Heterochromatin and chromosomal aberration in microtus agrestis: role of chromosomal association

Mitomycin C (MC) -induced chromatid aberrations among the chromosomes of Microtus agrestis are preferentially localized in the constitutive heterochromatic regions, i.e., major part of the sex chromosomes and the centromeric regions of the autosomes. In the sex chromosomes, intrachanges predominate, while interchanges between the two X chromosomes are very rare. This pattern of distribution of different types of aberrations is interpreted as due to the individual chromocentres that are formed by the two X chromosomes in the interphase.     

Differential response of constitutive and facultative heterochromatin in the manifestation of mitomycin induced chromosome aberrations in Chinese hamster cells in vitro

The distribution of chromatid aberrations induced by mitomycin C among the individual chromosomes of female and male Chinese hamster cells in vitro was studied. The aberrations were found to be non-randomly distributed. Among the autosomes, the chromosomes possessing constitutive heterochromatin were more often involved in aberrations as well as in homologous exchanges. The inactivated X chromosomes in the female cells offer a situation where the short arm is facultatively heterochromatic and the long arm constitutively heterochromatic, thus enabling an analysis of their response for aberration formation. The short arm was seldom found to be involved in the aberration. The long arm of the inactivated X was more often affected (5 to 10 times) than the long arm of the functional X though both are constitutively heterochromatic. The possible role of (a) structure of heterochromatin, (b) the chromocenter formation and their association, (c) allocycly, and (d) the qualitative differences in the DNA of different types of heterochromatin are discussed in relation to the formation of chromatid aberrations.     

Labelling of DNA and differential sister chromatid staining after BrdU treatment in vivo

A method of labelling DNA in vivo with 5-bromodeoxyuridine (BrdU) is described. After 6 h permanent subcutaneous infusion of BrdU in rodents (adult Microtus agrestis, pregnant NMRI-mice), cell nuclei which have undergone DNA synthesis during the BrdU treatment can be differentiated from the nuclei of other cycle stages by means of their altered staining behaviour after Giemsa. 24 h after the BrdU treatment, mitoses from both bone marrow of the adult animals and tissues from the fetuses showed a differential sister chromatid staining. In male M. agrestis, sister chromatid exchanges were most frequently found in the euchromatic part of the X and in the constitutive heterochromatin of both sex chromosomes.     

Incomplete sister chromatid separation of long chromosome arms

Chromosome segregation ensures the equal partitioning of chromosomes at mitosis. However, long chromosome arms may pose a problem for complete sister chromatid separation. In this paper we report on the analysis of cell division in primary cells from field vole Microtus agrestis, a species with 52 chromosomes including two giant sex chromosomes. Dual chromosome painting with probes specific for the X and the Y chromosomes showed that these long chromosomes are prone to mis-segregate, producing DNA bridges between daughter nuclei and micronuclei. Analysis of mitotic cells with incomplete chromatid separation showed that reassembly of the nuclear membrane, deposition of INner CENtromere Protein (INCENP)/Aurora B to the spindle midzone and furrow formation occur while the two groups of daughter chromosomes are still connected by sex chromosome arms. Late cytokinetic processes are not efficiently inhibited by the incomplete segregation as in a significant number of cell divisions cytoplasmic abscission proceeds while Aurora B is at the midbody. Live-cell imaging during late mitotic stages also revealed abnormal cell division with persistent sister chromatid connections. We conclude that late mitotic regulatory events do not monitor incomplete sister chromatid separation of the large X and Y chromosomes of Microtus agrestis, leading to defective segregation of these chromosomes. These findings suggest a limit in chromosome arm length for efficient chromosome transmission through mitosis.Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users.     

DNase I sensitivity in facultative and constitutive heterochromatin

In situ nick translation allows the detection of DNase I sensitive and insensitive regions in fixed mammalian mitotic chromosomes. We have determined the difference in DNase I sensitivity between the active and inactive X chromosomes inMicrotus agrestis (rodent) cells, along both their euchromatic and constitutive heterochromatic regions. In addition, we analysed the DNase I sensitivity of the constitutive heterochromatic regions in mouse chromosomes. InMicrotus agrestis female cells the active X chromosome is sensitive to DNase I along its euchromatic region while the inactive X chromosome is insensitive except for an early replicating region at its distal end. The late replicating constitutive heterochromatic regions, however, in both the active and inactive X chromosome are sensitive to DNase I. In mouse cells on the other hand, the constitutive heterochromatin is insensitive to DNase I both in mitotic chromosomes and interphase nuclei.     

