[Change in localization of cellular vesicular apparatus during differentiation of myoblasts into myotubules in cell culture].

The study of changes in the intracellular processes during differentiation of myoblasts into myotubules is of great importance for understanding several fundamental problems of cell biology. At first, this concerns the spatial organization of vacuolar apparatus that reflects the alterations in the properties of cell membranes, cytoskeleton elements and dynamics of vesicular transport in the course of differentiation. The distribution of acidic membrane organelles (lysosomes, late endosomes, Golgi cisternae) during the myotubule formation was revealed. It was shown that perinuclear localization of acidic organelles in myoblasts was replaced by diffuse distribution of these structures in the whole volume of myotubules. Using lipophilic fluorescent dyes, RH 414 and di-8-ANEPPS, the process of formation and dynamics of endocytic vesicles in myoblasts and myotubules was investigated. In the present work, semiconductive nanocrystals, quantum dots (QDs), conjugated with TAT-peptide, which belongs to cell-penetrating peptides, were used to characterize nonspecific endocytosis. It was shown that QDs--TAT complexes penetrate myoblasts but do not penetrate myotubules even after 24 h incubation, which might be connected with plasma membrane changes during the process of skeletal muscle differentiation.

[Untargeted quantum dots in confocal microscopy of living cells].

The problem of non-specific binding of quantum dots (QDs) with cells is very important but not fully understood taking into account the possible application of QDs in medical and fundamental studies. The interactions of untargeted CdSe/ZnS QDs with isolated frog muscle fibres, HeLa cells and J774 cells were investigated. The observations were performed on living cells using laser confocal microscopy (Leica TCS SL). The QDs covered with polyethylenglycol without any functional reactive groups with emission maximum at 565 nm were used in the study. This type of QDs is suggested to prevent an interaction of QDs with biological molecules. It has been shown that QDs do not enter HeLa cells, T-system and sarcoplasm of skeletal muscle fibres. However, during long-term incubation J774 cells can uptake QDs. The data obtained has demonstrated the diversity of interactions of untargeted QDs with different cell types and are important for understanding of the problems of non-selective uptake and cytotoxicity of QDs.

[AO distribution and fluorescence spectra in myoblasts and single muscle fibres].

Using spectral scanning regime of Leica TCS SL confocal microscope, acridine orange (AO) fluorescence spectra in nuclei and cytoplasms of living myoblasts L6J1 and frog single muscle fibres have been studied. AO fluorescence spectra in salt solutions dependent on free AO concentrations and in AO complexes with DNA have also been obtained for comparison. Myoblasts nuclei fluoresced in green spectral region with maximum at approximately 530 nm (corresponding AO monomers fluorescence), nucleoli fluoresced most brightly. Nuclear chromatin fluoresced not uniformly in these cells. We saw similar to myoblasts AO emission in nucleoli and nuclei of frog single muscle fibres. The uniformed weak green fluorescence was observed for myoblast cytoplasm. As to the muscle fibres sarcoplasm, we saw also AO green fluorescence in A-discs. In myoblasts and muscle fibre cytoplasm we saw the fluorescent red, yellow and green granules which were acidic organelles. The comparison of AO fluorescence spectra in living cells with fluorescence spectra of different AO concentrations and complexes of AO with DNA in buffer solutions allows estimation of AO concentration in acidic granules which is of interest in the investigation of cellular organelles functions in the processes of intracellular transport, adaptation, apoptosis and a number of pathological conditions.

[Confocal-microscopic study of skeletal muscle fibre membrane organelles during Zenker's (spreading) necrosis].

The changes of T-system and cellular acidic organelles during spreading (Zenker's) necrosis of frog skeletal muscle fibres have been investigated using laser confocal microscopy and several vital fluorescent dyes acridine orange, RH 414, DiOC6(3), rhodamine 123, fluorescein dextran. The formation of numerous vacuoles as a result of local T-system swelling is most characteristic for initial steps of Zenker's necrosis. Vacuoles can attain tens microns in length. They are located both near nuclear poles and between myofibres. Vacuoles maintain connections with the extracellular space up to the moment of contraction knot rejection, and under definite conditions (glycerol influx to fibre) vacuoles are reversible. They deform nuclei and sarcoplasmic reticulum cisternae. Cellular acidic organelles, accumulating acridine orange (lysosomes, late endosomes, Golgi apparatus cisternae) are situated in direct vicinity with normal and vacuolated T-system. The increase in acidic organelles number and size occur during the pathological process development, and tendency to vacuoles clusterization may be seen. Vacuolation of T-system during necrosis is not followed by vacuole content acidification. The role of cellular acidic organelles and of T-system vacuolation in the development of different muscle pathological changes is discussed.

