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ABSTRACT: The distinguishable morphologic features of nuclei of acute myelogenous leukemia cells with enlarged size and finely distributed nuclear chromatin indicate incomplete chromosome condensation that can be related to elevated gene expression. To confirm this, interphase chromosome structures were studied in exponentially growing rat myelomonocytic leukemia 1 cells isolated at the University of Debrecen (My1/De cells). This cell line was established from primary rat leukemia chemically induced by 7,12-dimethylbenz[a]anthracene treatment. The enlarged nuclei of My1/De cells allowed improved fluorescent visualization of chromosomal structures. Increased resolution revealed major interphase intermediates consisting of (1) veil-like chromatin, (2) chromatin ribbon, (3) chromatin funnel, (4) chromatin bodies, (5) elongated prechromosomes, (6) seal-ring, spiral shaped, and circular chromosomal subunits, (7) elongated, bent, u- and v-shaped prechromosomes, and (8) metaphase chromosomes. Results confirmed the existence of the chromatin funnel, the first visible interphase chromosome generated by the supercoiling of the chromatin ribbon. Other intermediates not seen previously included the spiral subunits that are involved in the chromonemic folding of metaphase chromosomes. The existence of spiral subunits favors the helical coil model of chromosome condensation. Incomplete chromatin condensation in leukemia cells throughout the cell cycle is an indication of euchromatization contributing to enhanced gene expression and is regarded as a leukemic factor.
DNA and cell biology 09/2011; 31(4):470-8. · 2.28 Impact Factor
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ABSTRACT: Time-lapse video microscopy was designed to follow the movement of single cells for an unlimited period of time under physiological conditions. The system is based on two inverted microscopes located in a CO(2) incubator and equipped with charge-coupled device cameras connected to the computer. Frames were recorded every minute and the subsequent video sequence was converted to database form. The system was applied to describe the movements of normal HaCaT cells and Pb-treated cells causing the so-called apoptotic dance during cell death. The apoptotic movement was also followed in high-osmolarity glycerol-type mitogen-activated protein kinase (MAPK) null mutant of Fusarium proliferatum, a filamentous fungus, during osmotic stress. The shortest (20 min) and most vigorous death movements were observed in apoptotic fungal cells subjected to salt stress. The necrotic process at higher Pb concentration (50 microM) took 2-3 h, whereas the apoptotic process at lower Pb concentrations lasted from minutes to days.
DNA and cell biology 03/2010; 29(5):249-59. · 2.28 Impact Factor
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ABSTRACT: The aim of the study was to determine the tumorigenic potential of two cell lines established from N-nitrosodimethylamine induced rat hepatocarcinoma (HeDe) and mesenchymal renal tumors (NeDe). The basis of the distinction is that human cancers are known to overexpress facilitative GLUT transporters and TGF-beta1 protein. These proteins are linked to the increased metabolic energy consumption indicating uncontrolled growth and proliferation. We have assayed not only the expression of GLUT-1, GLUT-3 and TGF-beta1 proteins, but also the uptake of 2-fluoro-[18F]-2-deoxy-D-glucose (18FDG), a tracer for cancer diagnosis. Western blot analysis and whole body autoradiography were used to measure the 18FDG uptake of tumor cells. Elevated 18FDG uptake was measured in both tumor cell lines. Whole body autoradiography provided evidence that the uptake of 18FDG was lower in the necrotic inner part than in the more vascularized outer parts of primary hepatocarcinoma and mesenchymal renal tumors. GLUT-1 overexpression in hepatocarcinoma tumor, and high levels of GLUT-3 were found in the NeDe cell line and in the mesenchymal renal tumor. TGF-beta-1 was overexpressed in hepatocarcinoma and mesenchymal renal tumors. In vitro and in vivo parameters support the view that the tumorigenic potential of cancer cells cannot be determined by the expression of a single parameter such as the expression of either GLUT-1, GLUT-3 or 18FDG uptake. Besides the tumorigenic potential of the hepatocarcinoma, the high metabolic activity of the renal tumor indicated by its 18FDG uptake, GLUT-3 and TGF-beta1 expression, the mesenchymal renal tumor induced by N-nitroso-dimethylamine is not a benign, but an an aggressive renal carcinoma.
Histology and histopathology 03/2010; 25(3):309-20. · 2.48 Impact Factor
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ABSTRACT: Rat mesenchymal renal tumor cells (NeDe) transplanted under the kidney capsule of F344 rats resulted in metastases in the parathymic lymph nodes. Tumor cells were isolated from these tumor-bearing lymph nodes and 106 cells were implanted under the kidney capsule. Tumor growth after this implantation could be traced within six days. India ink was implanted to prove that there is a connection between the lymphatic vessels of the kidney capsule and the parathymic lymph nodes. The distribution of the radioligand 18FDG in different organs also provided evidence that the parathymic lymph nodes are the primary sites of metastatic tumor growth. Tumor growth was followed after staining sections of biopsies of normal, tumorous kidneys and parathymic lymph nodes embedded in paraffin. The progression of tumor formation was seen as a frontline between the healthy and tumor bearing tissue. This demarcation line was sharp at the beginning of the invasion and at the peripheral regions of the tumor, while the central region infiltrated into the healthy kidney tissue. The initial invasion gradually turned to an infiltration resulting in the disruption of the renal tissue, especially at the periphery. Accumulation of lipids and flow of blood to the lymphatic vessels was due to the lack of angiogenesis, leading to an increased pressure of the interstitial fluid. Interstitial damage ultimately led to the appearance of blood and the growth of tumor cells in parathymic lymph nodes. The kidney capsule-parathymic lymph node complex is proposed as a suitable metastatic model for the isolated in vivo examination of tumor development and for the analysis of secondary tumors.
