DNA breakage detection-fish (DBD-FISH): effect of unwinding time

DBD-FISH is a new procedure that allows detection and quantification of DNA breakage in situ within specific DNA target sites. Cells embedded in an agarose matrix on a slide are treated in an alkaline unwinding solution to transform DNA breaks into single-stranded DNA (ssDNA). After removal of proteins, DNA probes are hybridized and detected. DNA breaks increase the ssDNA and relax supercoiling of DNA loops, so more probe hybridizes, thereby increasing the surface area and fluorescence intensity of the FISH signal. The probe selects the chromatin area to be analysed.In order to restrict the extension of unwound ssDNA to a region closer to the origin of the DNA break, human leukocytes were processed for DBD-FISH with a whole genome probe, after a 10 Gy dose of X-rays, for various unwinding times: 5, 2 min and 30s. Two cell populations were detected after 30s, but not with the 5 or 2 min unwinding times. One cell group had small to medium haloes corresponding to the relaxation of DNA supercoiling after DAPI staining, and strong DBD-FISH labelling of induced DNA breaks, whereas the other cell group showed big haloes of DNA loop unfolding and an absence of DBD-FISH labelling. The latter group was similar to cells processed by DBD-FISH without the unwinding step. Thus, they should correspond to cells unaffected by the alkaline unwinding solution, possibly because very brief unwinding times do not allow the diffusion of the alkali into the cells deep within the gel, thus biasing the results. Taking this into account, 2 min seems to be the minimum unwinding time required for an accurate detection of a signal by DBD-FISH.     

DBD-fish on neutral comets: simultaneous analysis of DNA single- and double-strand breaks in individual cells

Humanblood leukocytes exposed to X-rays were immersed in an agarose microgel on a slide, extensively deproteinized, and electrophoresed under neutral conditions. Following this single-cell gel electrophoresis assay, characteristics of DNA migration (i.e., area of the comet) are related to the DNA double-strand breaks (dsbs) yield. After electrophoresis, comets were briefly incubated in an alkaline unwinding solution, transforming DNA breaks and alkali-labile sites into restricted single-stranded DNA (ssDNA) motifs. These motifs behave as target sites for hybridization with a whole genome probe, following the DNA breakage detection-fluorescence in situ hybridization (DBD-FISH) procedure. As DNA breakage increases with dose, more ssDNA is produced in the comet by the alkali and more DNA probe hybridizes, resulting in an increase in the mean fluorescence intensity. Since radiation-induced DNA single-strand breaks (ssbs) are far more frequent than dsbs, the mean fluorescence intensity of the DBD-FISH signal from the comet is related to the ssb level, whereas the surface area of the same comet signal is indicative of the dsb yield. Thus, both DNA break types may be simultaneously analyzed in the same cell. This was confirmed in a repair assay performing the DBD-FISH on neutral comets from a human cell line defective in the repair of dsbs. Otherwise, treatment with hydrogen peroxide, a main inducer of ssbs, increased the mean fluorescence intensity, but not the surface, of X-ray-exposed human leukocytes.     

Interstitial telomeric sequence blocks in constitutive pericentromeric heterochromatin from Pyrgomorpha conica (Orthoptera) are enriched in constitutive alkali-labile sites

The long interstitial telomeric repeat sequence (ITRS) blocks located in the pericentromeric chromosomal regions of most of Chinese hamster chromosomes behave as hot spots for spontaneous and induced chromosome breakage and recombination. The DBD-FISH (DNA breakage detection-fluorescence in situ hybridization) procedure demonstrated that these ITRS are extremely sensitive to alkaline unwinding, being enriched in constitutive alkali-labile sites (ALS). To determine whether this chromatin modification occurs in other genomes with large ITRS that are not phylogenetically related to mammalian species, the grasshopper Pyrgomorpha conica was analyzed. We chose this species because, with conventional FISH, their chromosomes yield extremely small telomeric signals when probed with the (TTAGG)n polynucleotide, but large ITRS blocks as part of their pericentromeric constitutive heterochromatin. A high density of constitutive ALS was evidenced in the ITRS when intact meiotic cells or somatic cells were subjected to the DBD-FISH technique and probed with the specific telomeric DNA. DBD-FISH with simultaneous hybridization using telomeric and whole genome DNA probes showed that the ITRS tend to colocalize with areas of stronger signal from the whole genome probe. Nevertheless, the signal from the whole genome was more widespread than that from the ITRS, thus providing evidence that a high frequency of constitutive ALS was present in more than one DNA sequence type. Furthermore, stretched DNA fibers processed with DBD-FISH, revealed a distribution of telomeric sequences alternating interspersed with other possible highly repetitive DNA sequences. The abundance of ALS varied from one meiotic stage to another. Interestingly, most of the breakage and meiotic recombination in males takes place close to the constitutive heterochromatin, particularly enriched in ALS. These results provide further evidence of a particular, and possible universal, chromatin structure enriched in constitutive ALS at constitutive heterochromatic regions.     

