[Packaging of Subchromosomal-Size DNA Molecules in Chromatin Bodies in the Ciliate Macronucleus].

A fundamental difference between somatic nuclei (macronuclei) of ciliates and cell nuclei of higher eukaryotes is that the macronuclear genome is a huge number (up to tens or hundreds of thousands) of gene-sized (0.5-25 kb) or subchromosomal (up to 2000 kb) minichromosomes. Electron microscopy shows that macronuclear chromatin usually looks like chromatin bodies or fibrils 200-300 nm thick in the interphase. However, the question of how many DNA molecules are contained in an individual chromatin body remains open. The organization of chromatin in macronuclei was studied in the ciliates Didinium nasutum and three Paramecium sp, which differ in pulsed-field gel electrophoresis (PFGE) karyotype, and compared with the model of topologically associated domains (TADs) of higher eukaryotic nuclei. PFGE showed that the sizes of macronuclear DNAs ranged from 50 to 1700 kb, while the majority of the molecules were less than 500 kb in length. A comparative quantitative analysis of the PFGE and electron microscopic data showed that each chromatin body contained one minichromosome in P. multimicronucleatum in the logarithmic growth phase, while bodies in the D. nasutum macronucleus contained two or more DNA molecules each. Chromatin bodies aggregated during starvation, when activity of the macronuclei decreased, leading to an increase of chromatin body size or the formation of 200- to 300-nm fibrils of several chromatin bodies. A model was proposed to explain the formation of such structures. In terms of topological characteristics, macronuclear chromatin bodies with subchromosomal DNA molecules were found to correspond to higher eukaryotic TADs.

Establishment of a FDC-P1 Murine Cell Line with Human KIT N822K Gene Overexpression.

The mechanism of resistance of leukemia cells to chemotherapeutic drugs remains poorly understood. New model systems for studying the processes of malignant transformation of hematopoietic cells are needed. Based on cytokine-dependent murine acute myeloid leukemia (AML) FDC-P1 cells, we generated a new cell line with ectopic expression of the KIT gene encoding mutant human receptor tyrosine kinase (N822K). We investigated the role played by overexpression of the mutant KIT in the survival of leukemia cells and their sensitivity to therapeutic drugs. We also generated a co-culture system consisting of FDC-P1 murine leukemia cells and a HS-5 human stromal cell line. Our data can be used for a further comprehensive analysis of the role of KIT N822K mutation in the cellular response to anti-leukemic drugs, growth factors, and cytokines. These data are of interest in the development of new effective therapeutic approaches to the treatment of acute leukemia.

[Factors Affecting the Labeling of NIH 3T3 Cells with Magnetic Nanoparticles].

The factors that affect the labeling of NIH 3T3 murine fibroblasts with Fe3O4-based magnetic nanoparticles (MNPs) were studied using MNPs produced by the gas condensation and solution precipitation methods and MNPs surface-modified with 3-aminopropylsilane or L-lysine. The production method, surface modifications, the particle concentration and size, the state of the cell population, and the method of MNP introduction were found to substantially affect the efficiency of MNP binding by cells. In particular, large MNP clusters may occur in MNP suspensions in DMSO, and their disruption by sonication increased the percent yield of magnetically labeled cells. Static incubation of a cell suspension led to a more efficient labeling as compared with continuous agitation. Cells attached to a plastic support could be labeled to a higher degree than cells in suspension, but required substantially longer incubations with MNPs. MNP centrifugation on cell layers (magnetic spinoculation) significantly increased the rate and efficiency of labeling. The stability of magnetic labeling was shown to depend on the MNP dose during labeling. Electron microscopy studies demonstrated that MNPs were associated with the cell surface after 20-min incubation with cells and were mostly in the cell interior after 4-h incubation. The results of the study may be useful for preparation and application of magnetized cell samples.

Controlled formaldehyde fixation of fibronectin layers for expansion of mesenchymal stem cells.

