Immunological studies on the interaction of polyadenylic acid and human liver ribonuclease

The effect of polyadenylic acid, a potent inhibitor of mammalian and bacterial RNAses, on the binding of human liver RNAse to its antibody was studied. To do this, a human liver RNAse antibody was immobilized on Sepharose 4B. Examination of the ability of the enzyme to bind to the immobilized anti-RNAse in the presence or absence of polyadenylic acid indicated that enzyme-antibody binding was more sensitive to the presence of polyadenylic acid than was enzyme activity. Furthermore, the effect of polyadenylic acid on enzyme-antibody binding was specific since neither polycytidylic acid nor polyuridylic acid had much effect on the antigenicity of the enzyme. The metal cation, Mg2+, and the polyamine, spermidine, but not putrescine, readily reversed the effects of polyadenylic acid on enzyme-antibody binding.     

The cytomorphological evaluation of the effect of Bacillus intermedius RNAse on the organs of experimental animals]

Cytomorphological changes in organs of experimental animals after RNAse Bacillus intermedius treatment have been studied. It has been found that RNAse stimulates elements of lympho- and homopies of thymus and spleen and increases stromal reaction and functional activity of liver. The caused effects don't depend on catalytic enzyme activity.     

Effect of repeated intraperitoneal exposure to picrotoxin on rat liver lysosomal function

Effect of repeated (20 days) exposure to picrotoxin (PTX) on rat liver lysosomal function was evaluated by measuring the free and total activities of acid phosphatase, cathepsin D, ribonuclease II (RNAse II) and deoxyribonuclease II (DNAse II). The free activities of the nucleases (both RNAse II and DNAse II) were increased following PTX exposure. The total DNAse II activity was increased by 2.2-fold whereas the total acid phosphatase activity was decreased by 28%. Consequently, the ratios of total activity / free activity were low in the PTX exposed groups, implying loss of membrane integrity. Cathepsin D activity was completely abolished. The results show that repeated exposure to PTX can lead to lysosomal dysfunction in liver.     

Inhibitory effects of RraA and RraB on RNAse E-related enzymes imply conserved functions in the regulated enzymatic cleavage of RNA

RraA and RraB are recently discovered protein inhibitors of RNAse E, which forms a large protein complex termed the degradosome that catalyzes the initial step in the decay and processing of numerous RNAs in Escherichia coli . Here, we report that these E. coli protein inhibitors physically interact with RNAse ES, a Streptomyces coelicolor functional ortholog of RNAse E, and inhibit its action in vivo as well as in vitro ; however, unlike their ability to differentially modulate E. coli RNAse E action in a substrate-dependent manner by altering the composition of the degradosome, both proteins appear to have a general inhibitory effect on the ribonucleolytic activity of RNAse ES, which does not interact with E. coli polynucleotide phosphorylase, a major component of the degradosome. Our findings suggest that these regulators of RNAse activity have a conserved intrinsic property enabling them to directly act on RNAse E-related enzymes and inhibit their general ribonucleolytic activity.     

The biochemical aspects of the stimulating action of exogenous RNAse]

A sequence of biochemical reactions in yeast from moment of RNAse interaction with cell membrane to cell division has been studied. RNAse addition in growth medium causes the increase of Ca2+ entering rate in cells in 2.4 times. Under this condition the increase of membrane enzyme adenylate cyclase correlating with the growth of cAMP content in cell and rise of cAMP-dependent protein kinase activity have been observed. A hypothetic scheme of cellular response on the RNAse effect is suggested.     

The effect of polymeric modification on the biological activity of pancreatic ribonuclease]

The effect of modification of dextran on pharmacokinetic properties of pancreatic RNAse and on its ability to suppress the proliferation of cells has been studied. It has been shown that the basic contribution to biological activity of polymer form of RNAse is making by azo-bonds which are forming in the process of chemical bonding of the protein with dextran support.     

Selective effect of epidermal growth factor on the endoribonuclease activity of different subpopulations of proteasomes from A431 cell line. Specificity of extracellular proteasome population

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.     

The histological evaluation of the effect of Bacillus intermedius RNAse on the organs of immunogenesis in laboratory animals]

Histological changes in organs of immunogenesis of experimental animals after RNAse Bacillus intermedius treatment have been studied. The effect of RNAse on organs is revealed in activation of both cell and humoral immunity and factors of nonspecific resistance at early stage of reaction. The inhibition of immunological reactions and factors of nonspecific resistance takes place at later stages of enzyme action. The caused effects don't depend on catalytic enzyme activity.     

