Uridine Administration Promotes Normalization of Heart Mitochondrial Function in Dystrophin-Deficient Mice and Decreases Tissue Fibrosis.

The work shows the effect of the metabolic modulator uridine on the functioning and ultrastructure of heart mitochondria in dystrophin-deficient mdx mice. Intraperitoneal administration of uridine (30 mg/kg/day for 28 days) improved K+ transport and increased its content in the heart mitochondria of mdx mice to the level of wild-type animals. This was accompanied by a significant decrease in the level of malondialdehyde and an increase in the number of mitochondria in the heart of mdx mice. At the same time, uridine did not affect the hyperfunctionality of mitochondria in mdx mice, which manifested in an increase in the calcium retention capacity. Nevertheless, we noted that uridine causes a significant decrease in the level of fibrosis in the heart of mdx mice, which attested to a positive effect of therapy.

Soft X-ray Microscopy in Cell Biology: Current Status, Contributions and Prospects.

The recent advances achieved in microscopy technology have led to a significant breakthrough in biological research. Super-resolution fluorescent microscopy now allows us to visualize subcellular structures down to the pin-pointing of the single molecules in them, while modern electron microscopy has opened new possibilities in the study of protein complexes in their native, intracellular environment at near-atomic resolution. Nonetheless, both fluorescent and electron microscopy have remained beset by their principal shortcomings: the reliance on labeling procedures and severe sample volume limitations, respectively. Soft X-ray microscopy is a candidate method that can compensate for the shortcomings of both technologies by making possible observation of the entirety of the cellular interior without chemical fixation and labeling with an isotropic resolution of 40-70 nm. This will thus bridge the resolution gap between light and electron microscopy (although this gap is being narrowed, it still exists) and resolve the issue of compatibility with the former, and possibly in the near future, the latter methods. This review aims to assess the current state of soft X-ray microscopy and its impact on our understanding of the subcellular organization. It also attempts to look into the future of X-ray microscopy, particularly as relates to its seamless integration into the cell biology toolkit.

[Cohesion inside eu- and heterochromatin in human cells].

It is considered that sister chromatids are held together immediately after replication by special protein complex--cohesin that consists of Smc1--Smc3 core dimer and two additional subunits, Scc1 and Scc3. This process is called cohesion. We have characterized binding of cohesin complex to early- and late-replicated chromatin at different stages of the cell cycle in human cells HeLa and HT1080 using superresolution microscopy (based on Structural ilumination microscopy--SIM) and immunoelectron microscopy. It has been shown that cohesins do not play important role in cohesion of heterochromatic domains, but they provide cohesion and organization of subdomains in euchromatic regions.

[Mitochondria-targeted antioxidant SkQR1 selectively protects MDR-negative cells against ionizing radiation].

Radioprotection appeared to be an important problem of today due to atom energetic development and utilization of radiation material in the industry, science and medicine. It has been shown that mitochondrial targeted antioxidant SkQR1 could attenuate radiation injury of human erythroleukemia K562 cells. Pretreatment with SkQR1 before irradiation decreased DNA double strand breaks formation, diminished the number of chromosomal aberrations and suppressed delayed ROS production. Prevention of oxidative stress and normalization of mitochondrial function by mitochondria-targeted antioxidants may be a potential therapeutic strategy not only against immediate consequences of radiation, but, either against its late consequences such as genomic instability. SkQR1 did not protect against radiation-induced damage the K562 subline with high level of multidrug resistance (MDR) due to SkQR1 extrusion with Pgp 170 MDR pump. We suggest that mitochondria-targeted antioxidants might be used for selective protection of normal cells against radiation-induced damage without interference with radiotherapy of MDR-positive tumors.

[Resolution of spatial constraints during replication of peripheral chromatin].

