The effect of mycoplasmal contamination of human embryonic lung cell line MRC-5 on the karyotypic variability

Karyotypic variability has been investigated for nonimmortalized human embryonic lung cell line MRC-5, cultivated with Acholeplasma laidlawii strain PG-8 for 15-45 days. The character of cell distribution for chromosome number did not change during this time. In all investigated variants the number of polyploid cells increased considerably with the lengthening of the term after decryoconservation. The number of chromosomal aberrations in 15-45 days contaminated cells increased significantly as compared to the control at the expense of dicentrics (telomeric associations). The number of dicentrics had a tendency to increase with the lengthening of the term of contamination. Thus, in 45 days the number of dicentrics increased twice as much as that in 15 days. The increase of polyploids may be due presumably to the specific character of karyotypic variability in nonimmortalized cell lines with the long-term cultivation. Our present and previous results made it possible to suppose that the formation of dicentrics (telomeric associations) in nonimmortalized "markerless" cell line, following the long-term mycoplasmal contamination, may prove additionally the role played by dicentrics in cell adaptation to in vitro conditions whatever the degree of transformation may be--nonimmortalized line or immortalized nontumorogenic or high tumorogenic lines.     

The influence of Mycoplasma salivarium in the absence and presence of L-arginine on karyotypic variability in cell line of the Indian muntjak skin fibroblasts under long-term cultivation

The influence of Mycoplasma salivarium on the numerical and structural karyotypic variability has been investigated in the "markerless" cell line of the Indian muntjak skin fibroblasts (line M) during long-term cultivation in the absence and presence of L-arginine. Cultivation of the mycoplasmal contaminated cells for 15 and 30 days did not change the character of cell distribution for the chromosome number. In the contaminated cells cultivated for 60 and 75 days, the character of cell distribution for the chromosome number was changed. These changes involved bimodal distribution for the chromosome number due to a significant decrease in the frequency of the cells with the modal number of chromosomes with main structural variant of karyotype (SVK)--2 + 2 + 1 + 1 + 1 and an increase in the frequency of cells with submodal number of chromosomes with main SVK--2 + 2 + 1 + 1. Besides, a significant increase in the frequency of the cells with lower chromosome number was observed in 60 days compared to that in 75 days of cultivation. Cultivation of the contaminated and control cells in the medium with increased concentration of L-arginine during 60 days did not change the numerical parameters relative to the control. Cultivation of the contaminated cells for 60 days followed by addition of L-arginine for 15 days restored the numerical parameters the numerical parameters to the control level. In the contaminated cells the frequency of chromosomal aberrations significantly increased for 30, 60 and 75 days cultivation relative to the control variant. In 30 days, the small but significant increase took place due to increase in the frequency of chromosomal aberrations of all the types. In 60 and 75 days, a greater increase took place due to a significant increase in the frequency of chromosomal and chromatid breaks. Moreover, in 60 days, the level of dicentrics (telomeric associations) mainly produced by chromosomes 1 and 2 increased significantly. The role of dicentrics as one of the ways for adaptation of the "markerless" cell lines to condition of cultivation and the role of L-arginine in the restoration of normal karyotypic structure of cell population of line M under mycoplasmal contamination are discussed.     

The study of quantitative karyotypic variability by induction of chromosomal instability in cultured cells of the Indian muntjac skin fibroblasts

The influence of mycoplasmal contamination and somatic cell hybridization on the character of karyotypic variability in cell cultures of Indian muntjac skin fibroblasts has been investigated. Mycoplasma arginini and Acholeplasma laidlawii, used as factors inducing chromosomal instability, do not break the main regulations peculiar to intact control. They regulations are: 1) nonrandom character of cell distribution according to the number of chromosomal deviations from MSVK; 2) specific character of deviations of each chromosome from MSVK; 3) presence of significant connections between separate chromosomes by simultaneous mainly single directed numeral deviations. However, mycoplasmal contamination promotes the increase in the number of deviations in the direction of a decreasing chromosomes number. There is a breach of some connections between chromosomes by simultaneous deviations. They are chromosomes with broken connections according to the number of deviations which form telomeric associations (dicentrics). The number of these associations excel essentially intact control. The formation of new MSVK in subline M2 cells of the Indian muntjac in the process of chromosomal segregation in cell hybrid (M2 x clone of JF1 rat Jensen sarcoma) depends on the presence of significant connections between chromosomes by simultaneous numerical deviations in direction of MSVK formation. They are chromosomes that take part in the formation of new MSVK which form telomeric associations. These associations can be observed till stabilization of new MSVK. Probably, the support of the balance of karyotypic structure by factors inducing chromosomal instability is connected with change of some connections between chromosomes according to the number by simultaneous deviations as well as with the formation of dicentrics.     