Evaluation of oxidative DNA damage in pigeon erythrocytes using DNA breakage detection-fluorescence in situ hybridization (DBD-FISH)

ABSTRACT

DNA breakage detection-fluorescence in situ hybridization (DBD-FISH) enables detection and quantification of DNA breakage in the entire genome or within specific DNA sequences in single cells. We used this method to visualize and evaluate DNA damage in pigeon erythrocytes that were induced by elevated temperature and hydrogen peroxide. We also examined morphological changes in the cell nuclei. DBD-FISH demonstrated a significant increase of DNA damage in a temperature dependent manner, which resulted in nuclear abnormalities associated with apoptotic cells. These cells gave strong nuclear fluorescent signals that indicated cell death.     

Evidence of abundant constitutive alkali-labile sites in human 5 bp classical satellite DNA loci by DBD-FISH

Human blood leukocytes within an agarose matrix were deproteinized and exposed to an alkaline denaturation that generates single-stranded DNA (ssDNA) starting from the ends of spontaneous basal DNA breaks and alkali-labile sites. Since the amount of ssDNA produced within a specific sequence area may be detected by hybridization with a specific probe, we quantified this in situ in different satellite DNA loci (DBD-FISH: DNA Breakage Detection FISH). The DBD-FISH signal, corrected for the respective FISH signals in metaphase, was remarkably strong in the 5bp classical satellite DNA domains analyzed (D1Z1, D9Z3, DYZ1), intermediate in the classical satellite 1 DNA sequences, and low in the alphoid satellite regions (D1Z5, DXZ1, all centromeres). This result is evidence of a high density of constitutive alkali-labile sites, probably abasic sites, within the 5bp satellite DNA sequences in human blood leukocytes. The presence and relative abundance of alkali-labile sites could explain the high frequency of spontaneous breakage and rearrangements in pericentromeric heterochromatin of chromosomes 1, 9, and 16, but not in Yqh, when this chromatin is undercondensed through spontaneous or induced demethylation, i.e. ICF syndrome or 5-azacytidine treatment.     

A new method to analyze boar sperm DNA fragmentation under bright-field or fluorescence microscopy

We present a new, rapid and simple method to study DNA Fragmentation Index (DFI) in sperm samples from boar under bright-field and fluorescence microscopy. Discrimination of sperm cells containing fragmented DNA relies on the extreme peripheral diffusion of their chromatin fragments, whereas those sperm nuclei without DNA fragmentation do not disperse or show very restricted spreading of DNA loops close to the flagellum. The basic methodology provided in the commercial kit Sperm-Sus-Halomax allows, in addition to a direct estimation of DFI in a sperm sample under bright field microscopy, a direct visualization of DNA breaks by incorporation of labelled nucleotides using the DNA polymerase I following the in situ nick translation assay (ISNT methodology not provided in the kit). An external control using DBD-FISH (DNA breakage detection-fluorescence in situ hybridization) on human and boar sperm samples was used in this experiment. The results obtained show (i) low levels of background DNA fragmentation (from 0.7 to 10%), (ii) no significant differences for DFI after the application of Sperm-Sus-Halomax and ISNT, with a tendency to be underestimated after using DBD-FISH and (iii) a characteristic chromatin organization in boar sperm nucleus, with a particular response to chromatin loop relaxation and preferential DNA labelling by ISNT at the proximal nuclear area, close to the flagellum. This methodology allows the routine assessment of boar sperm samples for DFI, as well as basic and clinical research on this relevant topic in any laboratory of semen analysis.     