Tight association of peripheral chromatin with nuclear lamina unavoidably creates topological constraints during replication. Additional complications are associated with high stability of lamina meshwork, which may hinder an access of replication factors to the sites of DNA synthesis in highly condensed template with limited mobility. In the current work we studied structural organization and dynamics of lamina as a function of replicative status of associated peripheral heterochromatin. The studies of molecular mobility of laminas at various stages of S-phase in vivo and using super-resolution microscopy showed no correlation between lamina dynamics and replicative status of attached heterochromatin. These data support the hypothesis that lamina-chromatin interactions during S-phase are regulated at the level of adapter proteins. Ultrastructural studies have demonstrated that temporal break of lamina-chromatin connections during replication does not cause noticeable spatial separation of replicating domains from nuclear periphery.

[High level of expression and nuclear localization of RNA, transcribed from genome region, containing repetitive elements].

The non-coding and repetitive sequences constitute a great amount of higher eukaryotes genomes, but the elucidation of its role and mechanisms of action is now at the very beginning. Here we found, that internal telomeric repeats in Danio rerio are colocalized with some repetitive elements, namely, hAT and EnSpm repeats, which are highly represented in vertebrate genome. While investigating one of genome regions, containing two pairs of such repeats in close proximity we found, that it is transcribed. RNA-dependent structures, containing this sequence, were revealed in D. rerio fibroblast nuclei, which may serve as evidence of functional relevance of repetitive elements in genomes or of their transcripts.

Penetration of short fluorescence-labeled peptides into the nucleus in HeLa cells and in vitro specific interaction of the peptides with deoxyribooligonucleotides and DNA.

Marked fluorescence in cytoplasm, nucleus, and nucleolus was observed in HeLa cells after incubation with each of several fluorescein isothiocyanate-labeled peptides (epithalon, Ala-Glu-Asp-Gly; pinealon, Glu-Asp-Arg; testagen, Lys-Glu-Asp-Gly). This means that short biologically active peptides are able to penetrate into an animal cell and its nucleus and, in principle they may interact with various components of cytoplasm and nucleus including DNA and RNA. It was established that various initial (intact) peptides differently affect the fluorescence of the 5,6-carboxyfluorescein-labeled deoxyribooligonucleotides and DNA-ethidium bromide complexes. The Stern-Volmer constants characterizing the degree of fluorescence quenching of various single- and double-stranded fluorescence-labeled deoxyribooligonucleotides with short peptides used were different depending on the peptide primary structures. This indicates the specific interaction between short biologically active peptides and nucleic acid structures. On binding to them, the peptides discriminate between different nucleotide sequences and recognize even their cytosine methylation status. Judging from corresponding constants of the fluorescence quenching, the epithalon, pinealon, and bronchogen (Ala-Glu-Asp-Leu) bind preferentially with deoxyribooligonucleotides containing CNG sequence (CNG sites are targets for cytosine DNA methylation in eukaryotes). Epithalon, testagen, and pinealon seem to preferentially bind with CAG- but bronchogen with CTG-containing sequences. The site-specific interactions of peptides with DNA can control epigenetically the cell genetic functions, and they seem to play an important role in regulation of gene activity even at the earliest stages of life origin and in evolution.

[Organisation of anaesthesia management in obstetrics: normative legal documents of the American Society of Anesthesiologists].

A review highlights the fundamental positions of providing the anaesthesia care in delivery. Features of neuroaxial blocks in labour and surgical delivery are considered and the conditions of safe anesthesia care for both mother and foetus are estimated.

Insights into interphase large-scale chromatin structure from analysis of engineered chromosome regions.

How chromatin folds into mitotic and interphase chromosomes has remained a difficult question for many years. We have used three generations of engineered chromosome regions as a means of visualizing specific chromosome regions in live cells and cells fixed under conditions that preserve large-scale chromatin structure. Our results confirm the existence of large-scale chromatin domains and fibers formed by the folding of 10-nm and 30-nm chromatin fibers into larger, spatially distinct domains. Transcription at levels within severalfold of the levels measured for endogenous loci occur within these large-scale chromatin structures on a condensed template linearly compacted several hundred fold to 1000-fold relative to B-form DNA. However, transcriptional induction is accompanied by a severalfold decondensation of this large-scale chromatin structure that propagates hundreds of kilobases beyond the induced gene. Examination of engineered chromosome regions in mouse embryonic stem cells (ESCs) and differentiated cells suggests a surprising degree of plasticity in this large-scale chromatin structure, allowing long-range DNA interactions within the context of large-scale chromatin fibers. Recapitulation of gene-specific differences in large-scale chromatin conformation and nuclear positioning using these engineered chromosome regions will facilitate identification of cis and trans determinants of interphase chromosome architecture.

