DNA content, chromatin texture and nuclear morphology in benzo[a]pyrene-transformed human breast epithelial cells after microcell-mediated transfer of chromosomes 11 and 17

Polyploidy and nuclear phenotype characteristics of cardiomyocytes from diabetic adult and normoglycemic aged mice

The frequency of polyploid nuclei in the aging human heart is in sharp contrast with that in the human liver. An inverse pattern exists between the mouse heart and liver cells. Ploidy degrees in mouse hepatocytes under hyperglycemic conditions are elevated to higher levels than those in aged hepatocytes. In this study, image analysis cytometry was used to investigate the effect of diabetes and aging on Feulgen-DNA quantities, ploidy degrees, nuclear shapes and chromatin texture in mouse cardiomyocytes compared to previously reported data for mouse hepatocytes. Adult, non-obese diabetic (NOD) hyperglycemic and normoglycemic females and 56-week-old normoglycemic BALB/c females were used. A small percentage (∼7%) of the cardiomyocyte nuclei in severely hyperglycemic NOD adult mice possessed higher ploidy values than those in the 8-week-old normoglycemic mice. Surprisingly, the Feulgen-DNA values and the frequency of nuclei belonging to the 4C and 8C ploidy classes were even higher (∼6%) in normoglycemic NOD specimens than in age-matched hyperglycemic NOD specimens. Additionally, a pronounced elongated nuclear shape was observed especially in adult normoglycemic NOD mice. In conclusion, NOD mice, irrespective of their glycemic level, exhibit a moderate increase in ploidy degrees within cardiomyocyte nuclei during the adult lifetime. As expected, aging did not affect the Feulgen-DNA values and the ploidy degrees of cardiomyocytes in BALB/c mice. The differences in ploidy degrees and chromatin textures such as absorbance variability and entropy, between adult NOD and aged BALB/c mice are consistent with other reports, indicating dissimilarities in chromatin functions between diabetes and aging.

The Feulgen reaction: A brief review and new perspectives

The Feulgen reaction has been proposed by Robert Feulgen and Heinrich Rossenbeck for the identification of DNA nearly a hundred years ago. Since then, many other applications of this cytochemical/topochemical procedure at qualitative and quantitative level have been proposed in relation to DNA and its role in chromatin in human, animal and plant cells. In this article, we briefly review some fundamental aspects of the Feulgen reaction and current applications of such a method in studies of altered chromatin texture, including its association with or preceding changes in transcriptional activities and effect on epigenetic marks. Further perspectives on the use of the Feulgen reaction will depend of the proposal of innovative biological questions in which its reveals appropriate.

Cancer nucleus: morphology and beyond

There are many significant morphological alterations of a nucleus of cancer cell that are detectable by light microscopy on routine staining. These changes are often associated with deranged cellular functions of cancer cell. It is difficult to understand the exact relationship between nuclear morphology and alteration of nuclear structural organization in cancer. Herein, the salient visual and subvisual morphological changes of cancer nuclei and their possible etiology and significance have been reviewed.

Chromatin supraorganization and extensibility in mouse hepatocytes with development and aging

BACKGROUND

Chromatin supraorganization and extensibility, which lead to the formation of extended chromatin fibers (ECF), are affected by starvation and refeeding in adult mouse hepatocytes. It is expected that they could also change with mouse development and aging.

METHODS

Methods used involved topochemistry, image analysis, microspectrophotometry, gravity action, and polarization microscopy.

RESULTS

Increased nuclear areas and Feulgen-DNA amounts with advancing hepatocyte polyploidy were found with development and aging. A slightly less packed chromatin with more heterogeneously distributed condensation levels was detected in young and old mice. Con-A responsiveness was almost absent in young mice but very deep in aged mice. ECFs formed from nuclei of adult and aged mice but not from nuclei of young mice. The frequency of ECF formation with the long lysis protocol increased with aging.