Effect of <Emphasis Type="Italic">Mycoplasma salivarium</Emphasis> with and without L-arginine on karyotypic variability in cell line of Indian muntjac skin fibroblasts at long-term cultivation

The effect of Mycoplasma salivarium on the numerical and structural karyotypic variability was studied in the markerless cell line of Indian muntjac skin fibroblasts (line M) during long-term cultivation with and without L-arginine. The cultivation of mycoplasma-contaminated cells for 15 and 30 days did not change the character of cell distribution for the number of chromosomes. In contaminated cells cultivated for 60 and 75 days, the character of cell distribution for the chromosome number changed. These changes involve bimodal distribution for the chromosome number due to a significant decrease in frequency of the cells with the modal number of chromosomes with the main structural variant of karyotype (SVK) 2 + 2 + 1 + 1 + 1 and an increase in the frequency of cells with the submodal number of chromosomes with a main SVK of 2 + 2 + 1 + 1. Furthermore, a significant increase in the frequency of cells with lower numbers of chromosomes was observed after 60 days compared to that after 75 days of cultivation. After the cultivation of the contaminated and control cells in the medium with an elevated concentration of L-arginine for 60 days, the numerical parameters were unchanged relative to the control. The cultivation of contaminated cells for 60 days followed by the addition of L-arginine for 15 days restored the numerical parameters to the control level. In the contaminated cells, the frequency of chromosomal aberrations for 30, 60, and 75 days increased significantly compared to the control variant. After 30 days of cultivation, a small but statistically significant increase took place due to a uniform slight increase in the frequency of chromosomal aberrations of all types. After 60 and 75 days, a greater increase occurred due to a statistically significant increase in the frequency of chromosomal and chromatid breaks. Moreover, after 60 days, the level of dicentrics (telomeric associations) mainly produced by chromosomes 1 and 2 increased significantly. The role of dicentrics as for a means of adaptation for markerless cell lines to the condition of cultivation and the role of L-arginine in the restoration of the normal karyotypic structure of the line M cell population at mycoplasmal contamination are discussed.     

The effect of immobilized fibronectin on karyotypic variability in the skin fibroblast cell subline of indian muntjac

The numerical and structural karyotypic variability has been investigated in the Indian muntjac skin fibroblast cell subline MT on cultivating cells on the fibronectin-coated surface. In cell subline MT, cultivated on the fibronectin-coated surface for 1 and 2 days, the character of cell distribution for the chromosome number did not change. In 3, 4 and 8 days, the character of cell distribution for the chromosome number changed. These changes involve a significant decrease in frequency of cells with modal numbers of chromosomes, and an increase in frequency of cells with lower chromosome numbers. Many new additional structural variants of the karyotype (SVK) appear. The observed alterations seem to be due to both disturbances of mitotic apparatus and selection of SVK, which are more advantageous to changed culture conditions of the cell population. Detachment of cells from the fibronectin-coated surface, followed by a 1 day cultivation on a hydrophilic surface, commonly used for routine cell cultivation, does not restore the control cell distribution for the chromosome number, but cultivation in these conditions for 5 days restore control distribution. The frequency of chromosomal aberrations on cultivation on the fibronectin-coated surface for 3 and 4 days significantly increases, mainly at the expence of dicentrics (telomeric association). On prolongating the time of cultivation up to 8 days on the fibronectin-coated surface the frequency of chromosomal aberrations approaches the control value. Structural instability of chromosomes at cultivation on the fibronectin-coated surface demonstrates nonspecific reaction of "markerless" cell lines to unfavourable factors of the environment. We discuss possible reasons of differences in the character of karyotypic variability in cell lines of the Indian muntjac skin fibroblasts on cultivating on laminin and fibronectin.     