Giant sex chromosomes retained within the Portuguese lineage of the field vole (<Emphasis Type="Italic">Microtus agrestis</Emphasis>)

The field vole (Microtus agrestis) is characterised by extremely large blocks of heterochromatin on both the X and Y chromosome. Some other Microtus also have blocks of heterochromatin on their sex chromosomes but not as extensive and always of independent origin from the heterochromatic expansion found in M. agrestis. Coupled with evidence of geographic variation in large heterochromatic blocks within other species (e.g. in the western hedgehog Erinaceus europaeus), it might be expected that field voles would show substantial variation in size and disposition of the sex chromosome heterochromatin. In fact, only minor variation has been described up to now. Those studies conducted previously were largely on field voles from central and northern Europe. Here, we describe the karyotype of field voles from Portugal, of interest because recent molecular studies have shown field voles from western Iberia to be a separate evolutionary unit that might be considered a cryptic species, distinct from populations further to the east. The two Portuguese field voles (one female, one male) that we examined also had essentially the same karyotype as seen in other field voles, including the giant sex chromosomes, but with small differences in the structure of the Y chromosome from that described previously. The finding that field voles throughout Europe show relatively little variation in their giant sex chromosomes is consistent with molecular data which suggest a recent origin for this complex of species/near-species.     

Deletion und Translokation heterochromatischer Chromosomenabschnitte bei Microtus agrestis

Zusammenfassung In unbehandelten Nierenepithel-und Fibroblastenkulturen von Microtus agrestis wurden Brüche, Deletionen und Translokationen an den heterochromatischen langen Armen von X-und Y-Chromosomen in 2% aller Mitosen eines weiblichen und 3% der Mitosen eines männlichen Tieres gefunden. In tetraploiden Mitosen sind Deletionen häufiger als in diploiden zu finden. Die Deletionen treten sowohl auf dem X₁ und X₂ des Weibchens als auch auf dem X und Y des Männchens auf. Längenmessungen an normalen und deletierten Chromosomen ergaben, daß die bevorzugte Bruchlokalisation beim X-Chromosom am Übergang vom proximalen zum mittleren Drittel der langen Arme liegt, beim Y in der Mitte der langen Arme. Es wurden Translokationen der azentrischen Fragmente auf die langen Arme von X-Chromosomen und Fusion deletierter X-Chromosomen zu dizentrischen Chromosomen beobachtet, jedoch keine Translokation auf euchromatische Chromosomen. Das häufigere Auftreten von ein oder zwei deletierten Chromosomen in tetraploiden Zellen wird durch Fusion zweier diploider (Schwester-) Kerne in zweikernigen Zellen erklärt die durch Mitose ohne nachfolgende Plasmateilung einer diploiden Zelle mit Chromatidbruch oder deletiertem Chromosome entstanden sind.

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Deletion and translocation of heterochromatic chromosome segments of Microtus agrestis

Summary Breaks, deletions and translocations of the heterochromatic long arms of the X and Y chromosomes were found in 2% of all female mitoses and 3% of male mitoses of untreated kidney epithelial cell and fibroblast cultures of Microtus agrestis. Deletions are more frequent in tetraploid than in diploid mitoses. Deletions were found in the X₁ and X₂ of the female as well as in the X and Y of the male. Length measurements of normal and deleted chromosomes showed that the breaks in the X are preferentially located between the proximal and middle third of the long arm, whereas in the Y chromosome they are near the middle of the long arm. Translocations of acentric fragments to the long arms of X chromosomes and fusions of deleted X chromosomes resulting in dicentric chromosomes were also observed, but no translocations to euchromatic chromosomes could be found. The relatively high frequency of one or two deleted chromosomes in tetraploid cells is explained by a fusion of two diploid (sister-) nuclei in binucleated cells resulting from mitosis without cytoplasmic division of diploid cells with a break of a chromatid or a deleted chromosome.

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Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

5-Azadeoxycytidine induced undercondensation in the giant X chromosomes of Microtus agrestis

Fibroblasts of female Microtus agrestis were treated with 5-azadeoxycytidine (5-aza-dCyd) at a final concentration of 10^–5 M during the last 2 h of culture. This cytidine analogue induces distinct undercondensation of the constitutive heterochromatin in the giant X chromosomes. The undercondensed heterochromatic thread exhibits longitudinal segmentation reminiscent of a chromomere pattern. In the late-replicating X chromosome, 5-aza-dCyd also inhibits condensation of the genetically inactivated euchromatin (facultative heterochromatin). The described effects of 5-aza-dCyd on the X chromosome structure appear to be incorporation independent.     

