High doses of synthetic antioxidants induce premature senescence in cultivated mesenchymal stem cells.

Stress-induced premature senescence program is known to be activated in cells by various genotoxic stressors, and oxidative stress is considered to be the main of those. To this end, many studies discover antioxidants as protective anti-aging agents. In the current study, we examined the effects of different antioxidants (Tempol, resveratrol, NAC, DPI) on the mesenchymal stem cells maintained in normal physiological conditions. We used high, but non-cytotoxic antioxidant doses which are widely used in laboratory practice to protect cells from oxidative damage. We show that these substances induce reversible block of cell proliferation and do not cause any genotoxic effects when applied to the quiescent cells. However, the same doses of the same substances, when applied to the proliferating cells, can induce irreversible cell cycle arrest, DNA strand breaks accumulation and DNA damage response activation. As a consequence, antioxidant-induced DNA damage results in the stress-induced premature senescence program activation. We conclude that high doses of antioxidants, when applied to the proliferating cells that maintain physiological levels of reactive oxygen species, can cause DNA damage and induce premature senescence which suggests to re-estimate believed unconditional anti-aging antioxidant properties.

Flow cytometric HyPer-based assay for hydrogen peroxide.

HyPer is a genetically encoded fluorogenic sensor for hydrogen peroxide which is generally used for the ratiometric imaging of H2O2 fluxes in living cells. Here, we demonstrate the advantages of HyPer-based ratiometric flow cytometry assay for H2O2, by using K562 and human mesenchymal stem cell lines expressing HyPer. We show that flow cytometry analysis is suitable to detect HyPer response to submicromolar concentrations of extracellularly added H2O2 that is much lower than concentrations addressed previously in the other HyPer-based assays (such as cell imaging or fluorimetry). Suggested technique is also much more sensitive to hydrogen peroxide than the widespread flow cytometry assay exploiting H2O2-reactive dye H2DCFDA and, contrary to the H2DCFDA-based assay, can be employed for the kinetic studies of H2O2 utilization by cells, including measurements of the rate constants of H2O2 removal. In addition, flow cytometry multi-parameter ratiometric measurements enable rapid and high-throughput detection of endogenously generated H2O2 in different subpopulations of HyPer-expressing cells. To sum up, HyPer can be used in multi-parameter flow cytometry studies as a highly sensitive indicator of intracellular H2O2.

Redox environment in stem and differentiated cells: A quantitative approach.

Stem cells are believed to maintain a specific intracellular redox status through a combination of enhanced removal capacity and limited production of ROS. In the present study, we challenge this assumption by developing a quantitative approach for the analysis of the pro- and antioxidant ability of human embryonic stem cells in comparison with their differentiated descendants, as well as adult stem and non-stem cells. Our measurements showed that embryonic stem cells are characterized by low ROS level, low rate of extracellular hydrogen peroxide removal and low threshold for peroxide-induced cytotoxicity. However, biochemical normalization of these parameters to cell volume/protein leads to matching of normalized values in stem and differentiated cells and shows that tested in the present study cells (human embryonic stem cells and their fibroblast-like progenies, adult mesenchymal stem cells, lymphocytes, HeLa) maintain similar intracellular redox status. Based on these observations, we propose to use ROS concentration averaged over the cell volume instead of ROS level as a measure of intracellular redox balance. We show that attempts to use ROS level for comparative analysis of redox status of morphologically different cells could lead to false conclusions. Methods for the assessment of ROS concentration based on flow cytometry analysis with the use of H2DCFDA dye and HyPer, genetically encoded probe for hydrogen peroxide, are discussed.

ROLE OF P38 MAP-KINASE IN THE STRESS-INDUCED SENESCENCE PROGRESSION OF HUMAN ENDOMETRIUM-DERIVED MESENCHYMAL STEM CELLS.

Our recent findings clearly demonstrate that human endometrium-derived mesenchymal stem cells (hMESCs) respond to the sublethal oxidative stress by the premature senescence induction via ÀÒÌ/Chk2/p53/ p21/Rb pathway. Furthermore, based on the application of the SB203580 (SB) we suggested p38 MAP-kinase involvement in senescence progression. However, there are several disadvantages concerning this inhibitor: 1) using SB would not be suitable for in vivo experiments due to toxicity issue; 2) the poor kinase selectivity profile of SB complicates interpretation of the obtained data. Here, in order to confirm the implication of p38 in the H2O2-induced senescence of hMESCs, we applied another highly specific inhibitor of p38 ­ BIRB796 (BIRB). In presence of BIRB we revealed cell size decrease, reduction in the levels of reactive oxygen species, partial restoration of proliferation and increase in Rb phosphorylation levels in comparison to H2O2-treated hMESCs. Summarizing the obtained results we can postulate p38 implication in H2O2-induced senescence of hMESCs, and suggest p38 inhibition as a promising approach in prevention of premature senescence.

