[Effect of natural amino acids and sugars on cyclase activities in infusoria Tetrahymena pyriformis and Dileptus anser].

Natural amino acids and sugars in intracellular eukaryotes are known to regulate adenylyl cyclase (AC) and guanylyl cyclase (GC) systems that control the most important cell processes. The goal of the present work consisted in study of effects of natural amino acids and sugars and some of their derivatives on AC and GC activities of infusoria Tetrahymena pyriformis and Dileptus anser. Methionine, arginine, lysine, and tryptamine stimulated basic AC activity of T. pyriformis, whereas alanine, thyrosine, and cysteine decreased it. Methionine, glycine, alanine, thyrosine, arginine, and to the lesser degree tryptamine and histidine stimulated AC of D. anser. The GC activity of T. pyriformis are increased in the presence of tryptamine, tryptophane, histidine, arginine, and lysine, whereas glycine and aspartic acid, on the contrary, decreased it. Tryptamine, tryptophan, leucine, glutamic acid, serine, histidine, and alanine stimulated the GC activity of D. anser. Glucose, fructose, and sucrose stimulated the basal AC activity of both infusorians and GC of T. pyriformis, with glucose and sucrose increasing AC of T. pyriformis twice, while that of D. anser 4.5 times. Lactose stimulated AC and GC of T. pyriformis and was inefficient with respect to the D. anser cyclases, whereas mannose and galactose did not affect the enzyme activities in both infusorians. The study of the chemotactic response of infusorians to amino acids and sugars indicates that involved in realization of this response can be signaling pathways both dependent on and independent of cyclic nucleotides. Thus, it has been established for the first time that several amino acids and sugars affect functional activity of enzymes with cyclase activity of the infusorians T. pyriformis and D. anser. This confirms the hypothesis that at early stages of evolution the large spectrum of comparatively simple natural molecules has a hormone-like action.

[Regulation by cyclic adenosine monophosphate of functional activity of the adenylyl cyclase system of the infusorian Dileptus anser].

In some unicellular eukaryotes, cAMP performs functions not only of the second messenger, but also of hormone, the primary messenger. We have found that cAMP binds to surface receptors of the free-living infusorian Dileptus anser and stimulates activity of the adenylyl cyclase signaling system (AC-system) including heterotrimeric G-proteins and enzyme adenylyl cyclase (AC). The binding of cAMP to receptor is performed with a high affinity (K(D), 27 nM) and is highly specific, as cGMP and adenosine do not produce a marked effect on it. The infusorian cAMP-receptors have been shown to be coupled to G-proteins, which is indicated by a decrease of their affinity to the ligand in the presence of GTP, stimulation of the GTP-binding of G-proteins with the cyclic nucleotide, and block of the cAMP regulatory effects with suramin, an inhibitor of heterotrimeric G-proteins. cAMP stimulates dose-dependently the AC activity, its effect remaining virtually unchanged in the presence of cGMP, AMP, GMP, and adenosine. N6,O2-dibutyryl-cAMP, a non-hydrolyzed cAMP analog, only at comparatively high concentrations competes with cAMP for binding sites and decreases the cAMP stimulating effects on the AC activity and GTP binding. Thus, we have shown for the first time that the AC system of the infusorians D. anser is stimulated with the extracellular cAMP that in this case functions as the external signal regulates activity of extracellular cAMP-dependent effector systems.

[Inhibitory action of polycationic peptides on hormonal regulation of adenylyl cyclase of the ciliate Dileptus anser].

To analyse molecular mechanisms of regulatory action of different hormones on the activity of the adenylyl cyclase signaling system (ACS) of the ciliate Dileptus anser, we studied the influence on this process of six synthetic polycationic peptides and peptides, corresponding to C-terminal regions of mammalian G-protein 385-394 alphas- and 346-355 alphai2-subunits. As we reported earlier, these peptides block hormonal signal transduction in tissues of the higher eukaryotes. Now it has been found that both polycationic peptides, containing hydrophobic C to-radicals, and branched peptides decrease regulatory effects of peptide hormones (insulin, relaxin) and biogenic amines (serotonin, adrenaline) on adenylyl cyclase (AC) activity and GTP-binding. In regard to the following peptides Cys-epsilonAhx-Trp-Lys-Lys(C10)-Lys2-Lys(C10)-Lys3-Lys(C10)-Tyr-Lys-Lys(C10)-Lys-Lys-amide and [(Gly-Arg-Gly-Asp-Ser-Gly-Arg-Lys-Lys-Arg-Arg-Gln-Arg-Arg-Arg-Pro- Pro-Gly)2-Lys-EAhx-Cys]2 (epsilonAhx - E-aminocaproyl, C10 - caprinoyl group) their dose-dependent inhibitory action is shown. In cell culture of D. anser with a lower basal AC activity, both hydrophobic and branched peptides stimulated AC and GTP-binding without hormones. The data give evidence that these peptides can activate ACS of ciliates in a receptor-independent manner. No influence of peptides 385-394 alphas and 346-355 alphai2 on hormonal signal transduction in D. anser was observed, due, presumably, to some structural differences of G-proteins of the lower and higher eukaryotes. A conclusion was made about an important role of polycationic regions for functional coupling of hormone-activated receptor and G-proteins in the ciliate D. anser.

[Re-expression of various i-antigens in Dileptus anser after temporary transformation of serotype]. / Vozobnovlenie sovmestnoi ékspressii raznykh i-antigenov infuzoriiami Dileptus anser posle vremennoi transformatsii serotipa.

RNP particles containing 20S prosomes (alpha RNP) isolated from human epidermoid carcinoma cell line A-431 are shown to posses strong and regulated endonuclease activity specific for high-molecular-weight RNA, particularly, specific mRNAs. Furthermore, alpha-RNP destabilize the 3'-untranslated regions of c-myc mRNA, creating a specific cleavage pattern. Cleavage point within Alu sequence in high-molecular-weight RNA has been localized by primer-extension method. This RNase activity is induced under the action of EGF. alpha-RNP involvement in the coordinated control of processing and stability of specific messenger RNA molecules is suggested. The endoribonuclease activity of alpha-RNP can represent a link between EGF signalling pathway and RNA processing and degradation.