Radiation-induced DNA breaks in different human satellite DNA sequence areas,analyzed by DNA breakage detection-fluorescence in situ hybridization

Human blood leukocytes were exposed to X rays to analyze the initial level of DNA breakage induced within different satellite DNA sequence areas and telomeres, using the DNA breakage detection-FISH procedure. The satellite DNA families analyzed comprised alphoid sequences, satellite 1, and 5-bp classical satellite DNA sequences from chromosome 1 (D1Z1 locus), from chromosome 9 (D9Z3 locus), and from the Y chromosome (DYZ1 locus). Since the control hybridization signal was quite different in each of the DNA targets, the relative increase in whole fluorescence intensity with respect to unirradiated controls was the parameter used for comparison. Irradiation of nucleoids obtained after protein removal demonstrated that the alkaline unwinding solution generates around half the amount of signal when breaks are present in the 5-bp classical DNA satellites as when the same numbers of breaks are present the genome overall, whereas the signal is slightly stronger when the breaks are within the alphoids or satellite 1 sequences. After correction for differences in sensitivity to the alkaline unwinding-renaturation, DNA housed in chromatin corresponding to 5-bp classical satellites proved to be more sensitive to breakage than the overall genome, whereas DNA in the chromatin corresponding to alphoids or satellite 1 showed a sensitivity similar to that of the whole genome. The minimum detectable dose was 0.1 Gy for the whole genome, 0.2 Gy for alphoids and satellite 1, and 0.4 Gy for the 5-bp classical satellites. Telomeric DNA sequences appeared to be maximally labeled in unirradiated cells. Thus telomeric ends behave like DNA breaks, constituting a source of background in alkaline unwinding assays.     

Rapid and simultaneous detection of chromosome Y- and 1-bearing porcine spermatozoa by fluorescence in situ hybridization

This study was carried out to develop a rapid and simultaneous detection system of chromosome Y- and 1-bearing porcine spermatozoa by fluorescence in situ hybridization (FISH). Chromosome Y- and 1-specific DNA probes were produced by polymerase chain reaction with digoxigenin (Dig)- or biotin-dUTP. The hybridization probe mixture of labeled Y-chromosome and chromosome 1-specific DNA was applied to the preparation, immediately denatured at 75°C for 8 min, hybridized for 5 min at 37°C and overall FISH steps were done within a few hours. When double FISH with Dig-labeled chromosome Y-specific and biotin-labeled chromosome 1-specific probes was applied to sperm nuclei pretreated with dithiothreitol, the average of 50.9% of sperm nuclei had the Dig-signal, 99.2% of the sperm nuclei had the biotin-signal and the average of 0.3% of sperm nuclei showed no signal. The putative rate of Y-bearing spermatozoa ranged from 49.8% to 52.8% among 5 boars and the average putative rate of Y-bearing spermatozoa was 51.0%. The results indicated that a rapid and simultaneous FISH with chromosome Y- and 1-specific porcine DNA probes produced by PCR made possible more accurate assessment of Y-bearing porcine spermatozoa. © 1996 Wiley-Liss, Inc.     

An approach for quantitative assessment of fluorescence in situ hybridization (FISH) signals for applied human molecular cytogenetics.

A number of applied molecular cytogenetic studies require the quantitative assessment of fluorescence in situ hybridization (FISH) signals (for example, interphase FISH analysis of aneuploidy by chromosome enumeration DNA probes; analysis of somatic pairing of homologous chromosomes in interphase nuclei; identification of chromosomal heteromorphism after FISH with satellite DNA probes for differentiation of parental origin of homologous chromosome, etc.). We have performed a pilot study to develop a simple technique for quantitative assessment of FISH signals by means of the digital capturing of microscopic images and the intensity measuring of hybridization signals using Scion Image software, commonly used for quantification of electrophoresis gels. We have tested this approach by quantitative analysis of FISH signals after application of chromosome-specific DNA probes for aneuploidy scoring in interphase nuclei in cells of different human tissues. This approach allowed us to exclude or confirm a low-level mosaic form of aneuploidy by quantification of FISH signals (for example, discrimination of pseudo-monosomy and artifact signals due to over-position of hybridization signals). Quantification of FISH signals was also used for analysis of somatic pairing of homologous chromosomes in nuclei of postmortem brain tissues after FISH with "classical" satellite DNA probes for chromosomes 1, 9, and 16. This approach has shown a relatively high efficiency for the quantitative registration of chromosomal heteromorphism due to variations of centromeric alphoid DNA in homologous parental chromosomes. We propose this approach to be efficient and to be considered as a useful tool in addition to visual FISH signal analysis for applied molecular cytogenetic studies.     