CONCLUSIONS

In young mice, a less packed chromatin state may be associated with more intense gene activity, thus increasing the DNA-nuclear matrix interactions, and inhibiting ECF formation. Reduced DNA-nuclear matrix interactions besides defects in heterochromatin formation may induce higher ECF formation and chromatin unpackaging in old mice. We suggest that differences in Con-A staining relate to different gene activity with advancing development and aging.

DNA content and chromatin texture of human breast epithelial cells transformed with 17-beta-estradiol and the estrogen antagonist ICI 182,780 as assessed by image analysis

The immortalized human breast epithelial MCF-10F cell line, although estrogen receptor alpha negative, develops cell proliferating activities and invasiveness indicative of neoplastic transformation, after treatment with 17-beta-estradiol (E-2). These effects are similar to those produced by benzo[a]pyrene (BP). Since we have previously reported changes in the nuclear parameters accompanying BP-induced tumorigenesis in MCF-10F cells, we have examined whether similar alterations occur in E-2-treated cells. We therefore studied DNA amounts and other nuclear parameters in Feulgen-stained MCF-10F cells after treatment with various concentrations of E-2, BP, the estrogen antagonist ICI 182,780, and E-2 in the presence of ICI 182,780. E-2 caused a certain loss of DNA and changes in the nuclear size and chromatin supraorganization of MCF-10F cells. Many of these changes were similar to those produced by BP and were indicative of neoplastic transformation. More intense chromatin remodelling was seen with 70 nM E-2. Since these changes were not abrogated totally or partially by ICI 182,780, the neoplastic transformation of MCF-10F cells stimulated by E-2 involved a process that was independent of estrogen alpha-receptors. The changes produced by ICI 182,780 alone were attributed to effects other than its well-known anti-estrogenic activity.

Nucleus image properties assessed by video image analysis in mouse hepatocytes under a short lysis for extended chromatin fiber formation

BACKGROUND

How much DNA remains in mouse hepatocyte nuclei after extended chromatin fiber (ECF) formation or whether this content varies within the nuclear population is not known. This information could be relevant to understanding chromatin extensibility as related to chromatin organization, possibly associated with variable nuclear activities in hepatocytes.

METHODS

A protocol for ECF formation under the gravity action, image analysis of Feulgen-stained unfixed mouse hepatocyte remnants, and DAPI fluorescence were used.

RESULTS

Areas, shape, Feulgen-DNA amounts, and chromatin texture were affected in unfixed, lysed nuclei. The Feulgen-DNA values in nuclear remnants represented 37% of the content in fixed, nonlysed nuclei in terms of median values; the coefficient of variation of Feulgen-DNA values in the nuclear remnants was much higher than those in controls. Enhancement in DAPI fluorescence was evident in chromocenters of the fixed nuclei and in remnants and some ECF granules of the unfixed, lysed nuclei.

CONCLUSIONS

The DNA content of the nuclear remnants was much more variable than that assumed from known variability in hepatocyte ploidy degrees. The variable constraint to chromatin extrusion from hepatocyte nuclei is hypothesized to depend on variable chromatin organization with possible involvement of nuclear matrix association, transcriptional activities, and AT-rich DNA-containing heterochromatin.

Nucleus image properties and cell death in MCF-10F cells grown on slide substrates differing in nature and size

The immortalized human breast epithelial cell line MCF-10F is an important tool for studies on experimental tumorigenesis induced by drugs, transfected Ha-ras oncogene, and hormones. Considering that many relevant data have thus far been established only for MCF-10F cells cultivated on glass, and that there are data showing different cell death ratios for tumorigenic cells obtained from benzo[a]pyrene (BP)-transformed MCF-10F cells cultivated on plastic compared with glass, nuclear parameters estimated by image analysis and cell death ratios were compared for cells grown on plastic and glass substrates differing in chamber surface sizes and working culture medium volumes. It was concluded that for slides with a growth size equal to 9.4 cm2, plastic substrate was more advantageous than glass for growing MCF-10F cells because although the apoptotic ratios (AR) for the cells grown on plastic are low as it would be expected for nontransformed cells, they are bigger than those reported for the BP-transformed MCF-10F cells cultivated on the same substrate but closer to those of the BP-transformed MCF-10F cells receiving a normal chromosome 17. In addition, the plastic substrate did not induce variable nuclear image results as those found in the latter. The 0.5-cm2-sized chambers on plastic slides proved to be inadequate for cell nuclear image analysis and cell death studies on account of the variable geometric, densitometric, and textural results and ARs produced and the unpublished consideration of a very slow growth rate generated under this growth condition.

