Molecular epidemiological surveillance of invasive Hib strains after the introduction of vaccines will allow prompt detection of any changes in bacterial properties. In addition, because higher antibody concentrations may be required to protect against Hib disease caused by strains with multiple copies of the capb locus, we strongly recommend the complete implementation of Hib vaccination in young children in Japan. This study was financially supported by Research on Regulatory PS-341 mw Science of Pharmaceuticals and Medical Devices Grants, The Research on Accumulation of Evidence for Effective Vaccine Use and Vaccine
Policy, Japanese Ministry of Health, Labor, and Welfare (H19-iyaku-ippan-032) and by Grants-in-Aid for Scientific Research (C), Japan (No. 20591282 and No. 21591390). We thank pediatricians in Kagoshima Prefecture, Japan, for providing the Hib clinical strains. “
“Recent studies in our laboratory demonstrated the suppression of immunoglobulin E (IgE)
production by green tea extract (GTE) in U266 cells. However, the effects of GTE or one of its components (EGCG) on IgE production by human peripheral blood mononuclear cells (PBMC) are unknown. PBMC (1.5 × 106) obtained from serum IgE+, allergic asthmatic patients, were cultured ± GTE (1–100 ng/ml) or purified EGCG (0.5–50 ng/ml), and IgE levels were determined on day 10 by enzyme-linked immunosorbent assay (ELISA). High levels of IgE were detected in supernatants of the PBMC cultures on day 10. When GTE was included Transmembrane Transproters inhibitor in vitro, IgE production by PBMC was suppressed CAL-101 purchase on day 10, compared with control. Purified EGCG included in vitro also suppressed IgE production, but at lower levels, compared with control. This study demonstrates that GTE and its major catechin, EGCG, have immunoregulatory effects
on human IgE responses. Green tea (Camelia sinensis), known for its anti-oxidant, anti-cancer and other beneficial properties [1–7], contains bioactive ingredients, including polyphenols, catechins and caffeine [1, 2]. The catechin epigallocatechin gallate (EGCG) inhibits mast cell degranulation, neutrophil chemotaxis and type IV allergic responses [1, 8]. The O-methylated derivative of EGCG, (-)-epigallocatechin-3-O-(3-O-methyl)-gallate (EGCG’’3Me), inhibits type I and IV hypersensitivity reactions [1] and also inhibits histamine release in the human basophilic cell line KU812 [9]. Gallic acid (3, 4, 5-trihydroxybenzoic acid), a green tea polyphenol, modulates the inflammatory allergic reaction by decreasing/blocking IgE-induced histamine release from mast cells, as well as pro-inflammatory cytokine expression [10]. Recent studies in our laboratory have demonstrated the suppression of IgE production by green tea extract (GTE) in U266 cells, which was not mediated by apoptosis or cell death [11]. However, whether this effect is mediated by EGCG alone or in conjunction with other compounds in GTE has yet to be established.