莲C0t-1 DNA的荧光原位杂交分析

为分析中国莲Cot-1DNA在其中期染色体上的分布,从中国莲基因组DNA中分离出Cot-1DNA,将基因组和所分离的Cot-1DNA用生物素标记后作探针,对中国莲染色体进行原位杂交。杂交结果用耦联有荧光素Cy3的生物素抗体检测,发现在每对染色体上均显示出特定的荧光原位杂交带。同时分析了FISH和GISH信号分布的异同。基于Cot-1DNA荧光原位杂交带型及染色体型,构建了中国莲核型。     

DNA breakage detection-fluorescence in situ hybridization in buccal cells

DNA breakage detection-fluorescence in situ hybridization (DBD-FISH) is a recently developed technique that allows cell-by-cell detection and quantification of DNA breakage in the whole genome or within specific DNA sequences. The present investigation was conducted to adapt the methodology of DBD-FISH to the visualization and evaluation of DNA damage in buccal epithelial cells. DBD-FISH revealed that DNA damage increased significantly according to H₂O₂ concentration (r²=0.91). In conclusion, the DBD-FISH technique is easy to apply in buccal cells and provides prompt results that are easy to interpret. Future studies are needed to investigate the potential applicability of a buccal cell DBD-FISH model to human biomonitoring and nutritional work.Key words: DNA damage, buccal cell, DNA breakage detection/fluorescence in situ hybridization.     

莲C_0t-1 DNA的荧光原位杂交分析

为分析中国莲C_0t-1 DNA在其中期染色体上的分布,从中国莲基因组DNA中分离出C_0t-1 DNA,将基因组和所分离的C_0t-1 DNA用生物素标记后作探针,对中国莲染色体进行原位杂交。杂交结果用耦联有荧光素Cy3的生物素抗体检测,发现在每对染色体上均显示出特定的荧光原位杂交带。同时分析了FISH和GISH信号分布的异同。基于C_0t-1 DNA荧光原位杂交带型及染色体型,构建了中国莲核型。     

Exposure to acrylonitrile induced DNA strand breakage and sex chromosome aneuploidy in human spermatozoa

To explore acrylonitrile (ACN)-induced DNA strand breakage and sex chromosome aneuploidy in human spermatozoa, semen parameters were examined among 30 acrylonitrile-exposed workers according to WHO laboratory manual for the examination of human sperm. DNA strand breakage of sperm cells was investigated among 30 ACN-exposed workers using single cell gel electrophoresis (SCGE). The frequency of sex chromosome aneuploidy in sperm cells was analyzed among nine ACN-exposed workers using fluorescence in situ hybridization (FISH). The geometrical mean of sperm density was 75 x 10(6)ml(-1) in exposure group, significantly lower than 140 x 10(6)ml(-1) in the control. The geometrical mean of sperm number per ejaculum was 205 x 10(6) in exposure group, significantly lower than 280 x 10(6) in the control. The rates of comet sperm nuclei were 28.7% in exposure group, significantly higher than 15.0% in the control. Mean tail length was 9.8 microm in exposure group, longer than 4.3 microm in the control. The frequency of sex chromosome disomy was 0.69% in exposure group, significantly higher than 0.35% in the control. XY-bearing sperm was the most common sex chromosome disomy, with an average rate of 0.37% in exposure group, and 0.20% in the control. XX- and YY-bearing sperm accounted for an additional 0.09 and 0.23% in exposure group, and 0.05 and 0.10% in the control. The results indicate that ACN affect semen quality among ACN-exposed workers. ACN or its metabolites could induce reproductive defects as an in vivo multipotent genotoxic agent by inducing DNA strand breakage and sex chromosome non-disjunction in spermatogenesis.     