Reactive Oxygen Species Are Required for Human Mesenchymal Stem Cells to Initiate Proliferation after the Quiescence Exit.

The present study focuses on the involvement of reactive oxygen species (ROS) in the process of mesenchymal stem cells "waking up" and entering the cell cycle after the quiescence. Using human endometrial mesenchymal stem cells (eMSCs), we showed that intracellular basal ROS level is positively correlated with the proliferative status of the cell cultures. Our experiments with the eMSCs synchronized in the G0 phase of the cell cycle revealed a transient increase in the ROS level upon the quiescence exit after stimulation of the cell proliferation. This increase was registered before the eMSC entry to the S-phase of the cell cycle, and elimination of this increase by antioxidants (N-acetyl-L-cysteine, Tempol, and Resveratrol) blocked G1-S-phase transition. Similarly, a cell cycle arrest which resulted from the antioxidant treatment was observed in the experiments with synchronized human mesenchymal stem cells derived from the adipose tissue. Thus, we showed that physiologically relevant level of ROS is required for the initiation of human mesenchymal stem cell proliferation and that low levels of ROS due to the antioxidant treatment can block the stem cell self-renewal.

[THE INDUCTION OF CD25 EXPRESSION IN Jurkat T CELLS].

The expression of an α-subunit of interleukin-2 receptor (IL-2Rα) was assessed by quantifying activation-induced upregulation of CD25 in IL-2-independent Jurkat leukemic cell line. It has been found that in growing Jurkat culture within 24 h, phytohemagglutinin (PHA, 5 µg/ml) or PHA in combination with 12,13-phorbol dibutirate (PDBu, 10(-8)M) increase the number of CD25+ cells to 32.3 ± 3.4% (n = 11) and 44.8 ± 8.6% (n = 6) respectively. Interleukin-2 (IL-2, 200 U/ml) alone or in combination with PDBu did not induce CD25 expression in Jurkat cells. All the tested stimulatory agencies affected neither the proliferation status no the growth of Jurkat cell cultures. In contrast to human blood T cells, WHI-P131, a selective pharmacological inhibitor of JAK/STAT signaling and CD25 expression, did not decrease the number of induced CD25+ cells in Jurkat culture. Flow cytometry analysis revealed a dose-dependent decrease in the proportion of cells in G1 phase and an increase in the proportion of cells in G2/M phase in WHI-P131-treated Jurkat cultures. It has been also found that WHI-P131 induces G2/M arrest in the absence of PHA or PDBu. We have concluded that (1) the IL-2-independent T cells of Jurkat line had not loss the mechanism for IL-2Rα expression in response to T cell receptor activation, (2) in the transformed T cells, WHI-P131 can arrest cell cycle at G2/M phase and has effects on targets other than IL-2 receptor-associated tyrosine kinase JAK3.

[OXIDATIVE STRESS-PROMOTED RESPONSES IN HUMAN ENDOMETRIAL STEM CELLS AND LUNG EMBRYONIC FIBROBLASTS].

Human mesenchymal stem cells are an attractive cell source for tissue engineering. During transplantation they may be subjected to oxidative stress due to unfavorable cellular microenvironment, which is characterized by increased levels of reactive oxygen species. Recently, we have demonstrated that oxidative stress responses of human mesenchymal stem cells derived from endometrium (hMESCs) depend upon the oxidizer concentration. Besides, the duration of the H2O2-treatment duration. The effects of the high H2O2 doses on hMESCs and human lung embryonic fibroblasts were compared. In both cell types, H2O2-treatment for 60 min was shown to promote the multiphase cell cycle arrest, as well as to the dose-dependent cell death that occurred equally from all phases of cell cycle. However, the cell death dynamics in hMESCs and fibroblasts were different. Interestingly, in both cell types, shortening of H2O2-treatment duration from 60 to 10 min induced growth retardation, G1-phase accumulation and the cell size increase. Together, these findings allow us to suggest an induction of the premature senescence as a result of the short cell exposure to the high H2O2 doses. Thus, regarding both human endometrial stem cells and human embryonic fibroblasts, shortening of oxidative stress duration induced by high H2O2 doses enables to avoid the cell death and to produce the features of the premature senescence.