Effect of immobilized laminin on karyotypic variability in two karyotypically different variants of the indian muntjac skin fibroblast cell line

The numerical and structural karyotypic variability has been investigated in MTs of the markerless cell line of Indian muntjac skin fibroblasts, as well as in its karyotypic variant MT^D cultivated on a laminin 2/4 coated surface. In the MT cell line preincubated in serum-free medium for 2.5 and 1.0 h, then cultivated on a laminin-coated surface in serum-containing medium for one, two, and three days, the character of cell distribution for the chromosome number has changed. These changes involve a significant decrease in the frequency of cells with modal numbers of chromosomes and an increase in frequency of cells with lower chromosome numbers. Some new additional structural variants of the karyotype (SVK) appeared. The observed alterations seem to be due to disturbances of the chromosome segregation and the establishment of a new advantageous balanced karyotypic structure. In the karyotypic variant MT^D differing from MT by an increased number of dicentrics (telomeric associations) cultivated under the same conditions, the character of cell distribution for the chromosome number did not change. In the MT cell line, the frequency of chromosomal aberrations did not change relative to control variants. In the karyotypic variant MT^D under the same conditions, the frequency of chromosomal aberrations significantly increased after three days mainly due to the formation of dicentrics. These results confirm the conclusion that, like aneuploidy, the formation of dicentrics in markerless cell lines appears to be the way in which the cell population adapts to unfavorable environmental factors. Possible reasons for differences in the character of the numerical and structural karyotypic variability between the MT cell line and its karyotypic variant MT^D are discussed.     

SV40 T antigen induced chromosomal changes reflect a process that is both clastogenic and aneuploidogenic and is ongoing throughout neoplastic progression of human fibroblasts.

In human fibroblasts, the expression of SV40 large T antigen is known to cause a variety of chromosomal aberrations and especially dicentric chromosomes. In some cases, the later aberrations have been reported to be reversible telomeric associations. We report here aberration and chromosome number studies of twenty-nine T antigen positive lineages, studied from their initiation by transfection of T antigen sequences into human diploid fibroblasts, until crisis or immortalization occurred or, in some cases until the lines became tumorigenic in nude mice. The data show that T antigen consistently produced chromosomal instability of both number and structure by an active process that began before transformation indicators were positive and continued throughout neoplastic progression. The most frequently observed aberrations were dicentric chromosomes, which were shown to be true dicentrics by examination by in situ hybridization with telomeric sequences. These data are consistent with the hypothesis that T antigen causes human fibroblasts to become neoplastically transformed by successive rounds of chromosomal mutation and lineage evolution.     

Effect of mycoplasma contamination of a human cervical carcinoma cell line M HeLa clone 11 on karyotypic variability

The karyotypic variability has been investigated for an immortalized human epithelioid cervix carcinoma cell line M HeLa clone 11, cultivated for 15-60 days after contamination with Acholeplasma laidlawii A, strain PG-8, and for 30 days after contamination with Mycoplasma arginini R-16. The character of cell distribution for chromosome number changes in contaminated cells significantly, as compared to the control. So, the frequency of cells with the modal number of chromosomes being equal to 50 decreases significantly, and the range of variability in the number of chromosomes increases. With the prolongation of the term of cultivation in control variants up to 60 days the character of cell distribution for chromosomal number changes, as compared to the preceding terms (15 and 30 days), which is expressed in the extended range of variability in the chromosomal number at the expense of decreased frequency of cells with submodal number of chromosomes equal to 49. But the degree of these changes is significantly smaller than in contaminated variants. The frequency of polyploid cells did not differ in all investigated variants. The number of chromosomal aberrations in cultures contaminated with A. laidlawii (for 15-60 days) and M. arginini (for 30 days) does not differ from that in the corresponding controls. The absence of dicentrics (telomeric association) at a long-term contamination of the human epithelioid cervix carcinoma cell line M HeLa clone 11 having marker chromosomes in karyotype and a comparison of these results with the earlier obtained data on other "marker" and "markerless" cell lines seems to confirm the point of view that dicentrics appear a characteristic feature of karyotypic variability of "markerless" cell lines, mainly with a long-term contamination in different conditions.     

Association of telomeric regions of salivary gland chromosomes in Drosophila species of the virilis group]

The frequency of participating salivary gland chromosomes in telomeric associations and specific combinations of associated chromosomes were studied in the following species belonging to "virilis" group of Drosophila: D. virilis, D. texana, D. littoralis Sokolov and D. imeretensis Sokolov. In all species studied predominantly telomeres of two chromosomes form an association. In females of the species mentioned the X-chromosome takes part in association twice as frequent as in males. The total length of the chromosome and the presence of subterminal inversions may sometimes influence the frequency of participating the chromosome in associations. However, the data obtained enable to postulate that internal homology of telomeric regions plays the main role in the process. The equal frequency of participating in telomeric associations for definite chromosomes in species studied may resemble the phylogenetic relation of the species.     

