect observed at 10-11 M. LX-stimulated phagocytosis was associated with rearrangement of the actin cytoskeleton consistent with that reported for native lipoxins. Using zymosan-induced peritonitis as a murine model of acute inflammation (1R)-3a significantly reduced PMN accumulation.
Annexin-1 is a well-known endogenous anti-inflammatory protein that modulates the activation of cells of the innate immune system such as neutrophils and macrophages. We have recently reported a positive role for the exogenous protein on T cell differentiation, however, whether such a role holds true for the endogenous protein has yet to be determined. This aspect has been investigated here finding that Annexin-1-deficient T cells display an impaired activation and proliferation in response to anti-CD3 plus anti-CD28 stimulation. Furthermore, differentiation of T cells from Annexin-1-deficient mice in Th0/Th1/Th2 or Th17 skewing conditions demonstrated an increased Th2 phenotype compared to cells from control littermates. Similar results were obtained when we analyzed the Th1/Th2 profile of lymph node cells obtained from mice immunized with keyhole limpet hemocyanin or the inflammatory infiltrate in mouse model of allergic inflammation. These results demonstrate a novel modulatory role of endogenous Annexin-1 in TCR signaling and T cell differentiation and suggest this protein might play a dual and complementary role in the innate and adaptive immune response.
Galectin-1 (Gal-1) is a beta-galactoside-binding protein, the expression of which is increased in endothelial cells on exposure to proinflammatory stimuli. Through binding of several receptors (CD7, CD45, and CD43) Gal-1 is known to induce apoptosis of activated T lymphocytes, an effect thought to mediate the beneficial effects it exerts in various inflammatory models. The data presented here highlights another function for Gal-1, that of a negative regulator of T-cell recruitment to the endothelium under both physiological and pathophysiological conditions. We have shown, using siRNA to knockdown Gal-1 in endothelial cells, that endogenous Gal-1 limits T-cell capture, rolling, and adhesion to activated endothelial cells under flow. Furthermore, the reverse effect is observed when exogenous human recombinant Gal-1 is added to activated endothelial monolayers whereby a dramatic reduction in lymphocyte recruitment is seen. These findings are corroborated by studies in Gal-1 null mice in which homing of wild-type (WT) T lymphocytes is significantly increased to mesenteric lymph nodes and to the inflamed paw in a model of delayed-type hypersensitivity. In conclusion, mimicking endothelial Gal-1 actions would be a novel strategy for controlling aberrant T-cell trafficking, hence for the development of innovative anti-inflammatory therapeutics.
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