Chromosome homology in the climbing rats,genus tylomys (Rodentia: Cricetidae)

The climbing rats (Tylomys spp.) have diploid numbers of 52 (T. panamensis), 42 (T. nudicaudus), 40 (T. n. gymnurus) and 36 (T. n. villai). Using G-band analysis we found that the variations are mainly of the Bobertsonian type, and practically all changes can be traced. G-banding also revealed that biarmed chromosomes with similar morphology may be composed of different components. Such conclusions were verified also by analysis of the chromosomes of interspecific hybrids. C-band staining showed that the constitutive heterochromatin of Tylomys is mainly located in the centromeric regions and the sex chromosomes, a situation similar to that of Microtus agrestis. In one specimen of T. panamensis, however, an additional terminal heterochromatic segment was found in one member of the large metacentric pair. Our data underline that in mammalian cytotaxonomy studies both C- and G-band (or C- and Q-band) techniques must be applied to gain maximal information.     

Arrangement of spindle apparatus in mitoses of different ploidy

In non-hypotonically treated mitoses from tissue cultures of Microtus agrestis, both the constitutive heterochromatin of the sex chromosomes and the spindle apparatus were stained by the Giemsa C-banding technique. By means of counting the heterochromatic chromosomes, we determined the cell ploidy and studied the number of centrioles and the spindle arrangement of diploid, triploid, tetraploid and octoploid mitoses. Diploid and triploid prophases contained 2 centrioles in most cases, tetraploid prophases 4, binucleate cells with 2 diploid nuclei likewise 4 and binucleate cells with 2 tetraploid nuclei 8 centrioles. Nearly 99% of diploid and triploid metaphases were bipolar. Of the tetraploid metaphases only 45% were bipolar, 29.5% tripolar, 7.5% quadripolar and 18% formed as a parallel mitosis. In all examined binucleate cells that had had an asynchronous DNA synthesis, a multipolar mitosis was found.     

Application of an established diploid Microtus agrestis cell line as a model for the understanding of mammalian heterochromatin

A diploid cell line from a male embryo of Microtus agrestis has been established. The culture techniques and pertinent morphological and molecular characteristics of the cell line are described. The cells have been in culture for 130 passages and maintain a normal diploid karyotype as judged by the standard and G banding chromosome techniques. The two giant sex chromosomes are visualized in interphase as two long heterochromatic fibers and the study of the repetitive DNA content of total chromatin, constitutive heterochromatin and euchromatin yielded similar results to those previously found in this laboratory for liver and brain of the same species. The use of this cell line as a model for the understanding of mammalian heterochromatin and for the localization of the site of integration of oncogenic viruses in a specific chromatin fraction is discussed.     

Simple GA C T A repeats characterize the X chromosomal heterochromatin of Microtus agrestis,European field vole (Rodentia,Cricetidae)

The sex chromosomes of Microtus agrestis are extremely large due to the accumulation of constitutive heterochromatin. We have identified two prominent satellite bands of 2.0 and 2.8 kb in length after HaeIII and HinfI restriction enzyme digestion of genomic DNA, respectively. These satellites are located on the heterochromatic long arm of the X chromosome as shown using Microtus x mouse somatic cell hybrids. By in-gel hybridization with oligonucleotide probes, the organization of the two satellites was studied: among the many copies of the simple tandem tetranucleotide repeat GATA are interspersed rare single GACA tetramers. One of the satellites also harbours related GGAT simple tandem repeats. In situ hybridizations with plasmid-carried or oligonucleotide GA _C ^T A probes show clustered silver grains on the long and short arm of the X chromosome. Interspersion of differently organized (GATA)_n elements is also demonstrable in the autosomal complement and on the Y chromosome. These results are discussed in the context of the evolution of vertebrate sex chromosomes in relation to heterochromatin and simple repetitive DNA sequences.     