Telomere staining of human chromosomes and the mechanism of radiation-induced dicentric formation

The majority of models of radiation action developed over the past half century hold that the curvilinear dose responses exhibited by eukaryotic cells to sparsely ionizing radiations result from the interaction of pairs of lesions produced in sensitive targets of the cell. Within this conceptual framework, chromosomal exchange aberrations (e.g., interchanges) are believed to occur through the interaction of damaged sites on both chromosomes participating in the exchange. In contrast, the model proposed by Chadwick and Leenhouts (as well as some other models) suggests that such exchanges arise from initial radiation damage to only one chromosome, which then becomes associated with an undamaged chromosome. A particular aspect of this theory is that asymmetrical exchanges, such as dicentrics, may be formed from the rejoining of a broken end of one chromosome to the telomere of another. By using a DNA probe that specifically hybridizes to the telomeric region of human chromosomes, we were able to test this assertion directly. After scanning more than 200 dicentrics produced in normal human fibroblasts by 6 Gy of 60Co gamma rays, virtually none were found that contained telomeres located between the centromeres of this aberration type. Therefore, since the proposed telomere-break rejoining process, per se, is not necessarily a central element of the Chadwick-Leenhouts model, we suggest the theory be modified to exclude this mechanism.     

The effect of culturing conditions on the karyotypic structure of two cell sublines of Indian muntjak skin fibroblasts

The "therapeutic" doses of antibiotics, routinely applied to prevent microbial contamination in cultured cells, decrease the frequency of modal class cells and increase that of cells of other classes in sublines of Indian muntjak skin fibroblasts. In MT-subline, with 9 chromosomes in the modal class, the loss of cells with some large chromosomes occurred almost frequently. In terms of the formula of the karyotype main structural variant, this change is described as (-1-0-1-1). In M-subline, with 7 chromosomes in the modal class, the similar result is mainly achieved due to a decrease in the cell number with Y1-chromosome to be described as (0-0-0-0-1). The study of frequency of deviation from the chromosome number in the MSVK has shown that in the MT-subline, rather than in the M-subline, different chromosomes are incidentally involved in the karyotypic rearrangement. In both the sublines antibiotics induced chromosomal aberrations, primarily increasing the number of dicentrics. Preferential involvement of some chromosomes in the dicentric formation was observed. Cytogenetical parameters are more affected by antibiotics in the MT-subline. The data obtained indicate that even low concentrations of antibiotics may induce karyotypic changes in cells cultures.     

Dicentric chromosomes and the inactivation of the centromere

Summary The origin and behavior of human dicentric chromosomes are reviewed. Most dicentrics between two non-homologous or two homologous chromosomes (isodicentrics), which are permanent members of a chromosome complement, probably originate from segregation of an adjacent quadriradial; such configurations are the result of a chromatid translocation between two nonhomologous chromosomes, or they represent an adjacent counterpart of a mitotic chiasma. The segregation of such a quadriradial may also give rise to a cell line monosomic for the chromosome concerned (e.g., a 45,X line). Contrary to the generally held opinion, isodicentrics rarely result from an isolocal break in two chromatids followed by rejoining of sister chromatids. In this case the daughter centromeres go to opposite poles in the next anaphase, and the resulting bridge breaks at a random point. This mechanism, therefore, leads to the formation of an isodicentric chromosome only if the two centromeres are close together, or if one centromere is immediately inactivated. Observations on the origin of dicentrics in Bloom syndrome support these conclusions. One centromere is permanently inactivated in most dicentric chromosomes, and even when the dicentric breaks into two chromosomes, the centromere is not reactivated. The appearance and behavior of the acentric X chromosomes show that their centromeres are similarly inactivated and not prematurely divided. Two Bloom syndrome lymphocytes, one with an extra chromosome 2 and the other with an extra chromosome 7, each having an inactivated centromere, show that this can also happen in monocentric autosomes.     

Time course study of the chromosome-type breakage-fusion-bridge cycle in maize.

