Immunomodulatory effects of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) demonstrated using animals are thymic atrophy, downregulation of cytotoxic T or B lymphocyte differentiation or activation, whereas human immunotoxicities have not been investigated well. This study was undertaken to evaluate overall immunologic spectrum of the Vietnam War Korean veterans exposed to Agent Orange contaminated with TCDD. Quantity of red blood cells, hemoglobin and hematocrit in the veterans suffered from chronic diseases associated with Agent Orange exposure (Veteranspatient group) were decreased in comparison with those of the veterans without the diseases and the age-matched healthy controls, but no differences in leukocyte populations. Plasma IgG levels were lowered in the veterans than the controls, owing to significant decrease in the IgG1 levels. Increase in the IgE levels was observed in the plasma from the veterans. Alteration of T cell-mediated immunity was also resulted from activation of peripheral blood mononuclear cells with polyclonal T cell activators. Production of IFNγ γ γ γ γ, a major cytokine mediating host resistance against infection or tumoregenesis, was lowered in the veterans-patient group. However, production of IL-4 and IL-10, representative cytokines involved with hypersensitivity induction, was enhanced in the patient group. Overall, this study suggests that military service in Vietnam and/or Agent Orange exposure disturbs immune-homeostasis resulting in dysregulation of B and T cell activities.
Intestinal metabolism of the subtoxic level of selenite in rats was investigated using a double-perfusion system, which is an in situ, in vitro preparation in which the intestinal lumen and its vasculature are perfused simultaneously. The toxicity of sodium selenite was determined by inhibition of 3-O-methyl glucose (3MG) absorption and by histological examination. Levels of 1.2 mM selenite were required to significantly (p<0.05) reduce 3MG intestinal absorption (58+/-11%, mean+/-SD). Cation-exchange chromatography was used to determine the chemical forms of Se from selenite after using luminal concentrations of 1-200 microM in vascular perfusates. The chemical forms were selenite, selenodiglutathione (GS-Se-SG), mixed selenoglutathione plus cysteine (GS-Se-CYS), selenodicysteine (CYS-Se-CYS), protein-bound Se, and unidentified selenocompounds. Selenite was the predominant selenocompound found in vascular perfusate, but protein-bound Se was the predominant metabolite from selenite present in the vascular effluents. There was a corresponding increase of all metabolites with increased levels of selenite with time of absorption, but not with increased concentration of luminal selenite.
Alzheimer's disease (AD) is characterized by selective neurodegeneration of neurons involved in cognitive function. Current hypothesis for AD etiology needs to be reconsidered because fibrillar Abeta cannot explain selective neurodegeneration. Recent evidence suggests oligomeric Abeta may be more relevant to AD etiology. Here we show signaling disruption induced by oligomeric Abeta. Using the MTT assay, NT2 showed greatest susceptibility to soluble oligomeric Abeta. In the kinase assay, treatment with either monomeric Abeta or fibrillar Abeta evoked no response in PKA, PKC and TK. Oligomeric Abeta treatment, however, inactivated membranous PKC but activated cytosolic PKC in NT2 within 24 h. Our data suggest that oligomeric Abeta may cause selective neurodegeneration through a PKC signaling, distinctive from fibrillar Abeta.
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