Mutagenicity of antiamebic and anthelmintic drugs in the Salmonella typhimurium microsomal test system

4 amebicides (chloroquine diphosphate, diiodohydroxyquin, iodochlorohydroxyquin and dehydroemetine) and 6 anthelmintics (bephenium hydroxynaphthoate, 4-hexylresorcinol, mebendazole, niclosamide, pyrantel pamoate and pyrvinium pamoate) were tested for mutagenicity in the Salmonella typhimurium microsomal test system. Frameshift mutations were induced by dehydroemetine and niclosamide following activation by microsomal enzymes, while pyrvinium pamoate induced both frameshift and base-pair substitution mutations with or without metabolic activation. The urine of mice treated with dehydroemetine or pyrvinium pamoate showed no mutagenic activity. However, urine obtained from mice treated with niclosamide was mutagenic in strains TA98 and TA1538. The fluctuation assay showed chloroquine diphosphate to be mutagenic in TA1537, a strain which detects frameshift mutations.     

Interactions of homologous and heterologous deoxyribonucleic acids and competent Bacillus subtilis cells.

Glucosylated and nonglucosylated bacteriophage T4 deoxyribonucleic acids (DNAs) are able to bind to competent cells of Bacillus subtilis, although the former does so in a rather unstable fashion, probably because of the glucosylation. Several heterologous DNAs compete with homologous DNA for the same receptors in binding and in transformation. A different pattern in competition for DNA binding was observed for homologous and T4 glucosylated DNAs in intact cells as compared with protoplasts or membrane vesicles. The results are consistent with the existence of two types of receptor sites on the membrane of competent B. subtilis cells.     

Increased genetic instability of the common fragile site at 3p14 after integration of exogenous DNA.

We determined previously that the selectable marker pSV2neo is preferentially inserted into chromosomal fragile sites in human x hamster hybrid cells in the presence of an agent (aphidicolin) that induces fragile-site expression. In contrast, cells transfected without fragile-site induction showed an essentially random integration pattern. To determine whether the integration of marker DNA at fragile sites affects the frequency of fragile-site expression, the parental hybrid and three transfectants (two with pSV2neo integrated at the fragile site at 3p14.2 [FRA3B] and specific hamster fragile sites [chromosome 1, bands q26-31, or mar2, bands q11-13] and one with pSV2neo integrated at sites that are not fragile sites) were treated with aphidicolin. After 24 h the two cell lines with plasmid integration at FRA3B showed structural rearrangements at that site; these rearrangements accounted for 43%-67% of the total deletions and translocations observed. Structural rearrangements were not observed in the parental cell line. After 5 d aphidicolin treatment, the observed excess in frequency of structural rearrangements at FRA3B in the cell lines with pSV2neo integration at 3p14 over that in the two lines without FRA3B integration was less dramatic, but nonetheless significant. Fluorescent in situ hybridization (FISH) analysis of these cells, using a biotin-labeled pSV2neo probe, showed results consistent with the gross rearrangements detected cytogenetically in the lines with FRA3B integration; however, the pSV2neo sequences were frequently deleted concomitantly with translocations.(ABSTRACT TRUNCATED AT 250 WORDS)     

Intracellular effects of phage phi W-14 DNA on transformation of Bacillus subtilis

Summary Uptake of transforming DNA by competent Bacillus subtilis cells in the presence of phage W-14 DNA (in which half the thymine residues are replaced by -putrescinyl-thymine) is accompanied by a decrease in the amount of trichloracetic acid-precipitable label of the former retained by recipient cells during subsequent incubation. Fractionation of lysates of cells incubated for 0.5 min at 37°C after DNA uptake at 30°C in the presence of low concentrations of W-14 DNA (0.1 g/ml) demonstrated the presence of single-stranded transforming DNA molecules, typical for DNA taken up by B. subtilis. The intracellular effect of W-14 DNA was enhanced by an increase in its concentration (to 0.5–1 g/ml), or by increasing the temperature of uptake (to 37°C). With either of these treatments transforming DNA taken up was found in the form of a broad asymmetric band, indicative of degradation, and partially located at the density characteristic for single-stranded molecules. Fractionation of lysates of cells treated (0.1 g/ml) or untreated with W-14 DNA, and incubated for 20 min at 37°C after DNA uptake, showed disappearance of the single-stranded band. Donor DNA label was then found exclusively in the recipient DNA band, its amount being lower in samples treated with W-14 DNA. The influence of a high concentration of W-14 DNA on retention of transforming DNA label was correlated with its effect on transformation. On exposure to low concentrations of phage DNA, such a correlation was observed only after longer periods of incubation, due to slower intracellular degradation of homologous DNA taken up. The results are consistent with the proposal that W-14 DNA-induced reduction in efficiency of transformation is due to intracellular stimulation of transforming DNA degradation, leading to a decrease in the number of donor molecules available for recombination with the recipient chromosome.     

