-Biological defense factors show diurnal variations in their expression levels or activities. These variations can induce the different sensitivity to external toxicants of a day. We reported earlier that mice showed clear diurnal variation of cadmium (Cd)-induced toxicity, i.e., chronotoxicity. In this report, we investigated additional new evidences for the cadmium (Cd)-induced chronotoxicity, and considered the mechanisms contributed to this chronotoxicity. Male C57BL/6J mice were injected with CdCl 2 (6.4 mg/kg, one shot) intraperitoneally at 6 different time points of a day (zeitgeber time (ZT); ZT2, ZT6, ZT10, ZT14, ZT18 or ZT22) followed by monitoring the mortality until 14 days after the injection. We observed extreme difference in survival numbers: surprisingly, all mice died at ZT2 injection while all mice survived at ZT18 injection. Moreover, in non-lethal dose of Cd (4.5 mg/kg), the values of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) used as indexes of hepatotoxicity markedly increased at ZT6 injection while mostly unchanged at ZT18 injection. To consider the mechanisms of this extreme diurnal variation, we examined biochemical studies and concluded that the diurnal variation was not caused by the differences in hepatic Cd level, basal hepatic metallothionein (MT) level, and induction level or induction speed of hepatic MT. We suggested that one of the candidate determination factors was glutathione. We believe that the "chronotoxicology" for metal toxicity may be classic, yet new viewpoint
An adequate immune response to percutaneous vaccine application is generated by delivery of sufficient amounts of antigen to skin and by administration of toxin adjuvants or invasive skin abrasion that leads to an adjuvant effect. Microneedles penetrate the stratum corneum, the outermost layer of the skin, and enable direct delivery of vaccines from the surface into the skin, where immunocompetent dendritic cells are densely distributed. However, whether the application of microneedles to the skin activates antigen-presenting cells (APCs) has not been demonstrated. Here we aimed to demonstrate that microneedles may act as a potent physical adjuvant for successful transcutaneous immunization (TCI). We prepared samples of isolated epidermal and dermal cells and analyzed the expression of major histocompatibility complex (MHC) class II and costimulatory molecules on Langerhans or dermal dendritic cells in the prepared samples using flow cytometry. The expression of MHC class II and costimulatory molecules demonstrated an upward trend in APCs in the skin after the application of 500-and 300-µm microneedles. In addition, in the epidermal cells, application of microneedles induced more effective activation of Langerhans cells than did an invasive tapestripping (positive control). In conclusion, the use of microneedles is likely to have a positive effect not only as an antigen delivery system but also as a physical technique inducing an adjuvant-like effect for TCI.
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