Histology and histopathology 11/2009; 24(11):1367-79. · 2.48 Impact Factor
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ABSTRACT: The ultimate cause of cancer death is, in most cases, the appearance of metastases. The aim of the present study was to contribute to animal experimental investigations of metastatic tumor development.
Rat hepatocarcinoma (He/De), mesoblastic nephroma (Ne/De) cells, and in other cases tumor-bearing lymph nodes were transplanted under the renal capsule of F344 rats. Metastatic potential of tumor cells was examined by whole body autoradiography and phosphor image analysis. The organ distribution of cells was also investigated.
Transplanted tumor cells resulted in metastases in the parathymic lymph nodes. Implanted India ink also demonstrated connection between the lymphatic vessels of the renal capsule and the parathymic lymph nodes. The metastatic potential was independent of the primary tumor growth rate.
The renal capsule-parathymic lymph node complex seems to be suitable for the isolated in vivo examination of metastatic development and for the detailed analysis of secondary tumors.
Anticancer research 07/2009; 29(6):2121-6. · 1.73 Impact Factor
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ABSTRACT: Exponentially growing human erythroleukemia K562 cells were synchronized by centrifugal elutriation prior to and after Co60 gamma-irradiation (4 Gy). Forward scatter flow cytometry used for size analysis revealed the increase of an early apoptotic cell population ranging from lower (0.05 C-value) to higher DNA content (approximately 1 C) as the cells progressed through the S phase. The increase in cellular DNA content expressed in C-values correlated with apoptotic chromatin changes manifested as many small apoptotic bodies in early S phase and larger but less numerous disintegrated apoptotic bodies in late S phase. Most significant changes after exposure to gamma-irradiation took place in early S phase resulting in an increase of nuclear size by more than 50%. Cell fractions containing irradiated cells showed enhanced growth arrest at 2.4 C-value, which was accompanied by apoptosis. Apoptotic cell cycle arrest near to the G1/G0 checkpoint and apoptotic changes indicate that the radiation resistance of K562 cells is related to the bypass of the early stage of the p53 apoptotic pathway. Apoptotic changes in chromatin structure induced by gamma-irradiation indicate that these injury-specific changes can be identified and distinguished from chromatin changes induced by UV radiation or heavy metals.
APOPTOSIS 01/2008; 12(12):2271-83. · 4.79 Impact Factor
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ABSTRACT: Chromatin structures and individual interphase chromosomes escaping nuclei of reversibly permeabilized cells were analyzed in a cell cycle-dependent manner. Cells were synchronized by counterflow centrifugal elutriation. Individual interphase chromosomes became visible as distinct fibrous chromatin bodies from mid-S-phase, turning to elongated chromosomes by the end of S phase. Major interphase chromosomal forms include (1) mid-S-phase chromatin bodies at 3.0 C-value, (2) elongated chromatin bodies later in mid-S-phase (3.25 C-value), (3) chromatin bodies with head and leg portions later in S phase (3.5 C-value), (4) supercoiled ribbons later in S phase seen as twisted prechromosomes (3.7 C-value), and (5) end-S-phase elongated, bent prechromosomal structures (3.9 C-value). The first karyotype analysis of the earliest forms of chromosomes referred to as chromatin bodies was performed.
DNA and Cell Biology 09/2007; 26(8):549-56. · 2.07 Impact Factor
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ABSTRACT: Murine pre-B-cells grown in the presence of lower (1 microM) or higher (5 microM) concentration of cadmium chloride were separated into 13 fractions by centrifugal elutriation. The rate of DNA synthesis after cadmium treatment determined in permeable cells was dependent on cell culture density during cadmium treatment. Cell cycle analysis revealed a shift in the profile of DNA synthesis from replicative to repair DNA synthesis upon cadmium treatment. The study of the relationship between cell culture density and cell diameter at lower and higher cell densities in the presence of 1 microM cadmium chloride concentration showed that a. at 5 x 10(5) cell/ml or lower densities cells were shrinking indicating apoptotic changes, b. at higher cell culture densities the average cell size increased, c. the treatment of cells with low CdCl(2) concentration (1 microM) at higher cell culture density (>5 x 10(5) cell/ml) did not change significantly the average cell diameter. At 5 microM cadmium concentration and higher cell culture densities (>5 x 10(5) cell/ml) the average cell size decreased in each elutriated fraction. Most significant inhibition of cell growth took place in early S phase (2.0-2.5 C value). Apoptotic chromatin changes in chromatin structure after cadmium treatment were seen as large extensive disruptions, holes in the nuclear membrane and stickiness of incompletely folded chromosomes.
APOPTOSIS 07/2007; 12(7):1219-28. · 4.79 Impact Factor
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ABSTRACT: Earlier, the interphase chromatin structures could not be visualized due to the stickiness of the nuclear material. We have reduced stickiness by the reversal of permeabilization allowing the isolation and microscopic imaging of interphase chromatin structures. By using a high resolution of synchronization, collecting 36 elutriation fractions, we show that major intermediates of chromatin condensation include: (a) decondensed veillike chromatin at the unset of the S phase (2.0-2.2 C-value), (b) polarization of veiled chromatin (2.2-2.6 C), (c) fibrous chromatin (2.6-3.0 C), chromatin bodies (3.0-3.3 C), early precondensed chromosomes (3.3-3.6). The compaction of Drosophila chromosomes did not reach that of the mammalian cells in the final stage of condensation (3.6-4.0 C). Drosophila chromosomes consist of smaller units called rodlets. Results demonstrate that nucleosomal chromatin ("beads on string") does not form a solenoid structure; rather, the topological arrangement consists of meandering and plectonemic loops.
DNA and Cell Biology 02/2007; 26(1):55-62. · 2.07 Impact Factor
