[THE USE OF THE COMMERCIAL APPARATUS DUAL GEL MODULE FOR THE TWO-DIMENSIONAL POLYACRYLAMIDE GEL ELECTROPHORESIS].

Two-dimensional gel electrophoresis, continues to be one of the fundamental methods to study the biological protein diversity. This method described by O'Farrell in 1975 includes two following steps: isoelectric focusing in the first dimension and polyacrylamide gel electrophoretic fractionation of proteins according to their molecular weight in the second dimension. In this manuscript we described several technical parameters of the commercial apparatus Dual Gel Module for the gel electrophoresis by means of which it is possible to accomplish the electrophoretic protein fractionation in both dimensions. The distribution of the highly purified commercial proteins used as molecular standards in the detection system of the apparatus Dual Gel Module was identical to the commercial strips of the device GE Healthcare, USA.

[Mass-spectrometric analysis of proteasomal subunits possessing endoribonuclease activity].

Proteasomes act as the main apparatus of non-lysosomal intracellular proteolysis and participate in the regulation of most important cellular processes. Despite considerable progress in the understanding of proteasome's functioning, some issues, in particular, RNase activity of these ribonucleoprotein complexes and its regulation remain scarcely explored. In this paper we found several proteins corresponding by electrophoretic mobility to subunits of the complex 20S proteasome to possess endoribonuclease activity with respect to both sense and antisense sequences of the c-myc mRNA 3'-UTR. Mass-spectrometric analysis of tryptic hydrolysates of these proteins revealed in the samples the presence of 20S proteasome subunits--αl (PSMA6), α5 (PSMA5), α6 (PSMA1) and α7 (PSMA3). A number of novel phosphorylation sites in subunits αl (PSMA6) and α7 (PSMA3), and the form of subunit α5 (PSMA5) with a deletion of N-terminal 20 amino acid residues detected. The observed differences of individual subunits in the possession endonuclease activity could be apparently explained by postranslational modifications of these proteins, in particular--by phosphorylation. It is shown that the specificity of the proteasomal RNase activity varies after dephosphorylation and also influenced by Ca and Mg cations. The conclusions made about the impact of the PTM status of proteasome subunits on the specificity of their RNase activity.

[Comparative analysis of methods for purification and concentration of 26S proteasomes isolated from rat liver].

The 26S proteasome is a multi-subunit protein complex that consists of the catalytic 20S and regulatory 19S sub-complexes. The most well studied function of proteasomes is specific degradation of proteins. There are several purification schemes for obtaining the preparations of 26S proteasomes. An important step in purification of 26S proteasomes is concentration of the purified material for subsequent analysis of its biochemical functions. In this report we showed that the subunits composition of 26S proteasomes that have been concentrated by the different modes at the latest stage of their preparation is identical. However, the concentrating mode differently affects the functional activity of these complexes.

[Proteasomes and their role in the extracellular space].

The presented review concerns the intracellular proteasome and their possible functions. The ubiquitin-proteasome system (UPS) is responsible for the common regulated proteolysis in the cell. 26S proteasome is a central proteolytic unit of UPS and is a multisubunit protein complex consisting of a core catalytic complex, called 20S proteasome, capped at one or both ends by 19S regulatory complex. Proteasomes have been shown in the extracellular space: in alveolar and cerebrospinal fluids, blood plasma. Extracellular proteasomes are intact intracellular particles that exhibit three types of specific peptidase activity. Extracellular proteasomes have been detected in both healthy people and patients with different diseases. Its concentration has been found to be increased in patients suffering from autoimmune diseases, malignant tumors, trauma or sepsis and to correlate with the disease progression, which has both diagnostic and prognostic value.

[Reprogramming of nuclear proteasomes in K562 cells undergoing apoptosis. II. Effect of anticancer drug doxorubicin].

The induction of apoptosis in K562 cells by doxorubicin (DR) was used as a model to investigate changes in the subunit composition, phosphorylation state and enzymatic activities of 26S proteasomes in cells undergoing the programmed death. Here we have shown for the first time that proteasomes isolated from the nuclei of control and induced K562 cells differ in their subunit patterns, as well as in the phosphorylation state of subunits on threonine and tyrosine residues. It has been shown for the first time that trypsin- and chymotrypsin-like, and the endoribonuclease activities of nuclear 26S proteasomes are affected under influence of DR on K562 cells. Treatment of K562 cells with DR leads to modification of zeta/alpha5 and iota/alpha6 proteasomal subunits associated with RNase activity of proteasomes. These findings confirm our hypothesis about so-called reprogramming of nuclear proteasomes population in undergoing apoptosis K562 cells which is manifested by changes in proteasomal composition, phosphorylation state, and enzymatic activities during the programmed cell death.

[Reprogramming of nuclear proteasomes in K562 cells undergoing apoptosis. I. Effect of glutathione-depleting agent, diethylmaleate].