Ribonuclease of Bacillus intermedius 7 P. Purification by chromatography on phosphocellulose and several characteristics of the homogeneous enzyme]

A new procedure for isolation of homogenous ribonuclease of Bac. intermedius from a commercial source is described. The yields of 140 mg of RNAse from 200 g of the enzymic powder were attained. The amino acid composition of the enzyme was determined. The RNAse contains neither the sulfhydryl groups nor the disulfide bonds and has only one histidine residue. At the same time the amount of aromatic amino acid residues is relatively high. The enzyme is highly resistant to heat and acid treatment but is less stable in an alkaline solution. The pH optimum of the RNAse for the RNA digestion is 8,5; the temperature optimum for this reaction is 37 degrees. A spectrophotometric method for the RNAse activity assay using polyA as a specific substrate was developed. The purified product provides a suitable starting material for structural studies.     

Regulation of Endoribonuclease Activity of Alpha-Type Proteasome Subunits in Proerythroleukemia K562 Upon Hemin-Induced Differentiation

The proteasome is the main intracellular proteolytic machine involved in the regulation of numerous cellular processes, including gene expression. In addition to their proteolytic activity, proteasomes also exhibit ATPase/helicase (the 19S particle) and RNAse (the 20S particle) activities, which are regulated by post-translational modifications. In this report we uncovered that several 20S particle subunits: α1 (PSMA6), α2 (PSMA2), α4 (PSMA7), α5 (PSMA5), α6 (PSMA1) and α7 (PSMA3) possess RNAse activity against the p53 mRNA in vitro. Furthermore, we found that the RNAse activity of PSMA1 and PSMA3 was regulated upon hemin-induced differentiation of K562 proerythroleukemia cells. The decrease in RNAse activity of PSMA1 and PSMA3 was paralleled by changes in their status of phosphorylation and ubiquitylation. Collectively, our data support the notion that proteasomal RNAse activity may be functionally important and provide insights into the potential mechanism of p53 repression in erythroleukemia cells by RNAse activity of the 20S α-type subunits.     

Activity of enzymes of nucleic acid metabolism in rat liver nuclei under induction of RNA synthesis by electric stimulation of hypothalamus]

Electrostimulation of hypothalamus results in an increase of RNA synthesis of the AU-type in liver cells of intact and adrenalectomized rats. No such effect is observed in the animals with denervated liver. An increase in RNA synthesis is accompanied by an increase in the activities of RNA-polymerases II and III and histone hydrolase and a decrease in the activities of RNAse and DNAse. The mechanisms of the effect of the nervous system on the activities of the nucleic acid metabolism enzymes are discussed.     

Conformation properties and enzymatic activity of pancreatic ribonuclease in soluble complexes with sodium dextran sulfate

Effect of complex formation with dextran sulfate (DS) (substitution degree 1.3, molecular mass 500 thousand) on RNAse enzymic activity. its spatial structure and conformation stability was studied. Hydrolytic activity of the enzyme in complex in inhibited already at small additions of DS, while the transferase one is changed only at a great excess of the polyelectrolyte. It has been shown by CD spectra that no notable conformation changes proceed in the enzyme during complex formation, although the enzyme turns destabilized to the denaturing effect of heat at the expense of strengthened interactions between DS and RNAse during its denaturation. Thus the inhibition of hydrolytic activity in the complex is primarily related to limitations for the formation of the enzyme-substrate complex on polyelectrolyte charged likely with the substrate, and not to the protein conformation changes.     

An intracellular inhibitory activity of RNase secreted by Bacillus intermedius

Bacillus intermedius cells producing extracellular RNAse were found to contain its inhibitor and an RNAse-inhibitor complex. Bacillus subtilis and Escherichia coli cell lysates did not inhibit the activity of homogeneous extracellular RNAse produced by B. intermedius. The inhibitor was shown to be specific for this RNAse and did not interact with other RNAses. As was demonstrated by biochemical tests and electrophoretic analysis, the inhibitor is released when the protoplasts are disintegrated, i.e. it is located in the cytoplasm. A correlation has been established between the biosynthesis of extracellular RNAse and its intracellular inhibitor.     