Aneuploidy detection in human sperm nuclei using fluorescence in situ hybridization

Fluorescence in situ hybridization (FISH) was performed on human interphase sperm nuclei to determine the utility of this technique for aneuploidy detection. Repetitive DNA sequences specific for chromosomes 1, 12 and X were biotinylated and hybridized with mature sperm, which had been treated with cetyltrimethylammonium bromide and dithiothreitol to render them accessible to the probes. Detection of bound probe was accomplished with fluoresceinated avidin and antiavidin. For each of the chromosomes studied, chromosome number was determined by counting the fluorescent signals, representing hybridized regions, within the sperm nuclei. The frequencies for disomy, that is for nuclei containing two signals, for chromosomes 1, 12 and X were 0.06%, 0.04% and 0.03%, respectively. The congruence of these results with those determined by the cross-species hamster oocyte-human sperm assay, and the high efficiency of hybridization indicate that FISH is a sensitive and reliable tool for aneuploidy detection in human sperm.     

荧光原位杂交探针应用于平衡易位t（1，6）（q42；p23）胚胎植入前诊断的研究

背景：染色体相互易位在人群中比较常见,下一代常常产生相同或不同的易位,易导致容易流产,而植入前诊断方法之一的CGH难以检测到相互易位,因此原位杂交（FISH）依然是解决诊断相互易位的有力手段。目的：通过设计个体化的FISH探针,制备探针,并在卵裂球单细胞水平进一步验证探针的准确性,为筛选正常核型的囊胚进行植入奠定技术基础,为个体化的FISH探针植入前诊断提供应用研究基础。方法：通过设计1 q和6p平衡易位探针,进行探针标记,再采用患者和正常人核型验证探针质量,通过荧光原位杂交技术进一步检测正常人受精后的卵裂球中1q 和6p平衡易位对易位染色体状态。结果：3个卵接球裂均呈现单个完整细胞核,荧光原位杂交中各细胞核均有清晰明亮的杂交信号。信号数分别为2。均为正常胚胎,可以考虑进一步对该易位患者进行卵裂球进行诊断,上述研究对个体化的易位探针的应用研究提供了研究基础。     

Yeast Pif1 Helicase Exhibits a One-base-pair Stepping Mechanism for Unwinding Duplex DNA

Kinetic analysis of the DNA unwinding and translocation activities of helicases is necessary for characterization of the biochemical mechanism(s) for this class of enzymes. Saccharomyces cerevisiae Pif1 helicase was characterized using presteady state kinetics to determine rates of DNA unwinding, displacement of streptavidin from biotinylated DNA, translocation on single-stranded DNA (ssDNA), and ATP hydrolysis activities. Unwinding of substrates containing varying duplex lengths was fit globally to a model for stepwise unwinding and resulted in an unwinding rate of ∼75 bp/s and a kinetic step size of 1 base pair. Pif1 is capable of displacing streptavidin from biotinylated oligonucleotides with a linear increase in the rates as the length of the oligonucleotides increased. The rate of translocation on ssDNA was determined by measuring dissociation from varying lengths of ssDNA and is essentially the same as the rate of unwinding of dsDNA, making Pif1 an active helicase. The ATPase activity of Pif1 on ssDNA was determined using fluorescently labeled phosphate-binding protein to measure the rate of phosphate release. The quantity of phosphate released corresponds to a chemical efficiency of 0.84 ATP/nucleotides translocated. Hence, when all of the kinetic data are considered, Pif1 appears to move along DNA in single nucleotide or base pair steps, powered by hydrolysis of 1 molecule of ATP.     

Laser scanning confocal microscopy and quantitative microscopy with a charge coupled device camera improve detection of human papillomavirus DNA revealed by fluorescence in situ hybridization