Here we have studied changes in the subunit composition, phosphorylation state and enzymatic activities of 26S proteasomes in cells undergoing the programmed cell death. Apoptosis in proerythroleukemic K562 cells was induced by glutathione-depleting agent, diethylmaleate (DEM). We have shown for the first time that proteasomes isolated from the nuclei of control and induces K562 cells differ in their subunit patterns, as well as in the phosphorylation state of subunits on threonine and tyrosine residues. We observed trypsin- and chymotrypsin-like activities on nuclear proteasomes and the specificity of proteasomal nucleolysis of several individual messenger RNAs (c-fos and c-myc) to be changed under effect of DEM on K562 cells. Treatment of K562 cells with DEM leads to modification of zeta/alpha5 and iota/alpha6 proteasomal subunits associated with RNAse activity of proteasomes. These findings confirm our hypothesis about so-called reprogramming of nuclear proteasome population in undergoing apoptosis K562 cells which is manifested by the changes in proteasomal composition, phosphorylation state, and enzymatic activities during the programmed cell death.

[Specificity of changes in proteasome properties in diethylmaleate-induced apoptosis of K562 cells].

The participation of proteasome in the programmed cells death is now extensively investigated. Studies using selective inhibitors of proteasomes have provided a direct evidence of both pro- and anti-apoptotic functions of proteasomes. Such opposite roles of 26S proteasomes in regulation of apoptosis may be defined by the proliferative state of cell. The induction of apoptosis in K562 cells by diethylmaleate was used as a model to investigate changes in the subunit composition, phosphorylation state and enzymatic activities of 26S proteasomes undergoing the programmed cell death. Here we have shown that proteasomes isolated from the cytoplasm of control and diethylmaleate treated K562 cells differ in their subunit patterns, as well as in the phosphorylation state of subunits on threonine and tyrosine residues. It has been shown for the first time that proteolytic activity of 26S proteasomes is decreased, and endoribonuclease activity of 26S proteasomes is affected under diethylmaleate action on K562 cells. Treatment of K562 cells with an inductor of apoptosis--diethylmaleate--leads to modification of a proteasomal subunit (zeta/alpha5) associated with RNase activity of proteasomes. These data suggest the subunit composition and enzymatic activities of 26S proteasomes to be changed in K562 cells undergoing apoptosis, and that specific subtypes of 26S proteasomes participate in execution of programmed death of these cells.

[Phosphorylation of proteasomes and alpha-RNP from rat liver cells].

In eukaryotic cells the population of proteasomes is heterogeneous. Here we have shown that proteasomes from nuclei and cytoplasm of rat liver cells differ in their subunit patterns. The subunit pattern of alpha-RNP differs from that of proteasomes, however, alpha-RNP particles contain the number of 26S proteasome subunits. Moreover, the proteasomes contain subunits of alpha-RNP. We have shown for the first time that nuclear proteasomes and alpha-RNP are hyperphosphorylated on threonine residues. Differences in phosphorylation state of subunits of nuclear and cytoplasmic proteasomes and alpha-RNP on threonine and tyrosine residues have been revealed. A suggestion is put forward that hyperphosphorylation of subunits may determine nuclear localization of these complexes in rat liver cells. The results obtained suggest that a highly specialized system of protein kinases and phosphatases may be involved in the regulation of phosphorylation state of different populations of proteasomes and alpha-RNP in rat liver cells.

[Effect of EGF on the activity of nuclear and cytoplasmic 26S proteasomes in A431 cells].

It has been first shown that EGF regulates a proteolytic activity of proteasomes. Following a 15 min action with 100 ng/ml EGF, three types of peptidase activity of both cytoplasmic and nuclear proteasomes were induced in A431 cells, although, this effect on different populations of proteasomes was selective. EGF preferentially stimulates chymotrypsin-like activity of cytoplasmic proteasomes, and induces a similar increase of chymotrypsin-like, trypsin-like and peptydylglutamyl peptide hydrolase activities of nuclear particles. Tyrphostin, an inhibitor of tyrosine kinase activity of EGF receptor, prevents the EGF effect on both proteolytic and RNase activity of nuclear and cytoplasmic proteasomes. It is concluded that EGF may rapidly and selectively stimulate enzymatic activity of EGF receptor.

[Selective effect of epidermal growth factor on the endoribonuclease activity of different subpopulations of proteasomes from A431 cell line. Specificity of extracellular proteasome population]. / Selektivnoe vliianie épidermal'nogo faktora rosta na éndoribonukleaznuiu aktivnost' razlichnykh subpopuliatsii proteasom v kletkakh linii A431. Spetsifichnost' populiatsii proteasom, éksportiruemykh iz kletok.