Selective effect of inductors of apoptosis on the endoribonuclease activity of 26S proteasomes and alpha-RNP particles in K562 cells: possible involvement of 26S proteasomes and alpha-RNP in the regulation of RNA stability

It has been shown that endoribonuclease activity of alpha-RNP particles and 26S proteasomes are changed under the action of inductors of programmed cell death. Treatment of K562 cells with inductors of apoptosis--doxorubicin (adriamycin) and diethylmaleate--lead to a significant stimulation of RNAse activity of alpha-RNP and to reduction of proteasome RNase activity. The enzymatic activity under study has been shown to be specifically and selectively dependent on phosphorylation of subunits of alpha-RNP particles and 26S proteasomes. The characteristics of RNAse activity of different subpopulations of proteasomes differ. The specificity of a subpopulation of proteasomes exported from the cell has been demonstrated. Proteasome and alpha-RNP involvement in the coordinated control of stability of various specific messenger RNA molecules is suggested, and one of the mechanisms of this control might be the export of specific subpopulation of proteasomes from the cell.     

Isolation and characterization of two alkaline ribonucleases from calf serum.

Treatment of calf serum at 60 degrees C and pH 3.5 followed by chromatography on carboxymethyl (CM) cellulose resulted in the separation of two major peaks of alkaline RNAse activity. One was eluted from CM-cellulose at 0.075 M KCl with an overall purification of 5400-fold and the other was eluted at 0.25 M KCl with a 6700-fold purification. The RNAse eluted from CM-cellulose at 0.075 M KCl was almost completely inhibited by anti-RNAse A serum and by the endogenous RNAse inhibitor and a 33% inhibition was observed in the presence of 5 mM MgCl2. This enzyme seems to be similar or identical to RNAse A. The other RNAse, eluted from CM-cellulose at 0.25 M KCl was not inhibited by anti-RNAse A or 5 mM MgCl2 and was much less sensitive to the endogenous inhibitor. Both enzymes degraded RNA endonucleolytically and the nucleoside monophosphates obtained after partial hydrolysis of RNA by the two serum RNAases were primarily 2'- or 3' -CMP and 2'- or 3' -UMP. Poly(A), native DNA and denatured DNA were degraded slowly or not at all. The RNAase A-like enzyme degraded poly(C) at a significantly faster rate, and poly(U) at a slower rate, than RNA. However, the other serum RNAase was more active with poly(U) than with RNA and almost inactive with poly(C) as the substrate.     

RIBONUCLEASE ACTIVITIES IN VARIOUS CLASSES OF NUCLEI FROM BOVINE CEREBRUM

Abstract— Nuclei of adult bovine cerebrum were separated by dissection of grey matter from white matter and discontinuous sucrose gradient centrifugation, into neuron, astrocyte-enriched and oligodendrocyte fractions. The activities of alkaline and acidic RNAses were determined in the different nuclei types. The acidic and alkaline RNAse activities of the neuronal nuclei were much higher than those of the glial nuclei. In each type of nuclei the acidic RNAse activity was lower than the measured alkaline RNAse activity.     

Protein deamidase from germinating wheat grains.

A new enzyme catalyzing the deamidation of seed storage proteins was found in germinating wheat grains and was partially purified. It also acts on egg lysozyme, horse hemoglobin and reduced RNAse, glutamine and Gly-L-Gln-L-Tyr. No activity was observed when using ovalbumin, serum albumin, RNAse, insulin, asparagine and an asparagine-containing peptide. Only glutaminyl residues appear to be deamidated by this enzyme. It differs from transglutaminase and proved to be a true protein deamidase.     

Partial purification of a double-stranded RNA specific ribonuclease (RNAse D) from Krebs II ascites cells.

In a search for eucaryotic enzymes which might process the heterogenous nuclear RNA (HnRNA) from animal cells into messenger RNA, a ribonuclease called RNAse D analogous to E. coli RNAse III in its ability to cleave specifically synthetic or viral double-stranded polyribonucleotides has been detected and extensively purified from the cytosol of Krebs II mouse ascites cells. The purification procedure involved cellular fractionation followed by DEAE-and CM-cellulose chromatography and resulted in an RNAas D preparation contaminated with trace amounts of single-strand specific RNAse (equivalent to less than 0.3 ng per ml) as assayed against poly (rC). Significant levels of RNAse H activity against poly (rA)-poly (dT) were still present in these preparations.