Intracellular oxidation of hydroethidine: compartmentalization and cytotoxicity of oxidation products.

Hydroethidine (HE) is a blue fluorescent dye that is intracellularly converted into red-emitting products on two-electron oxidation. One of these products, namely 2-hydroxyethidium, is formed as the result of HE superoxide anion-specific oxidation, and so HE is widely used for the detection of superoxide in cells and tissues. In our experiments we exploited three cell lines of different origin: K562 (human leukemia cells), A431 (human epidermoid carcinoma cells), and SCE2304 (human mesenchymal stem cells derived from endometrium). Using fluorescent microscopy and flow cytometry analysis, we showed that HE intracellular oxidation products accumulate mostly in the cell mitochondria. This accumulation provokes gradual depolarization of mitochondrial membrane, affects oxygen consumption rate in HE-treated cells, and causes cellular apoptosis in the case of high HE concentrations and/or long cell incubations with HE, as well as a high rate of HE oxidation in cells exposed to some stimuli.

[Differences in defense mechanisms against oxidative stress in both human embryonic and endometrium-derived mesenchymal stem cells].

Oxidative stress has been shown to induce either apoptosis or stress-induced premature senescence (SIPS) in different cell types. At present, it is generally accepted that stem cells have high resistance to oxidative stress; however data reported by various authors are controversial. In this study, we investigated stress responses of human embryonic stem cells (hESC) and human mesenchymal stem cells (hMESC) derived from desquamated endometrium to hydrogen peroxide (H2O2). Cell viability was evaluated by MTT assay. LD50 were determined as 300-350, 350-400 and 600-700 µM for hESC, human embryonic fibroblasts and hMESC, respectively. Thus, among the cell lines studied, hMESC demonstrated the most resistance to increased H2O2 concentration. We have found for the first time that sub-lethal doses of H2O2 induce premature senescence phenotype in hMESC, like in HEF, which is characterized by increased expression of cyclin-dependent kinase inhibitor p21(Waf1/Cip1), an irreversible cell cycle arrest, the permanent loss of proliferative potential, cell hypertrophy and SA-ß-Gal staining. While a sub-lethal H2O2 dose (200 µM) promoted in hMESC only SIPS, the higher H2O2 doses induced also apoptosis in the part of the cell population. On the contrary, in hESC, H2O2 regardless of the doses tested (from 50 to 500 µM) triggered apoptosis, that was the only pronounced response of these cells to oxidative damage. The data obtained demonstrate that stem cells of various origins under oxidative stress utilize the different defense mechanisms: hESC rapidly eliminate damaged cells through apoptosis, whereas hMESC may enter SIPS.

[The STAT5 signaling in the expression of alpha-subunit of interleukin-2 receptor in human blood lymphocytes].

The comparative study of the STAT3 and STAT5 activity (as assessed by tyrosine phosphorylation level) and the expression of a α-subunit of interleukin-2 receptor (as examined by cytophotometric evaluation of the number of CD25+ cells) during the phytohemagglutinin (PHA)-induced proliferation of human blood lymphocytes (HBL) have been made. It has been revealed that the level of STAT3 phosphorylation is high in both res ting and competent HBL and remains unchanged in the presence of PHA or interleukin-2 (IL-2). In contrast to STAT3, phosphorylation of STAT5 was not seen in both resting and competent HBL. We observed phosphorylation of STAT5 no earlier than 5 h after PHA stimulation and the maximum phosphorylation was detected following 24 h. Exogenous IL-2 induced high level of STAT5 phosphorylation in the competent HBL as early as at 30 min and this level of STAT5 phosphorylation kept in the next 24-48 h. The correlation between alterations in tyrosine phosphorylation level of STAT5 and the expression of CD25 has been established. WHI-P131, an inhibitor of JAK3 kinase, prevents STAT5 activation, cell surface expression of CD25 and lymphocyte proliferation. It has been concluded that JAK3/STAT5 signaling via IL-2 receptor is necessary to maintain the long-term expression of the high-affinity αßγ(c)-receptor of IL-2 and optimal proliferation of HBL.

[Effect of polychromatic visible light combined with infrared radiation on tumorigenicity of murine hepatoma cells and their sensitivity to lytic activity of natural killers].