Physical structure and genetic expression of the sulfonamide-resistance plasmid pLS80 and its derivatives in Streptococcus pneumoniae and Bacillus subtilis

The 10-kb chromosomal fragment of Streptococcus pneumoniae cloned in pLS80 contains the sul-d allele of the pneumococcal gene for dihydropteroate synthase. As a single copy in the chromosome this allele confers resistance to sulfanilamide at 0.2 mg/ml; in the multicopy plasmid it confers resistance to 2.0 mg/ml. The sul-d mutation was mapped by restriction analysis to a 0.4-kb region. By the mechanism of chromosomal facilitation, in which the chromosome restores information to an entering plasmid fragment, a BamHI fragment missing the sul-d region of pLS80 established the full-sized plasmid, but with the sul-s allele of the recipient chromosome. A spontaneous deletion beginning approximately 1.5 kb to the right of the sul-d mutation prevented gene function, possibly by removing a promoter. This region could be restored by chromosomal facilitation and be demonstrated in the plasmid by selection for sulfonamide resistance. Under selection for a vector marker, tetracycline resistance, only the deleted plasmid was detectable, apparently as a result of plasmid segregation and the advantageous growth rates of cells with smaller plasmids. When such cells were selected for sulfonamide resistance, the deleted region returned to the plasmid, presumably by equilibration between the chromosome and the plasmid pool, to give a low frequency (approximately 10(-3) of cells resistant to sulfanilamide at 2.0 mg/ml. Models for the mechanisms of chromosomal facilitation and equilibration are proposed. Several derivatives of pLS80 could be transferred to Bacillus subtilis, where they conferred resistance to sulfanilamide at 2 mg/ml, thereby demonstrating cross-species expression of the pneumococcal gene.(ABSTRACT TRUNCATED AT 250 WORDS)     

Three regions in the DNA of plasmid pLS1 show sequence-directed static bending.

Three regions showing abnormal electrophoretic mobility, which is an indication of the existence of bends in DNA, have been observed in the DNA of plasmid pLS1. These loci have been characterized by assays designed to detect sequence-directed bending in DNA (temperature-dependence migration and two dimensional electrophoresis). The first region (locus B-1) was located within a fragment that contains a proposed inhibitor countertranscribed RNA (RNAII). The second locus (B-2) contains the plasmid plus origin of replication and the third region (locus B-3) was located in the vicinity of a putative antisense RNA (RNAI) of unknown function. The centres of the first two bent DNA regions were located by circular permutation assays at nucleotides 882 (locus B-1) and 634 (locus B-2). The bend centre of locus B-1 was found to be upstream of the promoter for the putative antisense RNAII. The centre of curvature in locus B-2 was located in the vicinity of the putative promoter of the replication proteins RepA and RepB and of a sequence that has three 11-bp direct repeats. The DNA sequence at this region showed the existence of A.T tracts, with an internal repeat of 10 to 11 base pairs, for five helix turns. A complex curvature in the DNA of pLS1 at locus B-2 that may have a regulatory role in plasmid replication is postulated.     

Induced bending of plasmid pLS1 DNA by the plasmid-encoded protein RepA

The broad host range streptococcal plasmid pLS1 encodes for a 5.1-kDa repressor protein, RepA. This protein has affinity for DNA (linear or supercoiled) and is translated from the same mRNA as the replication initiator protein RepB. By gel retardation assays, we observed that RepA shows specificity for binding to the plasmid HinfID fragment, which includes the target of the protein. The target of RepA within the plasmid DNA molecule has been located around the plasmid single site ApaLI. This site is included in a region that contains the promoter for the repA and repB genes and is contiguous to the plasmid ori(+). A complex sequence-directed DNA curvature is observed in this region of pLS1. Upon addition of RepA to plasmid linear DNA or to circularly permuted restriction fragments, this intrinsic curvature was greatly enhanced. Thus, a strong RepA-induced bending could be located in the vicinity of the ApaLI site. Visualization of the bent DNA was achieved by electron microscopy of complexes between RepA and plasmid DNA fragments containing the RepA target.