Transforming activity of nitrogen mustard-crosslinked DNA

Nitrogen mustard- and half-mustard-induced damage in Escherichia coli requires different DNA repair pathways

Bifunctional alkylating agents are used in tumor chemotherapy to induce the death of malignant cells through blockage of DNA replication. Nitrogen mustards are commonly used chemotherapeutic agents that can bind mono- or bifunctionally to guanines in DNA. Mustard HN1 is considered a monofunctional analog of bifunctional mustard HN2 (mechlorethamine). Escherichia coli K12 mutant strains deficient in nucleotide excision repair (NER) or base excision repair (BER) were submitted to increasing concentrations of HN2 or HN1, and the results revealed that damage induced by each chemical demands different DNA repair pathways. Damage induced by HN2 demands the activity of NER with a minor requirement of the BER pathway, while HN1 damage repair depends on BER action, without any requirement of NER function. Taken together, our data suggest that HN1 and HN2 seem to induce different types of damage, since their repair depends on distinct pathways in E. coli.

DNA filter elution: a window on DNA damage in mammalian cells

This personal account traces a series of studies that led from DNA physical chemistry to anticancer drug mechanisms. Chemical crosslinking as a basis for anticancer drug actions had been suspected since the time of the first clinical reports of the effectiveness of nitrogen mustard in 1946. After the elucidation of the DNA helix-coil transition, several nearly concurrent findings in the early 1960s established the paradigm of DNA interstrand crosslinking. The DNA filter elution phenomenon was discovered in the early 1970s, and lent itself to the development of practical assays for DNA crosslinks and other DNA lesions in mammalian cells. The assays allowed studies of the effects of DNA damaging agents at pharmacologically or toxicologically relevant doses, and have been widely applied in studies of mutagenic and chemotherapeutic agents. During the period 1979-1986, DNA filter elution studies led to the paradigm of DNA topoisomerases as targets of anticancer drug action, and this has become one of the most active areas of anticancer drug development.

Two-dimensional zymogram analysis of nucleases in Bacillus subtilis

A two-dimensional zymogram procedure for the analysis of nucleases is described. Isoelectric focusing (IEF) and nonequilibrium pH gradient electrophoresis (NEPHGE) were compared as first dimensions in combination with sodium dodecyl sulfate (SDS) electrophoresis as the second dimension in analyzing nucleases in lysates of Bacillus subtilis. All renaturable nucleases detected following SDS electrophoresis alone were resolved in NEPHGE-SDS electrophoresis gels whereas, in IEF gels, most either were at the basic end or were not present in the second-dimension gels. This method of analysis has revealed a complexity in nuclease species in B. subtilis not previously recognized. Eighty-three discreet nuclease activities have been detected in B. subtilis lysates. Using purified deoxyribonuclease I (bovine pancreas), as little as 10 pg of nuclease can be detected.

Transformation in Bacillus subtilis with nitrogen mustard crosslinked DNA. Effect on cotransformation and mutation frequencies

Bacillus subtilis DNA was treated in vitro with nitrogen mustard and the crosslinked molecules were purified, after alkali denaturation, by hydroxyapatite chromatography. When tested for the ability to transform the trpC2-hisB2 segment, these molecules exhibited a decrease in the cotransformation index (r) as compared to native or renatured DNA. The decrease in r was not accompanied by an increase in mutagenicity.

Transfection of Escherichia coli spheroplasts. 3. Facilitation of transfection and stabilization of spheroplasts by different basic polymers

The only compound which fully replaced protamine sulfate in facilitating transfection of Escherichia coli spheroplasts by phage DNAs was spermine; poly-l-lysine, poly-l-arginine, DEAE-dextran, histones, and many other polyamines were only slightly effective. Higher-molecular-weight compounds were effective at lower concentrations, and each compound had a sharp concentration optimum. The specificity of the facilitation of transfection is discussed in light of Leonard and Cole's (1972) isolation of a polyamine- or protamine-like, natural competence factor from Streptococci. By standardizing growth conditions for spheroplast cultures, storing spheroplasts in minimal medium, and adding both protamine sulfate and polyamines to spheroplasts, reproducible competence levels were obtained. Thus, 95% of all spheroplast preparations gave efficiencies of transfection between 10(-3) and 3 x 10(-4) for lambda DNA; between 10(-6) and 3 x 10(-8) for T7 DNA; and between 3 x 10(-6) and 10(-7) for T5 phage DNA. The stability of the spheroplasts was extended from 10 h to between 2 and 5 days, depending on the DNA used for transfection.

Chromatographically fractionated complementary strands of Bacillus subtilis deoxyribonucleic acid: biological properties

Biological, physical, and chromatographic properties of methylated albuminkieselguhr (MAK)-fractionated complementary strands, designated as light (L) and heavy (H), of Bacillus subtilis deoxyribonucleic acid (DNA) are presented. The pattern of transforming activity along the MAK elution profile of alkilidenatured DNA shows that the residually active molecules selectively fractionated ahead of the L strand fraction, whereas the most active self-annealed molecules fractionated preferentially at the trailing end of the H strand fraction. The restoration rate of transforming activity in the late-eluting H molecules was rapid and independent of concentration during the annealing reaction. The data suggest that the self-annealing activity in the H strand is due in part to the formation of intrastrand secondary structures. Hydroxyapatite chromatography of self-annealed L and H strands yielded a major fraction (I) of highly purified strand preparations devoid of transforming activity and hypochromicity, and a minor "nativelike" fraction (II). Sedimentation velocity measurements show that, in addition to the mutual complementary nature of the L and H fractions, they differ in molecular size and possibly configuration.