Tumorigenicity of murine hepatoma cells (MH22a) and their sensitivity to lysis by natural killers (NKs) have been studied after exposure to polychromatic visible and infrared light (VIS-IR, 480-3400 nm, 40 mW/cm2), similar to the terrestrial solar spectrum without its minor UV component, in order to elucidate the involvement of this important environmental and physiotherapeutic factor in regulation of the anti-tumor defense system. The MH22 cells were in vitro exposed to VIS-IR light and their sensitivity to lytic activity of NKs was evaluated. We found that sensitivity of MH22a cells to lysis by NKs after exposure to VIS-IR light at a dose of 4.8 J/cm2 increased 1.5-2 times, while it did not change after exposure to a dose of 9.6 J/cm2 at all ratios (1 : 5-1 : 50) of the number of NKs (effectors) to that of hepatoma cells (targets). The increase in the sensitivity of hepatoma cells to NKs was accompanied by structural changes of cell surface: the capability of supramembraneous glycoproteins (glycocalix) to sorb the vital dye alcian blue (AB) was significantly lower as compared with the unexposed cells of control group. However, no changes in AB sorption was revealed in hepatoma cells exposed to the light at a dose 9.6 J/cm2. Tumorigenicity of photo-irradiated MH22a cells has been studied in the in vivo experiments. Light-exposed (4.8 and 9.6 J/cm2) and intact hepatoma cells were transplanted into syngenic mice C3HA. Tumor volumes 25 days after transplantation proved to be smaller after exposure to the light at both doses than in the control group (4-4.5 times and 2.5-4 times, respectively), which correlated with the increase in the sensitivity to lisys by NKs and decrease in the AB sorption only after light exposure at dose 4.8 J/cm2. Using the flow cytometry method we could show that VIS-IR light at the applied doses did not interfere with the distribution of hepatoma cells over the cycle phases and thus deceleration of the tumor growth was not associated with cytostatic effect of VIS-IR light. To evaluate effect of polychromatic light on the growth of the preformed tumors, the 5-day course of daily light exposures of tumor bearing mice C3HA was carried out in 10 days after subcutaneous transplantation of 2 x 10(5) cells of syngene hepatoma when the tumors had developed in 100% animals. Like in the case of transplantation of the light-exposed cells, irradiation of the tumor bearing mice at doses 4.8-9.6 J/cm2 resulted in deceleration of tumor growth (2.1-2.9 and 2.2 times respectively) for 4 weeks as compared with non-irradiated mice.

[Comparison of human endometrial stem cells and fibroblasts resistance to oxidative stress].

The response of human endometrial stem cells (hESCs) to oxidative stress has been investigated by flow cytometry. Two terminally differentiated cell lines were used for the comparison: human embryonic lung fibroblasts and human dermal fibroblasts. The oxidative stress was designed by hydrogen peroxide (H2O2) action in the wide range of concentrations (50-1500 microM) during 24 h. It has been shown that the H2O2 amount per one cell (pM/cell), but not H2O2 concentration in the growth medium, should be taken into account for the accurate evaluation of H2O2 effect on different cell lines. Therefore, in our experiments LD50 reflects the amount of H2O2 per cell, at which 50% cells survived after 24 h. We have demonstrated that hESCs are more resistant to H2O2 than embryonic lung fibroblasts, but less resistant than dermal fibroblasts.

[The surface expression of CD25 at different stages of proliferative response in human lymphocytes. I. The role of JAK and Src tyrosine kinases as revealed by inhibitory analysis].

The long-lasting expression of an alpha-subunit of interleukin-3 receptor (IL-2Ralpha) was found to accompany the PHA-induced proliferation of human blood lymphocytes (HBL), so that to the end of the second day of mitogenic stimulation only, the large blasts may express the high affinity alphabetagamma(c) receptor for IL-2. With the selective pharmacological drugs to JAK (WHI-P131) and Src (PP2) it is shown that the non-receptor tyrosine kinases are involved in the surface CD25 expression. It is revealed that the PP-2-inhibitable expression of CD25 is timely associated with the initial stage of T cell activation, whereas WHI-P131-inhibitable expression was present during the whole G0/G1/S transition. These data indicate that at the early, antigen-dependent stage the expression of IL-2Ralpha is induced via Src-dependent signaling pathway, and prolonged increase in IL-2Ralpha expression is regulated by IL-2/IL-2 receptor interaction via JAK-dependent signaling pathway.