Chromatin supraorganization and extensibility in mouse hepatocytes following starvation and refeeding

BACKGROUND

The effect of 48 h of starvation and of 48 h of refeeding subsequent to starvation on chromatin supraorganization and extensibility was studied in hepatocytes from adult mice.

METHODS

Methods used involved topochemical assays, image analysis, gravity action, and polarization microscopy.

RESULTS

Starvation increased the chromatin packing states, especially in areas of noncondensed chromatin, and induced drastic decreases in concanavalin A reactivity due to nuclear matrix glycoproteins and the frequency of nuclei with chromatin extensibility under gravity. Changes in chromatin packing state were accompanied by shifts of nuclear areas of part of the nuclear population to smaller values but did not affect the respective Feulgen-DNA amounts except for a few nuclei. The extent of chromatin unpackaging, but not of frequency of nuclei with formation of extended chromatin fibers, in starved mice that were refed was greater than in well-fed controls. Refeeding induced increase in Feulgen-DNA amounts and regain and redistribution of concanavalin A-reactive nuclear glycoproteins. However, the duration of refeeding used was probably insufficient to reestablish the stereo arrangement of the chromatin-nuclear matrix and to restore chromatin fluidity to the level seen in well-fed mice.

CONCLUSIONS

The changes in the liver cell nuclei associated with starvation and refeeding of adult mice involved chromatin supraorganization, hepatocyte proliferation (refeeding), and the loss, regain, and redistribution of nuclear proteins, especially nuclear matrix components, related to chromatin organization and extensibility. These changes are suggested as favoring the silencing and reactivation of transcriptional activities, depending on the organism's nutritional state.

Effects of the histone deacetylase inhibitor trichostatin A on nuclear texture and c-jun gene expression in drug-sensitive and drug-resistant human H69 lung carcinoma cells

BACKGROUND

Texture analysis of chromatin patterns by image cytometry can be used in the development and refinement of diagnosis and prognosis of cancers and in the follow-up of therapies. However, little is known about the biological mechanisms underlying these patterns. Epigenetic mechanisms as histone posttranslational modifications and particularly histone acetylation could play a major role in the determination of these chromatin patterns and then influence nuclear texture measurements.

METHODS

This study examined the consequences of treatment by the histone deacetylase inhibitor trichostatin A (TSA) on the nuclear texture in human cell lines sensitive and resistant to chemotherapy. Small cell lung carcinoma H69 cells and their variant H69-VP, which is resistant to etoposide, were incubated with 100 ng/ml of TSA for 0 to 24 h. Nuclear texture was evaluated by image cytometry and compared with the histone H4 acetylation level measured by western blotting and expression of c-jun gene evaluated by reverse transcription and real-time polymerase chain reaction.

RESULTS

TSA treatment induced an increase in histone H4 acetylation level in both cell lines. However, at the level of chromatin texture, sensitive H69 cells displayed a progressive chromatin decondensation up to 24 h, whereas resistant H69-VP showed rapid (8 h) but transient changes. Similarly, expression of c-jun increased regularly in TSA-treated H69 cells. In H69-VP cells, an increase was also observed up to 12 h followed by a decrease after 24 h of treatment.

CONCLUSIONS

Analysis of nuclear texture appeared to be a sensitive technique to detect chromatin pattern alterations induced by the histone deacetylase inhibitor TSA in the H69 cell line and enabled the observation of chromatin pattern discrepancies between chemotherapeutic drug-sensitive and drug-resistant cells during this treatment. When c-jun gene expression was analyzed as gene sensitive to epigenetic control, these textural differences seemed to be correlated to gene expression.