Struktur und Position der heterochromatischen Chromosomen in Interphasekernen von Microtus agrestis

Zusammenfassung In Gehirnzellen und Nierenepithelkulturen der Erdmaus, Microtus agrestis, wurden Struktur und Position der Interphasechromozentren untersucht. Die Chromozentren, die von den heterochromatischen Abschnitten der Riesen-Geschlechtschromosomen gebildet werden, erscheinen in Nervenzellen kompakt, in Nierenepithelkulturzellen von unterschiedlichem Kondensationszustand, der vom Zellzyklus unabhängig ist.In Gehirnausstrichen finden sich in 2/3 der Kerne 2 Chromozentren, in 1/3 ein einziges, doppelt großes Chromozentrum, das durch Fusion entstanden ist. Untersuchungen an in Orcein-Essigsäure suspendierten Gehirnzellen zeigen, daß in 88% der Kerne mit fusionierten Chromozentren das Chromozentrum an der Kernmembran, in 12% frei im Kerninneren liegt. In Kernen mit 2 isolierten Chromozentren liegen diese immer an der Kernmembran.Messungen des Abstandes der (in diploiden Kernen) 2 Chromozentren ergeben, daß die Chromozentren 2 Positionen bevorzugen: die Fusion zu einem doppelt großen Chromozentrum und die genau gegenüberliegende Position. Die Verteilung der Abstände deutet auf die Möglichkeit hin, daß sich zumindest die heterochromatischen Chromosomen von einem gewissen Schwellenabstand an somatisch paaren.Eine völlige Übereinstimmung der Position der Chromozentren in Schwesterkernen läßt sich sowohl bei einkernigen getrennten Schwesterzellen als auch in zweikernigen Zellen, die aus einer einkernigen Mutterzelle hervorgegangen sind, beobachten.

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Structure and position of heterochromatic chromosomes in interphase nuclei of Microtus agrestis

Summary Structure and position of chromocenters in interphase nuclei of Microtus agrestis (brain tissue and cultured kidney epithelial cells) were investigated. The chromocenters derived from heterochromatic portions of the very large sex chromosomes appear to be compact in nerve cells and variably condensed in cultured kidney epithelial cells. This variation in condensation is independent of the cell cycle.In smear preparations of brain tissue two thirds of the nuclei contain two chromocenters, whereas one third of the nuclei show one double sized chromocenter, presumably a fusion of two. Suspensions of nerve cells in orcein-acetic acid show that the large fused chromocenters are attached to the nuclear membrane in 88% of the nuclei with one chromocenter. If two isolated chromocenters are present they are always localized adjacent to the nuclear membrane.Measurements of the distance between the two chromocenters show a prevalence of two types of positions: a fusion to a double sized chromocenter and a vis-a-vis position. The frequency distribution of the distances suggest a tendency of somatic pairing of the heterochromatic chromosomes if they come close enough together.In mononucleated sister cells and in sister nuclei of binucleated cells derived from a mononucleated mother cell the position of the chromocenters is identical in the two nuclei.

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Mit dankenswerter Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Studies of multipolar mitoses in euploid tissue cultures

Cultures of kidney epithelium and fibroblasts of 39 specimens of Microtus agrestis were investigated. In all 77 cultures multipolar mitoses were found. They were studied in living state and after pulse labelling with ³H-thymidine. The ploidy of the multipolar mitoses and of their daughter nuclei was determined by measuring the relative Feulgen-DNA content and by counting the predominantly constitutive heterochromatic sex chromosomes. Constitutive heterochromatin was demonstrated by late replication, retarded separation of the chromatids in anaphase, heteropycnosis and by the Giemsa technique of Arrighi and Hsu (1971). The latter stained also the spindle apparatus of mitoses.—In living cells, transformation of multipolar mitoses into bipolar mitoses was observed. The chromosomes of multipolar mitoses are separated into complete genomes; the daughter nuclei can be haploid, diploid, triploid or tetraploid. The chromosomes of haploid and triploid metaphases were studied with the Giemsa banding technique. The banding pattern shows an exact monosomy and trisomy, respectively, for each chromosome. Haploid nuclei are likely to be viable only in multinucleate cells, whereas triploid cells behave like diploid cells during the S period and the mitosis.Dedicated to Prof. Dr. K. Goerttler on the occasion of his 75th birthday.Supported by the Bundesministerium für Bildung und Wissenschaft of the Federal Republic of Germany.     

A developmental study of constitutive heterochromatin in Microtus agrestis

In the vole, Microtus agrestis, the constitutive heterochromatin is largely restricted to the giant sex chromosomes but varies in its degree of condensation in various cell types. In the cleavage embryos and fibroblasts it formed one or two long and extended heterochromatic fibers, in hepatocytes it formed two large and diffuse masses and in neurons, spermatogonia and oogonia it formed two large and compact masses. The basic patterns of all differentiated cells were essentially unchanged throughout development.—At all stages of development and in cells of all types, mitotic nuclei displayed two large heteropycnotic chromosomes in prophase and persistent condensation in telophase. Apposition and delayed separation of chromatids of the giant chromosomes was also observed in metaphase and anaphase, respectively. During the first meiotic prophase of spermatocytes and oocytes, the giant chromosomes were also heteropycnotic.—The results strongly suggest that constitutive heterochromatin is localized in the same chromosomes throughout development and represents a specific entity.     