[The surface expression of CD25 at different stages of proliferative response in human lymphocytes. II. The role of interleukin-2].

The expression of alpha-subunit of interleukin-2 receptor (IL-2Ralpha) was assessed by quantifying activation-induced upregulation of CD25 in human blood lymphocytes (HBL) stimulated by interleukin-2 (IL-2). It was established that exogenous IL-2 induced no surface expression of CD25 neither proliferation at 48 h of IL-2 action. In component HBL, pretreated by sub-mitogenic doses of phytohemagglutinin (PHA), 5-15 % of cell population was revealed to represent the CD2t+ cells, and in the competent cells only, exogenous IL-2 induced the surface expression of CD25 as well as the growth and the proliferative response, which was comparable with those to mitogenic doses of PHA. The JAK3 inhibitor WHI-P131 eliminated IL-2-dependent CD25 expression without influencing the CD25 expression in competent cells. Unlike, PP2 was found to inhibit the IL-2-dependent CD25 expression in a lesser extent than WHI-P131, however this drug was effectively inhibited CD25 expression in PHA-pretreated, competent HBL. These data suggest that Src-dependent signaling participate in the early IL-2Ralpha expression that precedes the IL-2-dependent cell cycle progression of activated HBL. It is concluded that in normal T cells, the IL-2Ralpha expression in firstly induced by antigen (mitogen) and thereafter it is held IL-2 through JAK-dependent signaling pathway.

[Metalloprotease-mediated HB-EGF release regulates EGF receptor transactivation in A431 cells under oxidative stress].

We have shown earlier that H2O2 induces EGF receptor transactivation in different cells overexpressing EGF receptor. Mechanism of H2O2-induced EGF receptor transactivation in A431 human epidermoid carcinoma cells was examined in this work. We have demonstrated autophosphorylation of Tyr1045, 1068, 1148, 1173 as well as phosphorylation of Tyr845 of EGF receptor in response to H2O2, as assessed by autophosphorylation specific antibody. Tyrosine phosphorylation of EGF receptor by H2O2 did not involve receptor autophosphorylation at Tyr992. Blocking functions of metalloproteases by broad-spectrum inhibitor GM6001 suppressed H2O2-induced phosphorylation of EGF receptor, suggesting dependence of the transactivation on metalloproteases activity. To elucidate the possible role of EGF receptor agonists in its activation we used HB-EGF and TGF-alpha neutralizing antibody. H2O2-induced EGF receptor phosphorylation was inhibited by HB-EGF, but not TGF-alpha, neutralizing antibody. Taken together, our data suggest that, in human epidermoid carcinoma A431 cells, H2O2 stimulates EGF receptor transactivation via metalloprotease-dependent HB-EGF release and autophosphorylation.

[Generation of dopamine neurons from human embryonic stem cells in vitro].

The aim of the study was to generate dopaminergic (DA) neurons from human embryonic stem cells (ESC) in vitro. It was shown that human ESCs are able to differentiated into DA neurons without co-culture with stromal cells. Terminal differentiation into DA neurons was reached by successive application of noggin and bFGF growth factors on collagen and matrigel substrates during 3-4 weeks. Differentiation efficiency was evaluated by the number of colonies with cells expressing tyrosine hydroxylase (TH), a DA neuron marker, and by the number of TH-positive cells in cell suspension using flow cytometry. No cells with pluripotent markers were detected in DA-differentiated cultures. It makes possible to propose that the protocol of human ESC differentiation might be applied to generate DA neurons for their transplantation into the animals modeling neurodegenerative (Parkinson) disease without the risk of tumor growth.

[Interferon gamma-mediated growth regulation of epithelial cells].

Interferon gamma (IFNgamma) is known to inhibit proliferation of certain transformed cell lines. Recently, we have demonstrated the transactivation of the epidermal growth factor receptor (EGFR) in response to IFNgamma (Burova et al., 2007) and provided direct evidence for the dependence of IFNgamma-induced EGFR transactivation upon EGFR expression level in epithelial cells (Gonchar et al., 2008). This study examines an antiproliferative effect of IFNgamma on human epithelial cells lines A431 and HeLa which express high levels of EGFR, as well as HEK293, which expresses low levels of EGFR. We characterized the IFNgamma-induced changes in these cells by studying cell growth, the cell cycle and induction of apoptosis. The response to IFNgamma differed in the tested cell lines: cell growth was inhibited in both A431 and HeLa cells, but not in HEK293 cells, as shown by cell counts and MTT. The cell cycle phases analyzed by flow cytometry were disturbed in A431 and HeLa cells in response to IFNgamma. In contrast, IFNgamma treatment did not alter distribution by cell cycle phases in HEK293. Our results indicate that IFNgamma exhibit an antiproliferative effect depending on the increased expression of EGFR in A431 and HeLa cells. Further, it was demonstrated that IFNgamma induced the caspase 3 activation in A431 cells, suggesting an involvement of active caspase 3 in IFNgamma-induced apoptosis.