[Structure of the intracellular part of the motility apparatus of halobacteria].

The electron microscopic study of the structure of the motility apparatus of the archaea Halobacterium salinarium 4W12 and Natronobacterium magadii confirmed our earlier observation that the motility apparatus of halobacteria contains an intracellular disk-shaped lamellar structure (DLS). Polar cap structures (PCSs) isolated from the halobacterium were preliminarily identified as the DLSs. The PCSs in complexes with flagella were also isolated from the haloalkaliphilic bacterium N. magadii. The specific structure of the archaeal motility apparatus is discussed.

Structural-functional model of the mitotic chromosome.

In the present review the structural role of noncoding DNA, mechanisms of differential staining of mitotic chromosomes, and structural organization of different levels of DNA compactization are discussed. A structural-functional model of the mitotic chromosome is proposed based on the principle of discreteness of structural levels of DNA compactization.

[Intracellular localization of XCAP-E protein in XL2 (Xenopus laevis) cells under normal conditions and during inhibition of pRNA transcription and processing]. / Issledovanie vnutrikletochnoi lokalizatsii belka XCAP-E v kletkakh linii XL2 (Xenopus laevis) v norme i pri ingibirovanii transkriptsii i protsessinga pRNK

The interaction of condensin subunit XCAP-E with various nucleolar subcompartments in XL2 cells was studied. In the interphase cells, XCAP-E was associated with a granular component of nucleoli (as shown by double staining with antibodies against B23) and with small nucleolus-like structures in the nucleoplasm. Inhibition of transcription by actinomycin D does not disrupt interaction of XCAP-E with the granular compartment of segregated nucleoli. Treatment with DRB 5,6-dichloro-1 beta-ribofuranozide-benzimidazole causes disintegration of nucleolar fibrillar complexes, but does not affect nucleolar localization of XCAP-E. The data suggest that nucleolar association of XCAP-E is independent on the functional state of the nucleolus, and imply a possible role of this protein in rRNA processing and pre-fibosome assembly.

[Induction of nuclear envelope formation around individual chromosomes under impact of hypotonic shock]. / Induktsiia formirovaniia iadernoi obolochki vokrug individual'nykh khromosom pod deistviem gipotonicheskogo shoka.

In the present work we have studied the distribution of some proteins participating in the nuclear envelope assembly (lamins A/C, B and LAP2 alpha) in mitotic cells and after hypotonic treatment with 15% Hank's solution. In untreated cells, these proteins are localized in the nuclei of interphase cells migrate to the cytoplasm during mitosis. Hypotonic treatment of interphase, prophase and telophase cells does not lead to considerable relocalization of lamins A/C and B. However, unlike normal mitosis, in prometaphase and metaphase cells their chromosomes acquire affinity to lamins and LAP2 alpha. Comparative analysis of lamins and LAP2 alpha distribution have revealed that chromosomes have special sites for binding with different proteins.

[Intracellular localization of XCAP-E and pEg7 condensins in normal mitosis and after the treatment inducing artificial changes in structural organization of mitotic chromosomes]. / Vnutrikletochnaia lokalizatsiia kondensinov XCAP-E i pEg7 v norme i pri vozdeistviiakh, vyzyvaiushchikh iskusstvennoe izmenenie strukturnogo sostoiianiia mitoticheskikh khromosom.

