PGE2 inhibits mature T cell proliferation and protects T cells from activation-induced cell death (AICD). We have previously demonstrated that human follicular dendritic cells (FDC) strongly express PGI synthase. In this study, the hypothesis that FDC have regulatory roles on germinal center T cells by controlling production of PGE2 and PGI2 was tested. Confocal microscopic analyses of human tonsil tissues revealed that FDC indeed expressed PGE synthase in addition to PGIS. To confirm these results, we studied the regulation mechanism of PG production in FDC, using an established human FDC-like cell line, HK. Specifically in response to TNF-α, TGF-β, and LPS, protein expression of cyclooxygenase (COX)-2 and downstream PGE synthase was up-regulated with coordinate kinetics, whereas COX-1 and PGIS were constitutively expressed. The increase of these enzymes was reflected in actual production of PGE2 and PGI2. Interestingly, IL-4 almost completely abrogated the stimulatory activity of TNF-α, TGF-β, and LPS in PG production. Furthermore, the up-regulation of PGE2 and PGI2 production was markedly down-regulated by indomethacin and a selective COX-2 inhibitor. PGI2 analog and PGE2 inhibited proliferation and AICD of T cells in dose- and time-dependent manners. Finally, coculture experiments revealed that HK cells indeed inhibit proliferation and AICD of T cells. Put together, these results show an unrecognized pathway of FDC and T cell interactions and differential mechanisms for PGE2 and PGI2 production, suggesting an important implication for development and use of anti-inflammatory drugs.
Obesity is a metabolic disease characterized by low-level chronic inflammation. Obese individuals are susceptible to infection by viruses, and vaccination against these pathogens is less effective than in nonobese individuals. Here, we sought to explore the immunological environment in a mouse model of obesity induced by a high-fat diet (HFD). HFD treatment increased the body weight and epididymal fat mass. The proportion of activated B cells, T cells, and macrophages was similar between mice in the HFD group and the regular-fat diet (RFD) group. The Th1 cell subpopulation in the HFD group was increased, whereas the proportion of Treg cells was reduced compared with the RFD group. Moreover, T-cell proliferation and cytokine production did not differ between the groups when cells were stimulated with anti-CD3 and anti-CD28 antibodies in vitro. In macrophages, phagocytic activity was higher in mice fed an HFD than in those fed an RFD, but expression levels of CD86 and MHC class II antigens were similar. When macrophages were cultured in vitro, the proportion of CD86-expressing macrophages was lower in those isolated from mice in the HFD group than in those isolated from the RFD group. Furthermore, lipopolysaccharide-induced interleukin 6 (IL-6) and tumor necrosis factor alpha secretions were significantly reduced in macrophages isolated from the HFD group. In addition, influenza vaccine-induced antibodies in the HFD group diminished more rapidly than in the RFD group. These results suggest that poor functionality of macrophages during obesity might contribute to a reduction in vaccine efficacy. ; phone: +82-2-2164-4917. Abbreviations: CBV = cell-culture-based vaccine; CFSE = Carboxyfluorescein succinimidyl ester; DIO = diet-induced obesity; FITC = fluorescein isothiocyanate; HFD = high-fat diet; IL = interleukin; MHC = major histocompatibility; LPS = lipopolysaccharide; NP = nucleoprotein; PBSA = PBS bovine serum albumin; PBS = phosphate-buffered saline; RFD = regular-fat diet; TNF-α = tumor necrosis factor alpha
Background: Prostaglandin E2 (PGE 2) is an endogenous lipid mediator of inflammation. Its production is regulated by the rate-limiting upstream enzyme cyclooxygenase-2 (COX-2). We have recently demonstrated that the major cell type expressing COX-2 in the germinal center is follicular dendritic cell (FDC). In this study, to elucidate the molecular mechanism of PGE 2 in COX-2 production, we asked whether mitogen-activated protein kinases ERK and p38 might regulate COX-2 expression. Results: FDC-like cells were used to analyze the phosphorylation kinetics of ERK and p38 and the impact of genetic knockdown. PGE 2 stimulation gave rise to a rapid increase of p38 but not ERK phosphorylation. In contrast, IL-1β induced phosphorylation of both MAPKs. Knockdown of p38 resulted in a marked suppression of COX-2 expression induced by either PGE 2 or IL-1β. ERK knockdown did not significantly affect the effect of PGE 2 and IL-1β on COX-2 induction. The differential results of p38 and ERK siRNA transfection were reproduced in the production of prostaglandins and in experiments performed with pharmacologic inhibitors. Conclusions: Our data indicate that p38 is essentially required for PGE 2 to induce COX-2 expression in FDC-like cells. The current study helps to expand our understanding of the biological function of FDC at the molecular level and provides a potential rationale for the pharmacologic or genetic approaches to regulate p38 MAPK in the treatment of various inflammatory disorders.
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