[en] With regard to contradictory results concerning the mutagenicity of nickel compounds in short-term assays, especially in bacterial test systems, Chinese hamster V79 cells were used to measure mutagenicity, comutagenicity and the induction of sister-chromatid exchanges (SCEs) by NiCl₂. The authors confirmed the induction of mutations at the HGPRT locus as well as SCEs. In addition, NiCl₂ shows a pronounced comutagenic effect towards UV. When using confluent cultures or resting cells due to serum deprivation, where more time is given for repair processes, the comutagenic effect is higher compared to logarithmically growing cells (10 and 4 times, respectively, compared to twice). Hence the authors attribute this enhancement in mutagenicity to inhibition of DNA repair. Also the increase in induced SCEs after combined treatment with UV and NiCl₂ supports this thesis. Furthermore, NiCl₂ enhances the cyto-toxicity of cis-DDP about 12-fold. Since no comutagenic effect is observed in combination with MMS, the authors suggest that the inhibition of DNA repair by Ni(II) applies to all DNA changes that are repaired by the 'long-patch' excision repair system. This inhibition may occur via replacement of other divalent metal ions essential in repair and regulation processes

[en] The zinc coordination in 5-aminolevulinate dehydratase was investigated by extended x-ray absorption fine structure (EXAFS) associated with the zinc K-edge. The enzyme binds 8 mol of zinc/mol of octameric protein, but only four zinc ions seem sufficient for full activity. The authors have undertaken a study on four forms of the enzyme: (a) the eight-zinc native enzyme; (b) the enzyme with only the four zinc sites necessary for full activation occupied; (c) the enzyme with the vacant sites of (b) occupied by four lead ions; (d) the product complex between (b) and porphobilinogen. They have shown that two structurally distinct types of zinc sites are available in the enzyme. The site necessary for activity has an average zinc environment best described by two/three histidines and one/zero oxygen from a group such as tyrosine or a solvent molecule at 2.06 ± 0.02 angstrom, one tyrosine or aspartate at 1.91 ± 0.03 angstrom, and one cysteine sulfur at 2.32 ± 0.03 angstrom with a total coordination of five ligands. The unoccupied site in (b) is dominated by a single contribution of four cysteinyl sulfur atoms at 2.28 ± 0.02 angstrom. Spectra from samples (c) and (d) show only small changes from that of (b), reflecting a slight rearrangement of the ligands around the zinc atom