Function of condensin subunits XCAP-E and pEg7 (XCAP-D2) in the formation and maintaining of special organization of mitotic chromosomes has been studied in Xenopus laevis cells (XL-2). The experimental conditions involved blocking chromosomes being in the condensed state in cells treated by cytostatics, or during their reversible artificial decondensation. The latter was induced by incubation of living cells in hypotonic medium. In extensively mollen chromosomes, XCAP-E and pEg7, remained associated with axial regions of chromosomes. In contrast, upon adaptation of cells to hypotonic conditions and recondensation of chromosomes to nearly initial state, both proteins dissociated from chromosomes into the cytoplasm. In K-mitotic cells, after a 3-6 h treatment with nocodazole or taxol, considerable dissociation of XCAP-E and pEg7 from chromosomes was observed without significant changes in overall level of chromosome compactization. Taken together the data suggested that condensins play no important role in maintaining mitotic chromosomes being in condensed state. Rather, it seems probable that mitotic function of condensins may be associated either with the formation of the higher order chromosome structure, and/or segregation of sister chromatids, the processes being tightly linked with chromosome compactization. This paper is in memory of Professor Katherine Le Guellec of Rennes-1 University, who left us in June 2001. Professor Le Guellec initiated this work in Rennes and offered all the possible help that this work be continued in Moscow University. Let the memory of Katherine, a great scientist and sympathetic friend, live for ever in ours hearts.

Organization of higher-level chromatin structures (chromomere, chromonema and chromatin block) examined using visible light-induced chromatin photo-stabilization.

The method of chromatin photo-stabilization by the action of visible light in the presence of ethidium bromide was used for investigation of higher-level chromatin structures in isolated nuclei. As a model we used rat hepatocyte nuclei isolated in buffers which stabilized or destabilized nuclear matrix. Several higher-level chromatin structures were visualized: 100nm globules-chromomeres, chains of chromomeres-chromonemata, aggregates of chromomeres-blocks of condensed chromatin. All these structures were completely destroyed by 2M NaCl extraction independent of the matrix state, and DNA was extruded from the residual nuclei (nuclear matrices) into a halo. These results show that nuclear matrix proteins do not play the main role in the maintenance of higher-level chromatin structures. Preliminary irradiation led to the reduction of the halo width in the dose-dependent manner. In regions of condensed chromatin of irradiated nucleoids there were discrete complexes consisting of DNA fibers radiating from an electron-dense core and resembling the decondensed chromomeres or the rosette-like structures. As shown by the analysis of proteins bound to irradiated nuclei upon high-salt extraction, irradiation presumably stabilized the non-histone proteins. These results suggest that in interphase nuclei loop domains are folded into discrete higher-level chromatin complexes (chromomeres). These complexes are possibly maintained by putative non-histone proteins, which are extracted with high-salt buffers from non-irradiated nuclei.

[Characteristics of Actinomycin D-induced segregation of a "noncanonical" nucleolus of the sea urchin Paracentrotus lividus]. / Osobennosti segregatsii "nekanonicheskogo" iadryshka ootsitov morskogo ezha Paracentrotus lividus, indytsirovannoi deistviem Aktinomitsina D.

The structure of a "noncanonical" nucleolus of vitellogenic oocytes in the sea urchin Paracentrotus lividus was studied using the inhibitor of transcription actinomycin D. In the control cells, the nucleolus consists of two separated structural subdomains: the dense fibrillar-granular peripheral area and the fibrillar central area. The nucleolus did not contain subdomains corresponding to the fibrillar center and dense fibrillar component of "typical" nucleoli. After treatment with actinomycin D, numerous argyrophilic granules appeared in the karyoplasm, the intranucleolar DNA became compact, and the nucleolar material was segregated into two or three separated zones, the residual peripheral area being the densest and largest. Lesser zones had a decreased electron density and contained argyrophilic proteins and, apparently, the nucleolar organizer material. These results suggest that, for normal rRNA expression and processing, the presence of structural subdomains in the nucleolus, such as fibrillar complexes and a dense fibrillar component, is not essential.