Extracellular cell matrices deposited by cells stimulate cell proliferation. However, their generation is cumbersome and time consuming. We show here that controlled fixation of fibronectin layers after coating culture vessels significantly enhances expansion of murine and human mesenchymal stem cells (MSCs) and, to a lesser extent, primary fibroblasts. In contrast, fibronection fixation did not stimulate proliferation of established cancer cell lines. Fixed vitronectin or collagen IV layers also enhanced proliferation of murine MSCs. Thus, controlled formaldehyde fixation of layers formed by fibronectin or some other extracellular matrix components represents a simple and reproducible way to enhance proliferation of primary cells.

The peculiarities of piRNA expression upon heat shock exposure in Drosophila melanogaster.

Different types of stress including heat shock may induce genomic instability, due to the derepression and amplification of mobile elements (MEs). It remains unclear, however, whether piRNA-machinery regulating ME expression functions normally under stressful conditions. The aim of this study was to explore the features of piRNA expression after heat shock (HS) exposure in Drosophila melanogaster. We also evaluated functioning of piRNA-machinery in the absence of major stress protein Hsp70 in this species. We analyzed the deep sequence data of piRNA expression after HS treatment and demonstrated that it modulates the expression of certain double-stranded germinal piRNA-clusters. Notable, we demonstrated significant changes in piRNA levels targeting a group of MEs after HS only in the strain containing normal set of hsp70 genes. Surprisingly, we failed to detect any correlation between the levels of piRNAs and the transcription of complementary MEs in the studied strains. We propose that modulation of certain piRNA-clusters expression upon HS exposure in D. melanogaster occurs due to HS-induced altering of chromatin state at certain chromosome regions.

[Immunocytochemical visualization of P185(HER2) receptor by antibody fused with dibarnase and conjugate of barstar with colloidal gold].

We studied the localization of transmembrane receptor P185(HER2) in SKOV-3 and BT-474 cancer cells by fluorescence, confocal and electron immunomicroscopy. P185(HER2) is a marker of breast and ovarian tumors, it is considered as a target for anticancer therapy. It is extremely important to choose a universal immunicytotoxic agent applicable, first, to study the distribution of P185(HER2) in cancer cells, secondly, to remove P185(HER2) from the cell surface and, thirdly, to eliminate target cells. In this work for visualization of P185HER2 We prOposed immunocytotoxic system, consisting of the monoclonal miniantibody 4D5 scFv to extracellular P185E domain fused with two molecules of barnase (ribonuclease from Bacillus amyloliquefaciens) and of its specific inhibitor barstar. Fluorescence microscopy has showed that the module 4D5 scFv-dibarnase:barstar efficiently identified P185(HER2) on the surface of cancer cells. It was revealed by confocal microscopy that interaction with 4D5 scFv-dibarnase lead to internalization of P185(HER2). The localization of P185(HER) in human ovarian carcinoma cells SKOV-3 and breast carcinoma cells BT-474 was compared by electron microscopy using 4D5 scFv-dibarnase:barstar-Au and 4D5 scFv-dibarnase-Au complexes. P185(HER) distributed on the cell surface unequally with preferential localization on protrusions or close to their bases and in contacts between protrusions and cell membrane. At 37 degrees C, P185(HER2) internalized through coated pits and vesicles and concentrated in the endosomes and multivesicular bodies in the cells of both cell lines, as well as in lysosomes in cells BT-474.

[Dynamics of penetration of "solid" nanoconstructions based on double-stranded DNA complexed with gadolinium into CHO cells].

Currently, neutron capture therapy is a promising cancer treatment. This method is based on the reaction of the thermal neutron capture by some non-radioactive elements (e.g., Gds57), which results in subsequent emission of electrons and gamma rays. An effective instrument for delivery of gadolinium into the tumor tissue are the particles of the "rigid" nanostructures (NS) based on double-stranded DNA complexes with gadolinium (NS-Gd). The local concentration of Gd in such nanostructures may reach 40%. To optimize the process of neutron capture therapy it is very important to investigate possible penetration mechanisms of NS-Gd particles into the tumor cells. In this work, the dynamics of interaction NS-Gd with cultivated chinese hamster ovary cells (CHO) was studied by confocal and electron microscopy. It is shown that NS-Gd are able to enter CHO cells. This process begins in about 1 hour after the start ofincubation. After 6 h NS-Gd particles were detected in almost all cells. A further increase of the incubation time does not lead to significant changes in cell morphology, although the number NS-Gd inside the cells increases. The plasma membrane of the cells remains intact. The NS-Gd particles, which entered the cells, remain inside the cells for a long time. The data obtained show that NS-Gd are relatively low-toxic and suggest that the presence of NS-Gd in the tumor cells does not prevent their division. The data obtained are important for improving the efficiency of the neutron capture therapy method.