Acridine orange accumulation in acid organelles of normal and vacuolated frog skeletal muscle fibres.

The spatial distribution of acid membrane organelles and their relationships with normal and vacuolated transverse tubules has been studied in living frog skeletal muscle fibres using confocal microscopy. Acridine orange (AO) was used to evaluate acid compartments, while a lipophilic styryl dye, RH 414, was employed to stain the membranes of the T-system. AO accumulated in numerous spherical granules located near the poles of nuclei and between myofibrils where they were arranged in short parallel rows, triplets or pairs. AO granules could be divided into three groups: green (monomeric AO), red (aggregated AO), and mixed green/red. As demonstrated by lambda-scanning, most granules were mixed. Double staining of muscle fibres with AO and RH 414 revealed almost all AO granules located near the transverse tubules. Vacuolation of the T-system was induced by glycerol loading and subsequent removal. The close juxtaposition of AO granules and the T-system was preserved in vacuolated fibres. The lumens of vacuoles did not accumulate AO. It is concluded that AO granules represent an accumulation of AO in lysosome-related organelles and fragmented Golgi apparatus and a possible functional role of the spatial distribution of such acidic compartments is discussed.

[Effect of alkaloid sanguinarine and a pharmaceutical preparation ukrain on modulation of vesicular membrane fusion and actin cytoskeleton of macrophages].

A study was made of modulations of lysosome-phagosome fusion process and of fibrillar actin content in mouse peritoneal macrophages by an antitumor alkaloid sanguinarine and a derivative drug Ukrain. In addition, effects of these substances on in vitro polymerization of monomeric globular actin from rabbit muscle were investigated. Sanguinarine and Ukrain stimulated lysosome-phagosome fusion and increased the content of polymerized fibrillar form of actin in mouse macrophages. Effects of these substances were enhanced at their higher concentrations. Both sanguinarine and Ukrain induced in vitro polymerization of globular actin from rabbit muscle. A possible role of sanguinarine and Ukrain in changing vesicular membrane states during intracellular membrane interaction in lysosome-phagosome fusion process was discussed. The influence of these substances on actin polymerization and actin cytoskeleton rearrangement was evaluated. It could be supposed that sanguinarine and Ukrain may alter intracellular membrane transport.

Sensitivity of lysosomal enzymes to the plant alkaloid sanguinarine: comparison with other SH-specific agents.

The influence of the benzo[c]phenanthridine alkaloid sanguinarine on some lysosomal enzyme activities was investigated. Sanguinarine inhibits lysosomal hydrolases in homogenates of cultured mouse fibroblasts. After incubation of mouse fibroblasts in culture with 100 microM sanguinarine an approximately 50% decrease in the activities of N-acetyl-beta,D-glucosaminidase (NAGA), beta-galactosidase (GAL), arylsulfatase and acid lipase was observed. Because the biological activity of sanguinarine might arise from the interaction of its iminium cation with enzyme thiol groups, we compared its effect on NAGA, GAL and acid phosphatase (AcP) activities with the effects of SH-specific reagents p-chloromercuribenzoic acid (CPMA) and N-ethylmaleimide (NEM). Treatment of lysosomal fractions with millimolar concentrations of sanguinarine induces a dose-dependent inhibition of the enzymes; for example, 0.6 mM sanguinarine causes approximately a 40% decrease in AcP and NAGA activities. NEM has similar effects, and increasing the preincubation temperature from 0 degrees C to 37 degrees C intensifies the inhibition due to both agents. CPMA also inhibits the activity of GAL (IC50 0.7 microM), AcP (IC50 12.5 microM) and NAGA (IC50 6.8 microM) in a dose-dependent manner but is more potent than sanguinarine or NEM. Comparative analysis of the primary structures of these enzymes using the program BLAST reveals the presence of highly conserved cysteine residues, which confirms the importance of thiol-groups for their activities. Thus, both the experimental observations obtained in this study and the literature data imply a significant role of redox-based mechanisms in regulating lysosomal functional activity.

[Localization of acid organelles in frog skeletal muscle fibers]. / Lokalizatsiia kislykh organoidov v skeletnykh myshechnykh voloknakh liagushki.