For the first time, it has been shown that population of proteasomes is heterogeneous in their RNAse activity. EGF exerts selective effect on different subpopulations of proteasomes. The RNAse activity of cytoplasmic proteasomes is induced under the influence of EGF on epidermoid carcinoma cell line A431. However, the activity of proteasomes isolated from culture medium and of nuclear proteasomes is inhibited by EGF. The above enzymatic activity has been shown to be specifically and selectively dependent on phosphorylation of proteasomal subunits in different subpopulations of proteasomes. Proteasome involvement in the coordinated control of specific messenger RNA molecules stability is suggested, and one of the mechanisms of this control might be an export of specific subpopulation of proteasomes from the cell.

[EGF regulation of specific endoribonuclease activity of 26S proteasomes from A431 cells: a potential role of proteasomes in control of mRNA stability]. / Reguliatsiia éndoribonukleaznoi aktivnosti 26S-proteasom épidermal'nym faktorom rosta v kletkakh linii A431: vozmozhnoe uchastie proteasom v kontrole nad stabil'nost'iu RNK.

For the first time it has been shown that RNase activity is induced under the influence of EGF on epidermoid carcinoma cell line A431. Proteasomes from EGF-treated A431 cells destabilize the 3'-untranslated regions of non-muscle beta actin mRNA, creating a specific cleavage pattern. In addition, these particles have been shown to specifically cleave Alu-containing informational RNA. The enzymatic activity under study has been shown to be dependent on phosphorylation of proteasomal subunits and specifically and selectively regulated by Ca and Mg ions. Proteasome involvement in the coordinated control of stability of specific messenger RNA molecules is suggested. The endoribonuclease activity of 26S proteasomes can constitute a link between EGF signaling pathways and RNA stability.

[Specific regulated endonuclease activity of small RNP, containing prosomes from the A431 cell line: possible mechanisms of regulating the stability of RNA by epidermal growth factor]. / Spetsificheskaia reguliruemaia éndoribonukleaznaia aktivnost' malykh RNP, soderzhashchikh prosomy, iz kletok linii A431: vozmozhnyi mekhanizm reguliatsii stabil'nosti RNK épidermal'nym faktorom rosta.

A comparative study was made of reactive oxygen species (ROS) in rat embryo fibroblasts and their transformants. Primary rat embryo fibroblasts (REF), REF transformed by the complementing oncogenes E1A plus cHa-ras (cell line E1A + Ras), and REF transformed by E1A plus E1B-19 kDa (cell line E1A + E1B) were studied. ROS generation was measured with microfluorometric assay using fluorescent probe 2',7'-dichlorofluorescin diacetate. It has been shown that the block of REF and E1A + 1B cells in the G1/S under serum-starved conditions (0.5% serum) for 24-48 h was paralleled by a decrease in ROS generation. Activation of serum-starved REF and E1A + 1B cells with 10% serum resulted in reactivation of cell cycle and gradual increase in ROS generation. The maximum intracellular level of ROS correlated in time with the phase of DNA synthesis. Serum-starved E1A + Ras cells were not stopped in the G1/S and ROS production of these cells was not dependent on serum growth factors. The prolonged cultivation of E1A + Ras cells in the medium with low serum content (0.5%) caused a sharp increase in ROS generation, which was accompanied by apoptotic death.

[Novel endoribonuclease activity of 26S-proteasomes from A-431 cells]. / Novaia éndoribonukleaznaia aktivnost' 26S-proteasom iz kletok linii A-431.

Our analysis detected in 26S proteasomes of human A-431 cells a strong endoribonuclease activity, degrading cytoplasmic high-molecular-mass RNA, particularly, specific mRNAs. Enzymatic nature of this activity has been confirmed, and the optimal conditions studied. This endonuclease activity of proteasomes has not been earlier observed. Proteasome involvement in the stability control of specific messenger RNA molecules is suggested, and proteasome participation in the coordinated control of various stages of gene expression is discussed.

The specific endoribonuclease activity of small nuclear and cytoplasmic alpha-RNPs.

For the first time small nuclear ribonucleoprotein particles (alpha-RNP) tightly bound to chromatin as well as cytoplasmic alpha-RNP are shown to possess strong and regulated endonuclease activity specific for mRNAs and hnRNAs. The enzymatic nature of this activity is confirmed, and the optimal conditions detected. This RNase activity is controlled by the action of a differentiating stimulus, dimethylsulfoxide, in human K562 cells. Small alpha-RNP involvement in the coordinated control of stability of pre-messenger RNA and messenger RNA molecules is suggested.

[Determination of specific hepatitis A markers by a radioimmunological method with autoradiographic recording of the results]. / Opredelenie spetsificheskikh markerov gepatita A radioimmunologicheskim metodom s avtoradiograficheskoi registratsiei rezul'tatov.

The possibility of determining specific markers of hepatitis A by a simple variant of radioimmunoassay on a polyethylene film with autoradiographic recording of the results was demonstrated. The high sensitivity of the method, an extremely simple procedure, no necessity of special radiometric apparatuses, visual demonstration and reliability of the results recommend it for hepatitis A diagnosis.