[Study of the positional relationship of nucleolar chromatin and nucleolar compartments in somatic nuclei OPF the ciliate Didinium nasutum].

We showed earlier that nucleoli in interphase ciliates Didinium nasutum, appearing on single ultrathin sections as individual structures, actually are parts of more complex network-like structures in which fibrillar component is located on periphery, and granular--in the central part of a nucleolus. It is known, that nucleolar organizers in D. nasutum are represented by chromatin bodies connected with nucleoli. In this work we used 3D reconstruction on the basis of serial ultrathin sections to study localization of chromatin bodies which by morphological criteria might correspond to nucleolar organizers. Our data showed, that all such chromatin bodies settled down outside of nucleoli, near the periphery of fibrillar component. Even those chromatin bodies which on single sections looked completely surrounded by fibrillar nucleolar component, actually settled down in fibrillar component cavities open to nucleoplasm. Analysis of distribution of nucleolar chromatin bodies allowed us to conclude that activity in different parts of interphase complex network-like nucleoli of D. nasutum is approximately the same.

[Effect of nucleocapsid on multimerization of gypsy structural protein Gag].

The structural protein (Gag) of the gypsy Drosophila retrovirus lacks matrix, but contains capsid and nucleocapsid domains. The Gag forms virus-like particles in a bacterial cell; besides, its capsid alone is able to form aggregates. However, aggregates assembled from the capsid were variable in size and displayed much less organization than particles formed by the whole Gag. The nucleocapsid exerts influence on the organization and structure of particles, and this function is directed by sequence of amino acid residues at its N-terminus (a nucleocapsid proximal part). The particle assembling occurs in the presence of any RNAs or single stranded DNA oligonucleotides.

[Novel bidirectional promoter from human genome].

In human and other mammalian genomes a number of closely linked gene pairs transcribed in opposite directions are found. According to bioinformatic analysis up to 10% of human genes are arranged in this way. In present work the fragment of human genome was cloned that separates genes localized at 2p13.1 and oriented "head-to-head", coding for hypothetical proteins with unknown functions--CCDC (Coiled Coil Domain Containing) 142 and TTC (TetraTricopeptide repeat Containing) 31. Intergenic CCDC142-TTC31 region overlaps with CpG-island and contains a number of potential binding sites for transcription factors. This fragment functions as bidirectional promoter in the system ofluciferase reporter gene expression upon transfection of human embryonic kidney (HEK293) cells. The vectors containing genes of two fluorescent proteins--green (EGFP) and red (DsRed2) in opposite orientations separated by the fragment of CCDC142-TTC31 intergenic region were constructed. In HEK293 cells transfected with these vectors simultaneous expression of two fluorescent proteins is observed. Truncated versions of intergenic region were obtained and their promoter activity measured. Minimal promoter fragment contains elements Inr, BRE, DPE characteristic for TATA-less promoters. Thus, from the human genome the novel bidirectional promoter was cloned that can be used for simultaneous constitutive expression of two genes in human cells.

[Characteristics of chromatin structural organization in somatic nucleus of the ciliate Didinium nasutum].

Structural organization of macronuclear chromatin of the ciliate Didinium nasutum was studied. Macronuclear genome of D. nasutum is represented by DNA molecules of subchromosomal size. At interphase, macronuclear chromatin is organized into chromatin clumps approximately 100-200 nm in size and some of them form short thick fibres consisting of several chromatin clumps. Using differential staining of nucleic acids on ultrathin sections we revealed perichromatin fibres and granules on the surface of many chromatin clumps. 3D models of spatial distribution of chromatin clumps in the macronucleus were reconstructed on the basis of serial ultrathin sections and peculiar features of their organization were studied.

Hetero- and auto-activation of recombinant glutamyl endopeptidase from Bacillus intermedius.