Epithelial cervical CaSki, SiHa and HeLa cells containing respectively 600 copies of human papillomavirus (HPV) DNA type 16, 1–2 copies of HPV DNA type 16 and 10–50 copies of HPV DNA type 18 were used as model to detect different quantities of integrated HPV genome. The HPV DNA was identified on cell deposits with specific biotinylated DNA probes either by enzymatic in situ hybridization (EISH) or fluorescence in situ hybridization (FISH) involving successively a rabbit anti-biotin antibody, a biotinylated goat anti-rabbit antibody and streptavidin-alkaline phosphatase complex or streptavidin-fluorescein isothiocyanate complex. With brightfield microscopy and EISH, hybridization spots were observed in CaSki and HeLa cells but hardly any in SiHa cells. With fluorescence microscopy and FISH, hybridization spots were clearly seen only on CaSki cell nuclei. In an attempt to improve the detection of low quantities of HPV DNA signals revealed by FISH, laser scanning confocal microscopy (LSCM) and quantitative microscopy with an intensified charge coupled device (CCD) camera were used. With both LSCM and quantitative microscopy, as few as 1–2 copies of HPV DNA were detected and found to be confined to cell nuclei counterstained with propidium iodide. Under Nomarski phase contrast, a good preservation of the cell structure was observed. With quantitative microscopy, differences in the number, size, total area and integrated fluorescence intensity of hybridization spots per nucleus were revealed between CaSki, SiHa and HeLa cells. Considered altogether our results shows that in situ hybridization is a powerful technique to detect small amounts of nucleic acid sequences but the choice of the technique for cell examination is important. Single genes of HPV were visualized most efficiently by association of FISH with LSCM or quantitative microscopy with an intensified CCD camera.     

Application of IGF2-specific identifier probe for cytogenetic study of somatic and sperm cells in horses

The development of molecular techniques with fluorochromes has had an invaluable impact on discovering the nature of chromatin structure. Here, we show the application of a locus specific identifier probe (LSI) for precise and selective visualization of the horse IGF2 gene in the metaphase, interphase nuclei and sperm cells. Our study may be helpful for interpretation of results of interphase fluorescence in situ hybridization (I-FISH). We analyze and discuss the variation in the number and localization of FISH signals in somatic and sperm cells of horse.     

Fluorescence intensity profiles of in situ hybridization signals depict genome architecture within human interphase nuclei

An approach towards construction of two-dimensional (2D) and three-dimensional (3D) profiles of interphase chromatin architecture by quantification of fluorescence in situ hybridization (FISH) signal intensity is proposed. The technique was applied for analysis of signal intensity and distribution within interphase nuclei of somatic cells in different human tissues. Whole genomic DNA, fraction of repeated DNA sequences (Cot 1) and cloned satellite DNA were used as probes for FISH. The 2D and 3D fluorescence intensity profiles were able to depict FISH signal associations and somatic chromosome pairing. Furthermore, it allowed the detection of replicating signal patterns, the assessment of hybridization efficiency, and comparative analysis of DNA content variation of specific heterochromatic chromosomal regions. The 3D fluorescence intensity profiles allowed the analysis of intensity gradient within the signal volume. An approach was found applicable for determination of assembly of different types of DNA sequences, including classical satellite and alphoid DNA, gene-rich (G-negative bands) and gene-poor (G-positive bands) chromosomal regions as well as for assessment of chromatin architecture and targeted DNA sequence distribution within interphase nuclei. We conclude the approach to be a powerful additional tool for analysis of interphase genome architecture and chromosome behavior in the nucleus of human somatic cells. The text was submitted by the authors in English.     

Automated evaluation of frequencies of aneuploid sperm by laser-scanning cytometry (LSC)

BACKGROUND: Laser-scanning cytometry (LSC) allows fast automated scoring of fluorescence signals directly on microscopic slides. Frequencies of spontaneous aneuploidies in murine and human sperm were evaluated by using this new LSC technique. Rapid detection may be of great interest in reproductive toxicology, as certain chemicals act as aneugens during meiosis, increasing the production of aneuploid germ cells. Materials and Methods Selected chromosomes were detected by using fluorescence in situ hybridization (FISH) and fluorochrome-labeled DNA-probes. Sperm chromatin was counterstained with propidium iodide. By scanning across the slide, fluorescence signals within sperm nuclei were detected and counted. RESULTS: In murine sperm, the frequencies of disomies for chromosomes 8 and X were 0.019% and 0.021%, respectively. The automated assessment in human sperm resulted in disomy frequencies of 0.061% and 0.090% for chromosomes 13 and X, respectively. These results were comparable to data obtained from the same samples by manual microscopic scoring and to literature data. CONCLUSIONS: Frequencies of genotypically abnormal sperm were not significantly different between automated and manual scoring. In conclusion, sperm aneuploidy was reliably determined and disomic sperm were successfully relocated by LSC. By virtue of rapid and reliable analyses, LSC has the powerful potential to replace manual microscopic FISH analysis in molecular cytogenetics.