By means of fluorescent and phase-contrast microscopy the distribution of acid membrane organelles in normal and vacuolated frog skeletal muscle fibers has been studied. The vacuolation of the T-system was produced by loading and subsequent removal of glycerol (80-110 mM), or it appeared as a result of Zenker's necrosis. Acridine orange (AO) was used as a marker for acid intracellular compartments. AO accumulated in granules localized near the nuclear poles (more seldom around the nucleus)' and in the intermyofibrillar spaces. Typically the AO granules make up short longitudinal chains or regular pairs, where the distances between neighboring granules are short-dated to sarcomere lengths. Almost all granules emit in red, but about one third of them simultaneously emit in green, which is characteristic of AO monomers. In the vicinity of necrotic boundary or under the influence of brefeldin A, a green component of fluorescence appears in most granules. Treatment with monensin leads to granule disappearance. Vacuoles accompanying the glycerol treatment or developing of necrosis do not accumulate AO and exert no effect on the localization of AO-granules. The nature of cellular organelles accumulating AO in skeletal muscle fibers is discussed.

[Effects of cationic vectors complexed with plasmid DNA on the phagosome-lysosome fusion in murine peritoneal macrophages and J744 macrophages]. / Vliianie kationnykh vektorov transfektsii v komplekse s plazmidnoi DNK na sliianie lizosom s fagosomami v peritoneal'nykh makrofagakh myshi i v makrofagakh linii J774.

Polyethylenimine (PEI) and cationic polypeptides complexed with plasmid DNA are the most efficient nonviral vectors for gene therapy. It is believed that endocytosis is the major pathway for cell entering by PEI/DNA or cationic peptides/DNA complexes. Effects of plasmid DNA complexed with PEI, poly-L-lysine (PLL), poly-D-lysine (PDL) and polyarginine (PA) on the phagosome-lysosome fusion (P-LF) were studied in murine peritoneal macrophages and J774 macrophages. Cationic polypeptide PLL can be hydrolysed by cellular peptidases, but its stereoisomer, PDL, cannot be split by these enzymes. PEI, PDL, and PA have been shown to inhibit P-LF. PLL showed a low effect on the P-LF. On the basis of these studies, we assume that lysosomotropic agents able to change functions of lysosomes in the cell may affect transfection efficiency and thus be used for gene therapy.

[Effect of polyamine synthesis inhibitors separately and in combination with epidermal growth factor on fusion of lysosomes with phagosomes and F-actin level in mouse peritoneal macrophages]. / Vliianie ingibitorov sinteza poliaminov razdel'no i v sochetanii s épidermal'nym faktorom rosta na sliianie lizosom s fagosomami i na soderzhanie F-aktina v peritoneal'nykh makrofagakh myshi.

Effects of polyamine (PA) synthesis inhibitors--alpha-difluoromethylornithinchloride (DFMO) and alpha-methylornithinchloride (MO)--separately or in combination with the epidermal growth factor (EGF)--on lysosome-phagosome fusion (P-LF) and F-actin content in murine peritoneal macrophages were studied using fluorescent dye Acridine orange for lysosome labelling, FITC-phalloidin for F-actin, and yeast cells as a target. DFMO and MO significantly inhibited P-LF and decreased F-actin content in murine peritoneal macrophages. A combination of DFMO and MO with EGF failed to inhibit P-LF or to decrease F-actin content in these cells. The results obtained with DFMO and MO suggested new cellular targets of their effects. These results may be extended to cancer research to provide a rationale for clinical trials using combinations of EGF with DFMO or MO.

[Effect of some DNA-intercalators and antioxidants on the phagosome- lysosome fusion and F-actin content in murine peritoneal macrophages]. / Vliianie nekotorykh DNK-interkaliatorov a antioksidantov na sliianie fagosom s lizosomami i na soderzhanie F-aktina v peritoneal'nykh makrofagakh myshi.

Effect of DNA-intercalators ethidium bromide (EB, 0.005 and 0.015 mM) and dimidium bromide (DB, 0.005 and 0.010 mM) and antioxidative compounds acetylsalicylic acid (ASA, 0.05 and 0.50 mM) and beta-carotene (0.01, 0.02, 0.05 mM) on the phagosome-lysosome (P-L) fusion and F-actin content in murine peritoneal macrophages were studied. EB, DB, ASA and beta-carotene were found to stimulate P-L fusion and the effect depending on the concentration of compounds tested. The strongest influence as evoked by 0.5 mM of ASA and 0.05 mM of beta-carotene. The compounds tested enhanced the F-actin content in macrophages, especially by the action of beta-carotene (0.05 mM). The obtained data indicate a correlation between P-L fusion stimulation and F-actin content under the influence of compounds tested in murine peritoneal macropheages.