Glutamyl endopeptidase from Bacillus intermedius (BIGEP) is a secretory serine proteinase specifically hydrolyzing peptide bonds involving alpha-carboxyl groups of glutamic and aspartic acids. In this work, different BIGEP forms (full-length precursor, precursor without signal peptide and mature part) were expressed in Escherichia coli and the process of enzyme maturation was studied in vitro. BIGEP precursor renaturation leads to autocatalytic hydrolysis of the propeptide at Glu(-16). At the same time, the enzyme activation requires the complete removal of the prosequence by other proteinases. The mature part of BIGEP cannot be activated, which indicates that the propeptide is required for the active protein formation. The data obtained allowed us to apply directed mutagenesis of the processing site to obtain a BIGEP form that matured autocatalytically. This approach makes it possible to produce the enzyme without extrinsic proteinases, which is a prerequisite for using it in limited hydrolysis of proteins and peptides.

[Three-dimensional organization of nucleoli of Didinium nasutum (Ciliata)].

A comparative study of nucleolar organization in the somatic nuclei of the ciliate Didinium nasutum was carried out using 3D reconstruction on the basis of serial ultrathin sections. Recently fed interphase ciliates, starved interphase ciliates and cysts were studied. The nucleoli at the interphase stage were shown to have a complex architecture: the fibrillar component forms a complicated network, the granular component is located inside of it. It was shown that nucleoli, which look like individual structures in single sections, are in fact parts of branched nucleolar networks. A 30-h starvation doesn't lead to disintegration of these networks. However in the starved cells the granular component becomes more dense and vacuolized. In the fed ciliates there are many holes in the fibrillar component, whereas in starved ones the fibrillar component is virtually devoid of them. These holes can be proposed to ensure the transport of newly synthesized rRNP. The nucleolar networks didn't occur in D. nasutum cysts. Nucleoli in the cysts look like small individual structures, mainly consisting of fibrogranular component.

Intracellular localization of the HCS2 gene products in identified snail neurons in vivo and in vitro.

1. The HCS2 (Helix command specific 2) gene expressed in giant command neurons for withdrawal behavior of the terrestrial snail Helix lucorum encodes a unique hybrid precursor protein that contains a Ca-binding (EF-hand motif) protein and four small peptides (CNP1-CNP4) with similar Tyr-Pro-Arg-X aminoacid sequence at the C terminus. Previous studies suggest that under conditions of increased intracellular Ca(2+) concentration the HCS2 peptide precursor may be cleaved, and small physiologically active peptides transported to the release sites. In the present paper, intracellular localization of putative peptide products of the HCS2-encoded precursor was studied immunocytochemically by means of light and electron microscopy. 2. Polyclonal antibodies against the CNP3 neuropeptide and a Ca-binding domain of the precursor protein were used for gold labeling of ultrathin sections of identified isolated neurons maintained in culture for several days, and in same identified neurons freshly isolated from the central nervous system. 3. In freshly isolated neurons, the gold particles were mainly localized over the cytoplasmic secretory granules, with the density of labeling for the CNP3 neuropeptide being two-fold higher than for the calcium-binding domain. In cultured neurons, both antibodies mostly labeled clusters of secretory granules in growth cones and neurites of the neuron. The density of labeling for cultured neurons was the same for both antibodies, and was two-fold higher than for the freshly isolated from the central nervous system neurons. 4. The immunogold particles were practically absent in the bodies of cultured neurons. 5. The data obtained conform to the suggestion that the HCS2 gene products are transported from the cell body to the regions of growth or release sites.

[Morphological and functional characteristics of lymphokine-activated killer cells generated from the mononuclear cells of human peripheral blood].

The aim of this research was to study the morphological, functional and immunophenotypical characteristics of lymphokine-activated killer cells (LAKC) generated from the mononuclear cells (MNC) of healthy donors' peripheral blood at different time intervals after the cultivation with interleukin-2 (IL-2). LAKC had the appearance of large lymphoid cells of prolymphocyte and immunoblast type with highly pyroninophilic cytoplasm and electrone-microscopic features indicative of synthetic activity. LAKC were shown to intensely express activation antigens and adhesion molecules on their surface and to posess high cytotoxic potential in respect to tumor cells. Time-course of LAKC surface antigen expression corresponded to the changes of a proportion of activated cellular forms, generated from MNC of healthy donors' peripheral blood by incubation with IL-2. On the basis of these experimental findings, the usage of 3-5-day culture of LAKC could be recommended for the immunotherapy of malignant tumors.