The B chromosome of maize has been used in a study of dicentric chromosomes. TB-9Sb is a translocation between the B and chromosome 9. The B-9 of TB-9Sb carries 60% of the short arm of 9. For construction of dicentrics, a modified B-9 chromosome was used, B-9-Dp9. It consists of the B-9 chromosome plus a duplicated 9S region attached to the distal end. In meiosis, fold-back pairing and crossing over in the duplicated region gives a chromatid-type dicentric B-9 that subsequently initiates a chromatid-type breakage-fusion-bridge cycle. In the male, it forms a single bridge in anaphase II of meiosis and at the first pollen mitosis. However, the cycle is interrupted by nondisjunction of the B centromere at the second pollen mitosis, which sends the B-9 dicentric to one pole and converts it from a chromatid dicentric to a chromosome dicentric. As expected, the new dicentric undergoes the chromosome-type breakage-fusion-bridge cycle and produces double bridges. A large number of plants with chromosome dicentrics were produced in this way. The presence of double bridges in the root cells of plants with a chromosome dicentric was studied during the first 10 wk of development. It was found that the number of plants and cells showing double bridges declined steadily over the 10-wk period. Several lines of evidence indicate that there was no specific developmental time for dicentric loss. "Healing" of broken chromosomes produced by dicentric breakage accounted for much of the dicentric loss. Healing produced a wide range of derived B-9 chromosomes, some large and some small. A group of minichromosomes found in these experiments probably represents the small end of the scale for B-9 derivatives.     

Effect of laminin on structural karyotype variability of kangaroo rat kidney cell lines

The structural karyotypic variability has been investigated in the "markerless" epithelial-like Rat kangaroo kidney cell lines NBL-3-17 and NBL-3-11 on cultivation on a laminin-2/4 coated surface. In cell line NBL-3-17, cultivated on the laminin-coated surface for 2, 4 and 12 days, and in cell line NBL-3-11, cultivated on the laminin-coated surface for 2 and 4 days, there is a significant increase in the frequency of chromosomal aberrations, both chromosomal breaks and dicentrics (telomeric associations). Different sensitivity of individual chromosomes to inducing chromosomal breaks was observed in addition to a preferential involvement of some chromosomes in dicentric formation. Structural instability of chromosomes at cultivation on laminin demonstrates nonspecific reaction of the "markerless" cell lines to unfavourable factors of the environment. We discuss possible reasons of differences in the character of karyotypic variability between a cell line of the Indian muntjac skin fibroblasts and epithelial-like Rat kangaroo kidney cell lines cultivated on laminin.     

Delayed disruption of the telomeric links between chromosomes in experimentally induced cells with micronuclei exposed to 5-bromodeoxyuridine in the 1st S period after colcemid administration

Under a long-term administration of colcemid in the Chinese hamster cell culture some cells with micronuclei are seen to form. In the case of co-treatment with colcemid and 5-bromodeoxyuridine (5-BrdU) at metaphases of the first division of cells with micronuclei polycentric chromosomes were observed. These polycentric chromosomes occur due to delayed disruption of telomeric links, previously existing in the interphase. During colcemid treatment the cells pass through two S-periods: one in mononuclear cells, the other in cells with micronuclei. This phenomenon was tested according to the frequency of metaphases with dicentrics after 5-BrdU-treatment of cells at the first or second S-period or during the two cycles of chromosome replication. The 5-BrdU treatment during the first cycle or two cycles of replication resulted in the same frequency of cells with dicentrics--about 50%. The treatment with colcemid alone during two cycles of replication and administration 5-BrdU at the second S-period results in a considerably lower amount (%) of cells with dicentrics--about 10%. Thus, the delayed disruption of telomeric links between chromosomes may occur under the treatment with 5-BrdU at the first S-period after colcemid administration. It is also concluded that this phenomenon can be reproduced in cell with micronuclei when 5-BrdU is incorporated differentially in the sister chromatids.     

Diagrammatic representation for chromosomal mutagenesis studies. II. Radiation-induced rearrangements in Macaca fascicularis

A qualitative study is presented of chromosomal rearrangements induced in peripheral blood lymphocytes of Macaca fascicularis, after exposure to gamma-irradiation at 2 Gy and 3 Gy. The use of a new diagrammatic representation allowed us to compare, for each type of rearrangement, the distribution of the observed break-points with the theoretical random distribution. It was concluded that chromosomal mutagenesis does not occur at random: an excess of involvement of small chromosomes is found for dicentrics and reciprocal translocations; an excess of telomeric breaks exists in dicentrics and paracentric inversions. In our sample of 27 pericentric inversions, the larger chromosomes are too frequently involved, 2 different inversions are observed at least twice and 7 (or 8) reproduce chromosomes of other primates.     

