Prostaglandin (PG)D2, which has long been implicated in allergic diseases, is currently considered to elicit its biological actions through the DP receptor (DP). Involvement of DP in the formation of allergic asthma was recently demonstrated with DP-deficient mice. However, proinflammatory functions of PGD2 cannot be explained by DP alone. We show here that a seven-transmembrane receptor, CRTH2, which is preferentially expressed in T helper type 2 (Th2) cells, eosinophils, and basophils in humans, serves as the novel receptor for PGD2. In response to PGD2, CRTH2 induces intracellular Ca2+ mobilization and chemotaxis in Th2 cells in a Gαi-dependent manner. In addition, CRTH2, but not DP, mediates PGD2-dependent cell migration of blood eosinophils and basophils. Thus, PGD2 is likely involved in multiple aspects of allergic inflammation through its dual receptor systems, DP and CRTH2.
Granulysin is a cytolytic granule protein of natural killer (NK) cells and cytotoxic T lymphocytes (CTL) with a broad range of antimicrobial and tumoricidal activities. Two molecular forms of granulysin, the 15-kDa precursor and 9-kDa mature form, are produced in these cells. In this study, we developed monoclonal antibodies against granulysin and found that the 15-kDa granulysin is spontaneously secreted by peripheral blood NK and T cells via a non-granule exocytotic pathway. When NK cells killed the target cells, the released granulysin levels in culture supernatants significantly increased through the granule exocytosis. The granulysin protein was found in the sera of healthy individuals at an average concentration of 3.7±3.2 ng/ml (age 0-99 years, n=244). The serum levels of granulysin were transiently highly elevated among patients with acute viral infections. In addition, the serum granulysin levels in patients with severe immunodeficiency treated by cell therapy fluctuated proportionately to the improvement of other immunological parameters. Our results suggest that granulysin is well associated with diverse activities of NK cells and CTL in physiological and pathological settings and could be a useful novel serum marker to evaluate the overall status of host cellular immunity.
Ethanol extracts (AF-06, 07, and 08, 10 mg/kg) of Brazilian propolis were administered orally to cutaneously herpes simplex virus type 1 (HSV-1)-infected mice three times daily on days 0 to 6 after infection to evaluate their efficacies against HSV-1 infection and significantly limited development of herpetic skin lesions. AF-07 and 08 significantly reduced virus titers in brain and/or skin on day 4 without toxicity, but AF-08 had no anti-HSV-1 activity in vitro. AF-06 and 08 significantly enhanced delayed-type hypersensitivity (DTH) to inactivated HSV-1 antigen in infected mice. Oral AF-08-administration significantly augmented interferon (IFN)-γ production by HSV-1 antigen from splenocytes of HSV-1-infected mice, while direct exposure of splenocytes of infected mice to AF-06 significantly elevated IFN-γ production in vitro. Thus, AF-08 might have components that are active in vivo even after oral administration and those of AF-06 might be active only in vitro. Because DTH is a major host defense for intradermal HSV-1 infection, augmentation of DTH response by AF-06 or 08, directly or indirectly, respectively, may contribute to their efficacies against HSV-1 infection. In addition, AF-06 and 07 possibly contain anti-HSV-1 components contributing to their efficacies. Such biological activities of Brazilian propolis may be useful to analyze its pharmacological actions.
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