Effect of cycloheximide on protein and DNA synthesis and on the yields of chromosomal aberrations induced by DEB and ENU in vicia faba

Incubation of root tips in cycloheximide (CHM) at concentrations of 0.3–50 μg/ml inhibits the incorporation of [¹⁴C]leucine by 40–100% within 2 h. A depression in the incorporation of [³C]thymidine was observed after a 2-h incubation in CHM solution at 1 μg/ml.In root tips exposed for 2 h to CHM at 1 μ/ml the mitotic activity of cells was severely depressed within 15 h of recovery. Metaphases appearing after 20 h carried infrequent aberrations of the chromatid type. CHM at this concentration had no effect on the yield of aberrations induced by the alkylating agents diepoxybutane (DEB) and N-ethyl-N-nitrosourea (ENU) when applied as post-treatment.     

On the induction of chromosome structural changes by hydroxylamine in Vicia faba

Primary roots of a new karyotype of Vicia faba with all chromosomes inter-distinguishable have been used to study the induction by hydroxylamine hydrochloride (HA) of chromatid aberrations and their intrachromosomal distribution. HA induced both chromatid intra- and interchanges of the delayed type. The effectiveness of HA increased with increasing temperature and was dependent on the pH during treatment (more aberrations at pH 7.5 as compared with 4.8). The frequency of incomplete reunion was markedly higher after HA treatment than after treatment with maleic hydrazide (MH) or ethanol. In combined treatments, HA reduced the reunion involvement in HA-induced aberrations of certain chromosome segments was found and compared with distribution patterns of chromatid aberrations after treatment with MH and ethanol. Data and hypotheses concerning possible modes of action of HA eventually resulting in chromosome structural changes are discussed. It is concluded that alterations of the cytosine moiety in chromosomal DNA are not responsible for chromosomal damage induced by HA.     

Non-random intrachromosomal distribution of chromatid aberrations induced by X-rays,alkylating agents and ethanol in Vicia faba

A reconstructed karyotype of Vicia faba with all chromosomes individually distinguishable was treated with triethylene melamine (TEM), cytostasan (CYT) (a new benzimidazol nitrogen mustard), mitomycin C (MI), ethanol (EA) and X-rays. The distribution within chromosomes of induced chromatid abberations was non-random for all agents. The number of segments involved in aberration clustering corresponded to the number of sites representing constitutive heterochromatin, or the regions immediately adjacent to these, as evidenced by the position of Giemsa marker bands. Which of these potential regions of aberration clustering reacted with preferential involvement in aberrations was, in part at least, dependent upon the inducing agent used. It is argued that this may be due to differences in the base composition and/or molecular conformation of heterochromatic regions. Unexpectedly, the distribution pattern of chromatid aberrations induced by mitomycin C was found to be different from those after treatment with the alkylating agents TEM and cytostasan although mitomycin C is assumed to induce aberrations via alkylation. If mitomycin C-induced aberrations are indeed due to alkylation, this indicates that different alkylating agents do not necessarily result in identical patterns of abberation clustering. The other two alkylating agents and ethanol resulted in similar patterns of preferential distribution of abberations. X-Ray induced chromatid aberrations also showed a non-random intrachromosomal distribution, but the clustering was less pronounced than after treatment with the chemical agents.     

Effect of caffeine on intrachromosomal distribution of chromatid aberrations induced by chemical mutagens in Crepis capillaris L