[Immunocytochemical study of the hcs2 gene products distribution in the command neurons of grape snail]. / Immunotsitokhimicheskoe izuchenie lokalizatsii produktov gena hcs2 v komandnykh neironakh vinogradnoi ulitki.

In the present study the cellular and subcellular distribution of putative protein products of hcs2 gene in the giant command neurons of parietal ganglia of the terrestrial snail Helix lucorum L. were investigated using light- and electron-microscopic immunocytochemistry. The product of hcs2 gene is a hybrid precursor protein belongs to the EF-hand family of the Ca(2+)-binding proteins, whose processed products are neuropeptides. By use of polyclonal antibodys against a synthetic CNP3, CNP4 and C-terminus peptide immunoreactivity was observed in the cytoplasmic secretory granules. The colloidal gold density in the granules for CNP3-4 neuropeptides was twice one for the Ca(2+)-binding protein. These immunocytochemical results point to a specific connection between putative protein products of hcs2 gene and the cell secretory apparatus, that correspond to our early expressed hypothesis that products of hcs2 gene act as neuromodulators or neurotransmitters.

[Dynamics of structural changes of Paramecium caudatum and Bursaria truncatella macronuclear chromatin and nucleoli under hypotonic conditions]. / Dinamika ul'trastrukturnykh izmenenii khromatina i iadryshek makronukleusa infuzorii Paramecium caudatum i Bursaria truncatella pri gipotonicheskoi obrabotke.

Dynamics of structural changes of nucleoli, complex nucleolar aggregates and chromatin bodies in macronuclei (Ma) of ciliates Paramecium candatum and Bursaria truncatella under hypotonic conditions was studied. It was shown that after a 3 min hypotonic treatment nuclei swelled and became highly vacuolated. 3D-reconstruction showed that such nucleoli were formed by nucleolonema-like threads about 100-200 nm in thickness. Intranucleolar chromatin bodies decompacted, but remained bound with fibrillar component of the nucleolus by thin fibres about 10 nm thick. After 6 min hypotonic treatment the nucleolar material loosened and had a "gauze", or network-like appearence. After 10 min hypotonic treatment nucleoli dissociated completely. It was shown that a transition of chromatin bodies from completely compact to partially and fully decompacted state occurred cooperatively in different regions of Ma. In particular, chromatin bodies in the central part of complex nucleolar aggregates decompacted much faster than those in the Ma karyoplasm. It evidences for a specific, well-ordered chromatin organization in Ma. Prolonged hypotonic treatment led to a complete dissociation of Ma components; fibres 6-10 nm thick were solely observed in such preparations. Such fibres may represent remnant structures of the nuclear matrix. Dynamics of Ma chromatin bodies decompaction correlates well with that of chromomeres in the nuclei of higher eukaryotes. Our data confirm that chromatin 100-200 nm bodies in the ciliate Ma are analogues of chromomeres--looped discrete chromatin domains, observed in the nuclei of higher eukaryotes.

[Formation of chromoneme-like fibrils induced in infusorian somatic nuclei by magnesium ions]. / Formirovanie khromonemopodobnykh fibrill v somaticheskikh iadrakh infuzorii pod deistviem ionov magniia.

A study was made of the effect of Mg2+ on higher-order chromatin structure in marconuclei (Ma) of infusoria Paramecium aurelia and Bursaria truncatella. In infusorian Ma, inactive chromatin is commonly packed in chromatin bodies sized 60-200 nm. When isolated chromatin or Ma were treated with Mg2+ (about 3 mM), chromatin bodies arranged into fibrils 100-300 nm in diameter, which resembled higher eukaryotic chromonemes. The formation dynamics of chromoneme-like fibrils was described. The results testified to the similarity of chromatin bodies to chromomeres of higher eukaryotes. Structurally intact central chromomere cores proved to be essential for the formation of chromoneme-like fibrils. Chromatin organization in infusoria was shown to follow the discrete-level model (nucleosomes-nucleomeres-chromomeres-chromonemes) assumed for higher eukaryotes.