The effect of hyper- and hypothermia on induced telomeric chromosome fusion]

After administration of colcemid and 5-BrdU in the cell culture, the cells pass through the first interphase to delay in mitosis. Then the cells overcome the colcemid blockade, and polykaryocytes with micronuclei are formed. The second interphase in followed by the second mitosis, during which dicentric chromosomes are observed. These dicentrics are the result of telomeric chromosome fusion. The action of hyperthermia (40 degrees C) during the whole period of colcemid and 5-BrdU treatment or that of the hyperthermia (40 degrees C) only during the first 17 hours (the first interphase and the first mitosis) lead to the increased frequency of dicentrics. Under condition of hypothermia (34 degrees C) the frequency of dicentric formation decreases. Changes in cultivation temperature during the latest 25 hr of colcemid and 5-BrdU action (the second interphase and the second mitosis) exert no influence on the dicentric formation frequency. Because there are no dicentrics in cells during the metaphase of the first mitosis, it is supposed that the temperature--sensitive period may be the latest steps of colcemid blockade, i.e. the period of formation of micronuclei.     

Indirect immunofluorescence of inactive centromeres as indicator of centromeric function

Summary Two previous single case reports from the literature showed the presence or absence of centromeric antigens at the site of the inactive centromeres in one (X;X) and in one (9;11) dicentric chromosome. We studied nine different dicentric chromosomes using anticentromeric antibodies and immunofluorescence techniques. In the four autosomal dicentrics the inactive centromere was consistently positive while the dicentrics composed of two X chromosomes were either positive or negative; one case of (X;Y) dicentric was negative. The results indicate that the X chromosome mode of replication may be involved in the suppression of immunofluorescence at the site of the inactive centromere and that one centromere of the dicentric chromosome may lose its function but conserve some of its antigenic properties. This indicates that not all these antigens play a rôle in the microtubules-centromere interaction.     

Telomeric signals in robertsonian fusion and fission chromosomes: implications for the origin of pseudoaneuploidy.

In situ hybridization with synthetic plant telomeric sequences resulted in labeling of all broad bean (Vicia faba) chromosomes at their ends only. Telocentric chromosomes derived by fission of the metacentric satellite chromosome of V. faba also showed signals at both of their ends, whereas the ancestral metacentric did not display signals at its primary constriction, the point of fission. As in V. faba, all acrocentric mouse chromosomes were labeled by in situ hybridization with a vertebrate telomeric probe at both ends of each chromatid exclusively. However, different metacentric Robertsonian chromosomes derived by fusion of defined acrocentrics did not show signals at their primary constrictions. The mechanism of Robertsonian rearrangement leading to a pseudoaneuploid increase or decrease in chromosome number therefore cannot consist solely of a simple fission or fusion of chromosomes without a concomitant gain or loss of chromatin material. The additional assumption of a subdetectable deletion of telomeric sequences after fusion and amplification of these sequences following fission is necessary to explain the present observations.     

Chromosome aberrations induced in human lymphocytes by 3.45 MeV alpha particles analyzed by premature chromosome condensation.

Premature chromosome condensation (PCC) experiments using human lymphocytes with centromere staining have shown that after exposure to 3.45 MeV alpha-particle radiation, the full number of dicentric chromosomes appears when the cell fusion protocol is applied immediately after irradiation. In this case, the time available for repair and misrepair of DNA damage is only about 30 min. The number of dicentrics does not change with a further increase in the time available for chromatin rearrangement. This fast response confirms the expectation based on our previous experiments using PCC with 150 kV X rays in which the alpha component of the yield of dicentrics was found to appear when the cell fusion protocol was applied immediately after irradiation, whereas the beta component was delayed by several hours. The time constant for rejoining of the excess acentric chromosome fragments is found to be donor-specific and not to differ for alpha particles and X rays, but alpha-particle radiation leaves a larger fraction of the excess acentric fragments unrejoined. The RBEs of the 3.45 MeV alpha-particle radiation compared to 150 kV X rays, evaluated for the alpha component for the yield of dicentrics and for the yield of unrepaired acentric fragments, have almost equal values of about 4. This is consistent with data in the literature on chromosome aberrations observed in metaphase that show the equality of the RBE values for production of dicentrics and acentric fragments. Our experimental results concerning the fast kinetics of the alpha component of the yield of exchange-type chromosome aberrations are not consistent with Lea's pairwise lesion interaction model, and they support the proposed alternative mechanism of lesion-nonlesion interaction between chromatin regions carrying clustered DNA damage and intact chromatin regions.