Radiochemical neutron activation analysis has been used to determine the concentration of 36 elements in neuromelanin, 22 elements in substantia nigra, and 32 elements in putamen of healthy subjects without signs of neurological disorders. Substantia nigra and putamen tissues were carefully dissected from the brain using special surgical instruments and tools as well as an adequate sampling procedure to avoid the risk of metal contamination during sampling. Neuromelanin was isolated from putamen by a multiple‐step procedure (extraction with phosphate buffer, lipid and protein elimination by methanol extraction, and sodium dodecyl sulfate‐proteinase). The isolated pigment as well as substantia nigra and putamen underwent neutron activation analysis involving irradiation in a high‐neutron‐flux reactor, radiochemical separations, and counting of the induced radionuclides by computer‐based γ‐ray spectrometry. Iron was the element present in the highest concentration in all analyzed samples. The amount of iron was similar in substantia nigra and putamen (3,000 and 3,830 ng/mg wet weight, respectively) and 10 times higher in neuromelanin (30,800 ng/mg dry weight). Zinc was also present at high levels in three samples, ranging from 16.8 (substantia nigra) to 1,500 ng/mg (neuromelanin). Elements such as Zn, Cr, Se, Sr, Co, Sb, Ni, Hg, Ce, Au, Ag, Ta, and Sc were present in neuromelanin at much higher concentrations than in substantia nigra and putamen. These findings indicate that substantia nigra and putamen contain metals at higher concentrations than observed in blood and that neuromelanin has a particular affinity for metals.
A large, significant increase of myocardial TE is present in IDCM but not in secondary cardiac dysfunction. The increased concentration of TE in pts with IDCM may adversely affect mitochondrial activity and myocardial metabolism and worsen cellular function.
Cytotoxicity, morphological neoplastic transformation, intracellular retention and metabolic behaviour have been investigated in BALB/3T3 Cl A 31-1-1 cells for arsenobetaine, the main form of arsenic in certain seafoods, in comparison to inorganic sodium arsenite. In order to avoid false results, particular attention was paid to the purity, checking for the presence of any trace amounts of inorganic arsenic as well as methylated contaminants in the chemically synthesized arsenobetaine. Cytotoxicity and morphological transformation assays gave obvious positive results for sodium arsenite at a dose exposure of 10 microM. On the other hand, concentrations of arsenobetaine as high as 500 microM failed to induce either cytotoxic effects or neoplastic transformations. The absence of cytotoxicity and transforming potential of arsenobetaine in comparison to inorganic arsenite can be explained by the different degree of retention and the intracellular behaviour of the two arsenic species. Cellular retention of arsenobetaine was dose dependent for exposure concentrations ranging from 1 to 500 microM with a mechanism resembling a simple diffusion (1.4 and 760 pmol of As/10(6) cells were cell associated for the two concentrations at 24 h respectively). About 95% of the intracellular arsenobetaine was present in the cytosol fraction and the attempt to detect any intracellular degradation of the organoarsenic compound failed. Thus, the low retention efficiency of arsenobetaine, its inability to interact with intracellular components and the absence of biotransformation in the cell could explain the lack of cytotoxicity and transforming potential observed in the BALB/3T3 cells. These findings reinforce the view that in humans exposed to different chemical species of arsenic the contribution to the total health risk, including the carcinogenic potential, of arsenobetaine ingested with marine foodstuffs would be negligible.
The Frog Embryo Teratogenesis Assay-Xenopus (FETAX) is a powerful and flexible bioassay that makes use of the embryos of the anuran amphibian Xenopus laevis. The FETAX can detect xenobiotics that affect embryonic development, when mortality, teratogenicity and growth inhibition are used as endpoints. The FETAX was used to compare the embryotoxic and teratogenic potentials of two chemical species of mercury: inorganic mercury(II) chloride (HgCl2) and organic methylmercury chloride (MeHgCl). MeHgCl, with an estimated median lethal concentration [LC50] of 0.313μM and a median teratogenic concentration [TC50] of 0.236μM, showed a higher toxicity than HgCl2, with estimated LC50 and TC50 values of 0.601μM and 0.513μM, respectively. On the basis of these results, HgCl2 and MeHgCl can be classified as “slightly teratogenic compounds”, as the ratio of LC50/TC50 is less than 1.5. There was a significant deviation from the commonly described monotonic behaviour of the concentration–response curves, suggesting a hormetic effect of both species of mercury. Uptake experiments, followed by neutron activation analysis, showed a higher incorporation of mercury in embryos exposed to MeHgCl compared with those exposed to HgCl2. Interestingly, Hg-exposed embryos showed a higher content of selenium and zinc than did control embryos.
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