Formation and division of binucleated cells in kidney cell cultures of microtus agrestis

Summary Epithelial kidney cell cultures of Microtus agrestis contain 10 to 25% binucleated cells. Observations of living cells under the phase contrast microscope showed that binucleated cells can arise by nuclear mitosis without cytoplasmic division. When binucleated cells divide the two nuclei are highly synchronized as they enter mitosis. In mitosis the chromosomes of both nuclei combine to a common metaphase plate leading to polyploid cells. In one case a tripolar spindle was seen after formation of a metaphase by the chromosomes of the two nuclei of a binucleated cell. This tripolar mitosis resulted in one binucleated and one mononucleated cell. The DNA-content (Feulgen photometry) and the distribution of heterochromatic bodies of the nuclei were corresponding to a tetraploid, a triploid and a haploid chromosome set. This suggests the possibility of somatic segregation of complete haploid sets.Supported by the Deutsche Forschungsgemeinschaft.     

Fluorescence banding pattern of the chromosomes of Microtus agrestis with a benzimidazol derivative

Summary The fluorescent banding pattern of the chromosomes of Microtus agrestis following staining with a benzimidazol derivative (Hoechst 33258) has been studied. All chromosomes allow easy identification because of their characteristic longitudinal differentiation. The X chromosomes of both sexes show intense fluorescence of the long arm and of a small proximal segment of the short arm, while the rest of the short arm reveals banding patterns. In the Y chromosome, the very short arm is nonfluorescent and the entire long arm shows bright fluorescence. Examination of the interphase nuclei of cultured fibroblasts suggests that the facultative and the constitutive heterochromatin fluoresce intensely only when strongly condensed. In contrast to some other species, in which heterochromatic chromosomal segments show a characteristic staining behaviour, i.e. either positive or negative, with the fluorochrome benzimidazol derivative, this compound behaves rather indifferently in the case of the heterochromatic contents in Microtus agrestis. The staining effects of the benzimidazol dye have also been compared with the various Giemsa and the Quinacrine staining techniques.

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Zusammenfassung Bei Verwendung des Benzimidazol-Derivat Hoechst 33 258 läßt sich an den Chromosomen von Microtus agrestis ein Fluorescenz-Bandenmuster beobachten, das an den Autosomen eine Identifizierung der einzelnen Elemente ermöglicht. Die X-Chromosomen beider Geschlechter weisen eine starke Fluorescenz des linken Arms und eines kleinen proximalen Segments des kurzen Arms auf, während der übrige kurze Arm ein Bandenmuster zeigt. Am Y-Chromosom ist der gesamte lange Arm hell fluorescierend, sein sehr kleiner kurzer Arm bleibt ungefärbt. Die Untersuchung von Interphasekernen in vitro kultivierter Fibroblasten spricht dafür, daß die Fluorescenz des konstitutiven und fakultativen Heterochromatins überwiegend auf seiner etwas stärkeren Kondensation beruht. Während das Benzimidazol-Derivat bei andren Species das konstitutive Chromatin elektiv entweder durch positive oder durch negative Fluorescenz darstellt, verhält es sich bei Microtus agrestis indifferent.

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Supported by Alexander von Humboldt Foundation.     

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.     

Isolation,fractionation and biochemical analysis of the metaphase chromosomes of Microtus agrestis

A method has been developed for isolating metaphase chromosomes from Microtus agrestis fibroblasts in relatively large quantities with recovery of about 50% of the chromosomes present in the metaphase cells. The method employs pressure homogenisation to release the chromosomes from the cells. The average chemical composition of the Microtus chromosome preparations is 24.6% DNA, 19.9% RNA and 55.5% protein. The isolated chromosomes were fractionated by sedimentation velocity in a density gradient into three size groups in one of which 75–80% of the chromosomes were the large sex-chromosomes. The relative composition of this fraction containing most of the heterochromatin of the cell was DNA: 100, RNA: 59, acid-soluble protein: 54, acid-insoluble protein: 178. — Disc electrophoresis studies revealed no significant difference in the histone patterns between the euchromatic and heterochromatic chromosomes of the three chromosome size-groups. Metaphase chromosomes appear to have a lower lysine-rich histone content than interphase nuclei.