[The expression of CD25 in phytohemagglutinin- or interleukin-2-stimulated human peripheral blood lymphocytes].

The timely expression of a high affinity receptor for interleukin-2 (IL-2R) in human peripheral blood lymphocytes stimulated by various mitogens was examined by cytophotometric evaluation of the number of CD25 bearing cells (CD25+). In resting lymphocyte culture both phytohemagglutinin (PHA, 10 (microg/ml) and 12,13-phorbol dibutirate (PDBu, 10-8 M) and ionomycin (IM, 5 x 10(-7) M) induce the long-lasting increase (during 48 h) in the number of CD25+ cells. Only in competent (not in resting) lymphocytes, pretreated by submitogenic doses of PHA (1 microg/ml), interleukin-2 (IL-2) is capable to induce the time-dependent CD25 expression. When comparing the time course of CD25+ expression and the blasttransformation it was found that the CD25 markers were revealed on small stimulated lymphocytes and all the large blasts were the CD+ cells with high-affinity alphabetagamma(c) receptor for IL-2. In conclusion, the expression of alpha-subunit of IL-2R takes place during the IL-2-dependent stage of T cell proliferation and may be directly induced by IL-2 via IL-2R.

[Cellular repair potential in families of ataxia-telangiectasia patients].

The key protein of the global cellular response to DNA damage is proteinkinase ATM. Ataxia-telangiectasia (AT), a genetic disorder due to mutations in both alleles of ATM gene, is characterized by numerous neurological abnormalities, increased frequency of malignant tumors, premature ageing and increased radio sensitivity. AT is the most frequently found disease displaying inherited radio sensitivity. The data accumulated by this time on the role of the protein ATM in regulation of cellular response to DNA damage and detailed description of its proteins-targets allows to analyze repair potential and manifestation of premature ageing markers both in the cells obtained from AT patients and in the cells of their heterozygous parents. Primary skin fibroblasts obtained from AT patients and their heterozygous parents were analyzed by the flow cytometry and comet assay. It has been shown that cells of the patient AT8SP do not initiate cell cycle blockade after ionizing irradiation during all the experiment, unlike the healthy donor cells where cell cycle blockade is observed. Irradiated cells of the heterozygous parents demonstrated less brightly expressed changes in cell cycle parameters than healthy donor's cells did. The ability to repair DNA double-strand breaks (DSBs) after irradiation is reduced in the cells of AT patients and their heterozygous parents in comparison with the healthy donor's cells. Cells of the healthy donor were capable to repair not less than 90 % of DNA damage for 2.5 h. The repair efficiency in the cells of AT patients came only to about 30 % of DNA damage and in the cells of heterozygous carries of the disease was approximately 50 %. The difference in the dynamics of DNA damage repair process in different proband's families is in accordance with the reports about great phenotypic variety of the given disease.

Evidence for the existence of satellite DNA-containing connection between metaphase chromosomes.

Physical connections between mitotic chromosomes have been reported previously. It was assumed that the interchromosome connection was based on the DNA-protein thread. However, the data about DNA sequences and protein component in the thread is fragmentary. We demonstrated on the mouse cultured cell line and prematurely condensed chromosomes that: (a) all four mouse satellite DNA fragments (major and minor satellite, mouse satellite 3 (MS3) and mouse satellite 4 (MS4)) were involved in the thread formation; (b) MS4 was involved in the thread to the least extent among all the other fragments; (c) telomere was never a member of the thread; (d) the thread was synthesized at a late G(2) phase; (e) RNA helicase p68 and CENP-B were among the protein components of the interchromosome connection. It was shown by FACS analysis that in mouse and human cell lines: (1) the flow karyotype spectrums were never free from chromosome aggregates; (2) chromosome association did not depend on the chromosome length and each chromosome was free to associate with the other.