Suppression of MIP-2 or IL-8 production by annexins A1 and A4 during coculturing of macrophages with late apoptotic human peripheral blood neutrophils

AbstractAnnexin A1 (ANXA1) is a well-known anti-inflammatory protein that is expressed on the surface of apoptotic cells. Annexin A4 (ANXA4) is also recruited from the nucleus to the cytoplasm in apoptotic cells, although it is not known whether or not ANXA4 is expressed on the surface of apoptotic cells. In this study, we obtained rabbit anti-human ANXA1 and ANXA4 antibodies, and then examined whether or not ANXA1 and ANXA4 are expressed on the surface of early and late human apoptotic cells. ANXA1 and, to a lesser extent, ANXA4 were detected on late but not early apoptotic HeLa cells, whereas ANXA1 and a small amount of ANXA4 were detected on both early and late apoptotic human neutrophils. We then examined the effects of the anti-human ANXA1 and ANXA4 antibodies on the mouse or human macrophage response to human apoptotic cells. Upon coculturing of mouse or human macrophages with late apoptotic human neutrophils, anti-human ANXA1 antibodies and, to a lesser extent, anti-human ANXA4 antibodies increased MIP-2 or IL-8 production significantly, suggesting that ANXA1 and ANXA4 suppress MIP-2 or IL-8 production by macrophages in response to late apoptotic human neutrophils

Neutrophils accelerate macrophage-mediated digestion of apoptotic cells in vivo as well as in vitro.

It is generally believed that the clearance of apoptotic cells does not lead to inflammation. In contrast, we previously found that injection of apoptotic cells into the peritoneal cavity induced the expression of an inflammatory chemokine, MIP-2, and infiltration of neutrophils, and that anti-MIP-2 Abs suppressed the infiltration significantly. Because our previous study showed that whole-body x-irradiation caused neutrophil infiltration into the thymus along with T cell apoptosis, we examined the role of neutrophils in apoptotic cell clearance. Neutrophil infiltration reached a peak 12 h after irradiation with 1 Gy of x-rays. Immunohistological analysis revealed that apoptotic cells disappeared dramatically from 10.5 to 12 h after x-irradiation. As neutrophils moved from an inner area of the cortex to the periphery, apoptotic cells disappeared concomitantly. Either anti-MIP-2 or anti-CXCR2 Abs suppressed neutrophil infiltration significantly, and the suppression of neutrophil infiltration by anti-MIP-2 Abs delayed the disappearance of apoptotic cells. Moreover, macrophage-mediated digestion of apoptotic thymocytes was accelerated in vitro on coculturing with neutrophils, even if neutrophils were separated from macrophages. These results suggest that neutrophils are recruited to the thymus mainly by MIP-2 after whole-body x-irradiation and that such neutrophils may not induce inflammation but rather accelerate complete digestion of apoptotic cells by macrophages

Density-dependent induction of TNF-α release from human monocytes by immobilized P-selectin

AbstractP-selectin purified from human platelets, when immobilized on a solid surface, induced monocytes to release tumor necrosis factor-α (TNF-α). The induction of TNF-α release was dependent on the concentration of P-selectin used for the immobilization, and the maximal stimulation was observed when the plate was coated with 0.3 μg/ml of P-selectin. Use of either a higher or a lower concentration of P-selectin for the plate-coating was found to elicit less TNF-α release, although the higher concentration of P-selectin caused a stronger adhesion of HL-60 leukemic cells. The expression of mRNA for TNF-α roughly paralleled the TNF-α secretion, as assessed by RT-PCR. These results indicate that monocytes are activated by immobilized P-selectin in a density-dependent manner

Interleukin-9 Receptor Gene is Transcriptionally Regulated by Nucleolin in T-Cell Lymphoma Cells

Interleukin-9 (IL-9) is a multifunctional cytokine that not only has roles in immune and inflammatory responses but also is involved in growth-promoting and anti-apoptotic activities in multiple transformed cell lines, which suggests a potential role in tumorigenesis. Over-expression of the receptor of IL-9 (IL-9R) occurs in several types of human leukemias and in radiation-induced mouse T-cell lymphoma (TL). The molecular mechanism that regulates transcription of the IL-9R gene (Il9r) during leukemogenesis is, however, not well understood. Using a mouse TL cell line that has high expression of Il9r, we sought to dissect its promoter structure. Here we show that the active promoter for Il9r is located in the 5`-flanking AT-rich region. Chromatin immunoprecipitation showed the opening of chromatin structure of the promoter region coupled with nucleolin binding in vivo. Immunohistochemical analysis confirmed the increased localization of nucleolin in the nuclei of TL cells. These data indicate that increased expression of Il9r is associated with an increased binding of nucleolin, coupled with chromatin opening, to an AT-rich region in the 5\u27-flanking region of Il9r in TL cells