Effects of some biologically active compounds on phagosome-lysosome fusion in peritoneal macrophages of mice.

Effects of biologically active compounds bilirubin (BR), farmorubicin (FR), and chelerythrine (CR) on phagosome-lysome (P-L) fusion in mouse peritoneal macrophages were studied using fluorescent dye acridine orange as lysosomal labelling and yeast cells as target. It was found that all three compounds tested enhanced P-L fusion. To investigate mechanisms of these effects, changes in fluidity of rat liver lysosomal membranes under influence of BR, FR and CR were studied by measuring fluorescence intensity, lifetime, and polarization of DPH or TMA-DPH incorporated in isolated rat liver lysosomes. In order to characterize the cytoskeleton changes under the action of these biologically active compounds F-actin content in peritoneal macrophages of mice was determined. Our results demonstrate that BR action induces a decrease in DPH and TMA-DPH polarization, FR increases DPH and TMA-DPH polarization, and CR causes only an increase in TMA-DPH polarization in lysosomal membranes. All three compounds tested increase F-actin content in peritoneal macrophages. Thus, the effect of BR on P-L fusion is connected with increasing fluidity of lysosomal membranes and the cytoskeleton changes. The enhancement of P-L fusion under the action of FR and CR can most likely be explained by changes of the cytoskeleton state.

[The effect of biologically active compounds on lysosome fusion with phagosomes and the F-actin content in mouse peritoneal macrophages and on the status of the lysosomal membranes in mouse hepatocytes]. / Vliianie biologicheski aktivnykh soedinenii na sliianie lizosom s fagosomami i soderzhanie F-aktina v peritoneal'nykh makrofagakh myshi i na sostoianie lizosomnykh membran gepatotsitov myshi.

Effects of biologically active compounds bilirubin (BR, 0.1 and 0.2 mM), chelerythrine (CR, 0.1 and 0.5 mM) and farmorubicin (FR, 0.6 and 6.0 mM) on the phagosome-lysosome fusion (P-LF) were studied using fluorescent dye acridine orange for lysosomal labelling and yeast cells as a target. To investigate mechanisms of these effects, changes in fluidity of lysosomal membranes from murine liver were studied by measuring of fluorescence intensity, lifetime and polarization of the fluorescent membrane probes: DPH (1,6-diphenyl-1,3,5-hexatriene) and TMA-DPH [1-(4-triphenylamino)-6-phenyl-1,3,5-hexatriene] incorporated in isolated murine liver lysosomes. In order to characterize the induced cytoskeleton changes, the F-actin content in murine peritoneal macrophages was determined. It was found that all three compounds tested enhanced P-LF. Our results demonstrate that BR induces a decrease in DPH and TMA-DPH fluorescence polarization, FR increases DPH and TMA-DPH fluorescence polarization, and CR causes an increase in TMA-DPH fluorescence polarization in lysosomal membranes. All the three compounds increase F-actin content in peritoneal macrophages. Thus, the action of BR extended on P-LF is associated with increasing lysosomal membranes fluidity and cytoskeleton changes. The enhancement of P-LF under the action of FR and CR can be most likely explained by changes of cytoskeleton.

[The vacuolar apparatus and membrane fusion in the cell]. / Vakuoliarnyi apparat i sliianie membran v kletke.

Current literature on the structure of vacuolar apparatus and its involvement in the process of intracellular transport has been reviewed. Modern views on endocytosis and its particular steps are described. Special attention is paid to one of important steps of endocytosis-the phagosome-lysosome fusion, its disturbance under the action of pathogenic microorganisms, its inhibition and stimulation by some chemical factors and biologically active compounds. The authors widely used their own experimental data. Much attention is paid to the current notions on the fusion pore structure and function, as well as on fusion mechanisms of biological membranes and factors regulating this process.

