Influence of cell fixation on chromatin topography.

Using in situ hybridization techniques, a fixation step must precede denaturation to prevent disintegration of the chromosomes. The analysis of nuclei fixed by paraformaldehyde, preserving the native structure (three-dimensional or 3D fixation and analysis) has become possible with the development of confocal microscopy; however, the analysis of those fixed by methanol and acetic acid, dehydrating the nuclei (two-dimensional or 2D fixation and analysis), remains a very valuable tool for practical use in diagnostics and also in many cases for research. We compared both types of fixation and analyses using different cell lines and different DNA probes. Fixation of cells by methanol and acetic acid leads to the enlargement of contact of nuclei with the slide surface, resulting in a substantial increase of nuclear diameter, flattening of the nucleus, and consequently to a distortion of gene topology. Our results indicate that chromatin structures located in the outer parts of the nuclear volume (e.g., heterochromatin of some centromeres) are relatively shifted to the membrane of these nuclei, keeping the absolute centromere-membrane distance constant. On the other hand, euchromatin located in the inner parts of the nuclear volume is not shifted outside proportionally to the increase of molecular dimensions; consequently, the relative distances for the center of nucleus to gene are smaller after methanol-acetic acid fixation. The limitations of the analysis of dehydrated preparations for practical use and in research are discussed.

Chromosomes participating in translocations typical of malignant hemoblastoses are also involved in exchange aberrations induced by fast neutrons.

Repeated triple-color fluorescence in situ hybridization was used for the detection of exchange aberrations among 10 selected chromosomes of human lymphocytes irradiated with three doses of fast neutrons with a mean energy of 7 MeV. In each hybridization two different pairs of chromosomes were stained. Defined stage positions of metaphases on a slide were stored on a hard disk and an automatic scan of images according to these positions was performed after six successive hybridizations. In this way we obtained six different images of the same metaphase with differently stained pairs of chromosomes and centromeres. The comparison of these images enabled the identification of mutual exchanges between chromosomes 1, 2, 3, 4, 8, 9, 12, 14, 18 and 22. The frequencies of exchanges were not linearly proportional to the molecular weight of interacting chromosomes. The most significant were exchanges between chromosomes 14/18, 14/8, 18/8, 8/3, 1/14, 1/8, 3/18, 3/14 and 9/22. The results indicate significant interactions between chromosomes involved in translocations in B-cell non-Hodgkin's lymphoma and chronic myeloid leukemia. We propose that the reason for the high frequency of exchanges between these chromosomes is their proximity in the cell nucleus. It may also be one of the reasons for the induction of specific translocations leading to malignant transformation of cells.

The topological organization of chromosomes 9 and 22 in cell nuclei has a determinative role in the induction of t(9,22) translocations and in the pathogenesis of t(9,22) leukemias.

The neighborhood relationships of chromosomes can be of great importance for basic cellular processes such as gene expression or translocation induction. In this study, the topological organization of chromosomes 9 and 22 was investigated in cell nuclei of G0-phase lymphocytes. We found that the territories of both chromosomes are predominantly located in the central region of cell nuclei. In addition to this, chromosomes 9 and 22 were frequently associated in pairs detected as false-positive ABL-BCR fusions. Both effects might substantially increase the probability of interaction between chromosomes. Because of this, exchange aberrations were studied in chromosomes 9 and 22 of human lymphocytes irradiated by neutrons. The rate of aberration induction between these chromosomes was 11 times higher than the expected frequency based on the fractional molecular weight of these chromosomes. We show that the increased rate of exchange between chromosomes 9 and 22 induced by neutrons corresponds to the neighborhood relationships of both chromosomes. Similar topological characteristics of ABL and BCR genes were found in several cell lines: T- and B-lymphocytes. HL60 cells and bone marrow cells. This finding suggests that the specific chromatin structure mentioned might be responsible for the high rate of induction of t(9;22)-positive leukemias in the human population.

Cell inactivation, mutation and DNA strand-break induction by gamma-rays at very low temperatures.

Cell inactivation, mutation and DNA strand-break induction by gamma-radiation have been investigated at very low temperatures (-78 degrees C, -196 degrees C, and -268 degrees C). In Escherichia coli Ymel, lacI+-->lacI- and Salmonella typhimurium TA102, his--->his+ dose-modifying factors determined for low radiation doses are similar for both mutation induction and cell inactivation. The sensitivity of repair-deficient strains E. coli polA- and E. coli recA- was also reduced at low temperature to a comparable extent. This suggests that the lesions which are responsible for cell inactivation and mutagenesis could be strongly mutually related and/or that different types of lesions which are responsible for cell inactivation and mutation induction in bacteria are reduced at low temperature to the same or similar extent. Likewise, a lower yield of DNA strand breaks in plasmids irradiated at low temperature was observed.

Induction of SOS repair by ionizing radiation. Results from experiments at accelerators.

beta-galactosidase and alkaline phosphatase activities of Escherichia coli strain PQ37 carrying the fusion gene of sulA and lacZ treated with different types of ionizing radiation were examined. The induction factor (ratio of beta-galactosidase to alkaline phosphatase activity), reflecting the SOS-induction potency, increases significantly with radiation dose. Maximum effectiveness to induce SOS-response has been found for deuterium and helium ions in comparison to gamma-rays, carbon or krypton ions. Increased energy of helium ions leads to greater SOS-induction potency of radiation.

Effects of five platinum complexes (cis-DDP, trans-DDP, CHIP IV, CBDCA, oxo-Pt) on the induction of sister chromatid exchanges (SCEs) and chromosomal aberrations in Vicia faba root-tip cells.

In a population of plant meristematic cells of Vicia faba the frequency of sister chromatid exchanges (SCEs), incidence of chromosomal aberrations and mitotic activity of cells was evaluated after short-term treatment (1 h) with antitumour active platinum complexes cis-DDP, CHIP IV, CBDCA, oxo-Pt and antitumour inactive trans-DDP. It was found that the action of platinum compounds in equimolar concentration 3.33 microM increases the level of SCEs 1.3 to 6.4-fold. The maximum effect in terms of SCE formation was observed after cis-DDP. Comparison of the incidence of SCEs and chromosomal aberrations in plant cells demonstrated that the tested drugs had a greater effect on SCE formation than on chromosomal aberration induction. Inhibition of mitotic activity correlated with the total cytogenetic damage to chromosomes of Vicia faba cells.