[Differential decondensation of mitotic chromosomes in SPEV tissue cultured cells induced by repeated hypotonic shock ]. / Differentsial'naia dekondensatsiia mitoticheskikh khromosom v kletkakh kul'tury tkani SPEV, indutsirovannaia dvukratnym gipotonicheskim shokom.

A new method of differential decondensation of mitotic chromosomes has been proposed by means of repeated treatment of live cells with 15% Hanks' balanced salt solution. The procedure of cell treatment includes three stages: the first hypotonic shock, cultivation in isotonic medium, and the second hypotonic shock. As a result, after a standard methanol-acetic acid fixation and Giemsa staining some discrete Giemsa-positive globules are revealed in mitotic chromosomes. Such globules are symmetrically arranged in axial regions of sister chromatids. The comparative analysis of marker chromosomes has revealed a topological conformity of these globules to G-bands of chromosomes. It has been shown that it is the first hypotonic shock that triggers induction of structural modification of chromatin in interphase nuclei and in mitotic chromosomes. Of interest is the fact that the effect of the first shock is prolonged in time and is realized during at least one cell cycle, with the normal structure of mitotic chromosomes being restored after S-phase of the successive cell cycle.

[Study of the structural and structure-functional subdomains in the interphase nucleus by photostabilization]. / Izuchenie strukturnykh i strukturno-funktsional'nykh subdomenov interfaznogo iadra metodom fotostabilizatsii.

The role of the nuclear matrix components in the organization of structural and functional domains of interphase nuclei was studied using irradiation with blue light in the presence of a photosensibilized agent (Ethidium bromide). Nuclear domain resistance to extractive solution (2 M NaCl) treatment served as a criterion of irradiation-induced stabilization of different nuclear domains. The following results have been obtained: 1) the structural organization of the complexes of chromatin and clusters of replication does not depend on the state of the nuclear matrix in isolated nuclei; 2) chemical stabilization of the nuclear matrix by Cu(2+)-ions is not sufficient for the organization of chromatin domains; 3) irradiation in the presence of Ethidium bromide stabilizes domains of the nuclei, but does not lead to stabilization of the nuclear matrix internal network. Hence, the irradiation prevented extraction from the nuclear domains of nonhistone proteins which were not standard matrix proteins. Based on the results obtained, a hypothesis was proposed about a coexistence of two groups of nonhistone proteins in the cell nucleus. The first group includes proteins of the nuclear matrix involved in immobilization of scafford attachment regions and active genes. The second group includes some hypothetical structural proteins participating only in compaction of DNA of condensed chromatin.

Noncanonical structural-functional organization of nucleoli in maturing oocytes of sea urchin Paracentrotus lividus.

The dynamics of structural and functional organization of the nucleolus in the oocytes of P. lividus is described. At the late stages of oogenesis the nucleolus is composed of two main components, namely the peripheral zone (PZ) and the central zone (CZ) which are spatially separated. This two-component structure of the nucleolus is formed, at early stages of oogenesis, by stepwise segregation of the fibro-granular component and by its migration to the nucleolar periphery. Absence of morphologically distinct fibrillar centers and dense fibrillar component in nucleoli of both somatic cells and oocytes makes it possible to classify the nucleoli of P. lividus as 'noncanonical' type. Based on detailed morphological and cytochemical analysis the following molecular interpretation of nucleolar ultrastructure in oocytes of P. lividus is proposed: 1) the PZ, containing RNP-positive granules 15 nm in size, but lacking Ag-NOR proteins and BrU incorporation, can be considered a structural equivalent of the granular component of 'typical' nucleoli; 2) the CZ, which is the site of incorporation of RNA precursors, contains intranuclear DNA, RNP-fibers and accumulates Ag-NOR proteins, corresponds to both FC and DFC of 'typical' nucleoli; 3) nucleolar growth during oogenesis, leading to the 1000-fold increase of nucleolar volume, seems to be correlated with the stockpiling of nonfunctioning mature preribosomal particles which will be utilized during embryogenesis.