[The effect of different antitubercular agents on phagosome fusion with lysosomes, on the F-actin content in mouse peritoneal macrophages and on G-actin polymerization in vitro]. / Vliianie razlichnykh protivotuberkuleznykh sredstv na sliianie fagosom s lizosomami, na soderzhanie F-aktina v peritoneal'nykh makrofagakh myshi i na polimerizatsiiu G-aktina in vitro]

Effects of various antituberculosis remedies (ATR)--isoniazid (INA), saluzid (SA), streptosaluzid (SS), ethambutol (EB), sodium para-aminosalicylate (SPAS) on phagosome-lysosome (PL) fusion, on F-actin content in mouse macrophages and on G-actin polymerization in vitro were studied. The ATR of choice have been shown to stimulate the PL fusion. INA (0.2 mM), SA (0.02 mM), SS (0.05 mM), EB (0.08 mM) and SPAS (0.5 mM) increased the F-actin content and changed its localization within macrophages. ATR changed the character of G-actin polymerization in vitro. Possible mechanisms of interrelation between cytoskeleton (actin part) changes and PL fusion are discussed. The results obtained suggest to use the ATR-induced changes in PL fusion and F-actin content in the cells for estimating therapeutic effects of respective antituberculosis remedies.

[The effect of chemical agents on lysosome fusion with phagosomes and on the F-actin content in murine peritoneal macrophages]. / Vliianie nekotorykh agentov na sliianie lizosom s fagosomami i na soderzhanie F-aktina v peritoneal'nykh makrofagakh myshei.

The influence of natural and synthetic polyamines, phalloidin, cytochalasin D, vinblastine, colchicine, puromycin, chlorpromazine, urea, glutaraldehyde, and ethanol on the phagosome-lysosome fusion and the content of F-actin in murine peritoneal macrophages has been studied. Fluorescent phallotoxin FITC-phalloidin was used to stain F-actin. Natural polyamines (spermine, spermidine, putrescine), phalloidin, ethanol (0.1 M) stimulated the phagosome-lysosome fusion and increased the mid-content of F-actin in macrophages. Cytochalasin D, vinblastine, colchicine, puromycin, chlorpromazine, urea, glutaraldehyde, ethanol (0.15 and 0.2 M) inhibited this process and decreased the mid-content of F-actin. Possible mechanisms of the interconnection of cytoskeleton and the phagosome-lysosome fusion are discussed.

[The effect of diamines on the process of lysosome fusion with phagosomes in mouse peritoneal macrophages]. / Vliianie diaminov na protsess sliianiia lizosom s fagosomami v peritoneal'nykh makrofagakh myshei.

Diamines (DA), characterized by a general formula H2N-(CH2) n-NH2 in which n varies from 2 to 10, inhibit the phagosome-lysosome fusion in murine peritoneal macrophages. The DA concentration was 0.2, 0.5 and 1.0 mM. The inhibitory effect increased with increasing the number of CH2-groups in the DA molecule. It was suggested that DA could influence the lysosomal membrane state. An additional proof of such changes was obtained with 1,6-diphenyl-1,3,5-hexatrien (DPH) as a fluorescent probe. Lysosomes isolated from murine peritoneal macrophages by differential centrifugation were used. It was found that DPH fluorescence intensity in lysosomal membrane increased under the influence of DA.

[The effect of polyanion, cationic and anionic dyes and nonelectrolytes on phagosome fusion with lysosomes in mouse peritoneal macrophages]. / Vliianie polianiona, kationnykh i anionnykh krasitelei i neélektrolitov na sliianie fagosom s lizosomami v peritoneal'nykh makrofagakh myshei.

Polyanion (mannansulphate), cation dyes (Toluidine blue, Nile blue), anion-dye (Trypan blue) also non-electrolytes (urea, glutaraldehyde) were found to inhibit the phagosome-lysosome fusion in murine macrophages. The mechanism of this effect is discussed.

[The effect of polyamines on lysosome fusion with phagosomes in mouse peritoneal macrophages]. / Vliianie poliaminov na sliianie lizosom s fagosomami v peritoneal'nykh makrofagakh myshei.

The influence of polyamines on the phagosome-lysosome fusion in murine peritoneal macrophages and on polymerization of G-actin from the rabbit muscle in vitro has been studied. Both natural polyamines (spermin, spermidin, putrescin) and synthetic phenyl derivates of polyamines (3,3'-diaminobensidin, 1,5-naphtalin diamine, 4,4'-diaminodiphenilmetan, dancylcadaverin) were used. Unlike the phenyl derivates of polyamines and putrescin, spermin and spermidin stimulate the phagosome-lysosome fusion to induce G-actin polymerization. Possible mechanisms of action of the above polyamines are discussed.