The intrachromosomal distribution patterns of chromatid aberrations induced by N-methyl-N-nitrosourethane (MNU), N-ethyl-N-nitrosourethane (ENU) and ethyleneimine (EI) were compared with those induced by combined treatment with the same mutagens and caffeine, the latter being considered as an inhibitor of post-replication repair of DNA.Chromatid aberrations induced by mutagens alone were distributed non-randomly along the chromosomes. In certain regions few aberrations were located; in others pronounced clustering of aberrations was observed and these regions were considered to be hot spots. This refers especially to MNU- and EI-induced aberrations, whereas ENU-induced chromatid aberrations showed a more length-proportional distribution. In ENU experiments, certain chromosomal segments also represented hot spots, but these were less pronounced. The distribution patterns of chromatid aberrations induced by combined treatment with mutagens and caffeine differed significantly from those observed in experiments with the mutagens only. There seemed to be a tendency to approach random distribution here. This was a result both of the decrease in the quantity of the aberrations in the regions, which in the experiments with mutagens only were hot spots, and of its increase in other chromosomal regions. Some of these regions were considered as hot spots but they were less pronounced. These tendencies refer to MNU and EI. Certain differences between the two variants, with the without caffeine, in ENU experiments were observed but these were of lower expressivity.The causes od differential sensivity of chromosomal regions are discussed. The conclusion is drawn that clustering of chromatid aberrations in certain chromosomal regions is due to differences in the repair systems acting in heterochromatic and euchromatic regions.     

Types and frequencies of chromosomal aberrations induced by irradiation of different parts of interphase in Crepis capillaris

Quantitative and qualitative estimates of chromosomal damage in roots of Crepis capillaris were made in metaphase cells at many time intervals after irradiation with 200 or 400 rad of ⁶⁰Co gamma-rays. The results have confirmed the general pattern described for cells of other organisms, and have revealed in addition the following new facts. (1) The formation of aberrations of chromosome and chromatid type is not determined by the time of chromosome duplication alone. (2) The relative frequencies of different types of discontinuity form peaks with the following time succession: single gaps, chromatid breaks, isolocus breaks. (3) The location of peaks does not depend on the radiation dose, and shows no correlation which the time of synthesis. (4) Irradiation of G₂ induces a significant number of chromosome-type exchanges in Crepis. (5) Higher doses of radiation in G₂ favour the formation of chromatid over chromosome exchanges and of isochromatid breaks over chromosome breaks. A new interpretation of the production of certain types of aberration is discussed.     

Effect of adenosine 3',5'-cyclic monophosphate on the RNA and DNA synthesis and cell proliferation of rat hepatocytes in primary culture: a radioautographic study.

The effect of a 24-h treatment with various doses (from 1.5-10-minus 8 to 3.0-10-minus 3 M) of adenosine 3',5'-cyclic monophospahte (cAMP) on morphometric parameters, [5--3H]uridine radioactivity concentration (URC), [methyl--3H]thymidine [Me--3H]-Tr) labelling index per hour (L.I./h) and per cent mitotic index (M.I.%) of young rat differentiated hepatocytes in primary tissue culture were investigated by morphometric and radioautographic methods. In such cells cAMP was found to induce: (1) a reduction of the apparent surface area (ASA) of total nucleoli, karyoplasm and cytoplasm; (2) significant increases in URC of all the subcellular compartments at all the dosages employed (only cAMP at 1.5-10-minus 8 M did not change karyoplasmic and cytoplasmic URC values); (3) marked increments in [Me--3H]Tdr L.I./h and M.I.% from the lowest dose up to 1.5-10-minus 4 M; at higher doses the L.I./h and M.I.% were less stimulated or approached control values. In cultured rat hepatocytes, adenosine-5'-phosphate (5'-AMP) (1.5-10-minus 4 M per 24 h) increased the karyoplasmic and total cell ASA, the lone total nucleolar URC and both the L.I./h and M.I.%. However, these metabolic effects were significantly less intense than those elicited by isomolar cAMP. Theophylline (Theo) (5.5-10-minus 5 M per 24 h) reduced the in vitro rat hepatocyte total nucleolar ASA but affected neither other morphometric nor any of the URC values. The same dose of Theo plus cAMP (1.5-10-minus M) had no morphometric effect but significantly increased the URC values of all primary rat hepatocyte compartments. Actinomycin D (DAct) (0.1 mug/ml per 24 h) plus cAMP (1.5-10-minus 4 M) decreased the cultured rat hepatocyte total nucleolar ASA but enlarged that of karyoplasm and cytoplasm and, further, markedly curtailed all the compartmental URC values. These data support the hypothesis that cAMP amplified the template activity of the liver chromatin and accelerates the flow of differentiated primary young rat hepatocytes into the various stages of the mitotic cell cycle.