The hormone-sensitive adenylyl cyclase system of the ciliate Dileptus anser

The hormone-sensitive adenylyl cyclase system (AC system) was found and characterized for unicellular eukaryotes--the ciliatae Dileptus anser. It has been first shown that hormones of higher eukaryotes--biogenic amines (adrenalin, isoproterenol and serotonin) and peptide glucagon--stimulate in dose-dependent manner the activity of adenylyl cyclase (AC) of D. anser. The enzymatic activity was stimulated also by guanine nucleotides--GTP and their non-hydrolysable analogue Gpp[NH]p. Stimulating effects of hormones and guanine nucleotides strongly depend on the level of AC basal activity, which is relatively easy to reach (1430 to 3900 pmol cAMP/min per 1 mg of protein). The sensitivity of D. anser AC system to hormones and guanine nucleotides shows the presence of receptor or receptor-related molecules, capable of interacting with the hormone and activating AC through heterotrimeric G-proteins, in ciliatae. On the base of obtained data, a conclusion is made about the similarity of the structural-functional organization of AC systems of D. anser and higher eukaryotes.     

Serotypes of the lower ciliate Dileptus anser

The author's data on the serotype composition in various clones of Dileptus anser are reviewed. This species is a novel subject of choice for studying the serotype problem in ciliates. The results obtained for serotypes of D. anser demonstrated several features shared also by some higher ciliates of the genera Paramecium and Tetrahymena, i.e. the well known classical models for serotype research. At the same time, some particular data obtained for D. anser do not fit in with the generally accepted picture of relevant events. Special attention is paid to a poor knowledge of the sexual process in this ciliate, which obviously hampers the true understanding of many events. Nevertheless, D. anser may be regarded as a suitable model for studying such important problems of general biology as epigenetic variability or inheritance.     

Inhibition of functional activity of the adenylyl cyclase signaling system of the ciliate Dileptus anser by colchicine and vinblastine

Cytoskeleton plays a key role in the functioning of hormonal signaling systems in vertebrate animals. However, data on the effect of cytoskeletal components, in particular microtubules, on the functional activity of chemosignaling systems of unicellular organisms are currently lacking. The goal of this work consisted of studying the effects of microtubule-disrupting agents, colchicine and vinblastine, on the adenylyl cyclase system of free living infusoria Dileptus anser. The incubation of D. anser with colchicine and vinblastine (10^?5–10^?6 M) weakly affected the basal activity of adenylyl cyclase (AC), but led to a significant decrease in or complete block of AC stimulation with nonhormonal (GppNHp, sodium fluoride) and hormonal agents (adrenaline, serotonin, glucagon). The basal level of GTP binding in heterotrimeric G proteins decreased and there was observed inhibition of stimulation of G proteins by hormones. Colchicine and vinblastine have been shown to interrupt adrenalin-produced AC stimulation achieved through G_s-protein, but weakly affect its inhibiting AC effect caused by the G_i-protein. Thus, it has been established for the first time that, in unicellular organisms, i.e., infusoria D. anser, microtubules are involved in the regulation of the functional activity of the AC system and their action is realized at the level of G proteins, which is similar to Gs-proteins in vertebrate animals.     

Regulatory calcium effect on adenylyl cyclase functional activity in the infusorian Dileptus anser

Earlier we have shown that some non-hormonal activators of adenylyl cyclase (AC) and hormones of higher vertebrate animals are able to affect functional activity of the AC system in the infusorian Dileptus anser. In the present work, sensitivity of this infusorian AC to Ca2+ was studied and it was found that calcium cations at concentrations of 0.5-10 microM stimulated significantly the enzyme activity in D. anser partially purified membranes. An increase of Ca2+ concentrations to 100 microM and higher led to the complete block of their stimulatory effect. In the EDTA-treated membranes the enzyme activity was reduced markedly, but it was restored significantly by addition of Ca2+. Calmodulin antagonists--chlorpromazine, W-7, and W-5--caused a dose-dependent decrease of the enzyme activity stimulated by 5 microM Ca2+ with IC50 values of 35, 137, and 174 microM, respectively. The AC-stimulating effects of biogenic amines (serotonin and octopamine) were completely retained in the presence of 2.5 and 100 microM Ca2+, whereas effects of peptide hormones (relaxine and EGF) were hardly changed in the presence of 2.5 microM calcium ions, but were markedly inhibited by 100 microM Ca2+. In the EDTA-treated membranes, the AC effects of biogenic amines were reduced, while the effects of peptide hormones were not revealed. On addition of Ca2+, the AC effects of biogenic amines were completely restored, whereas the effects of peptide hormones were not detected or were restored to a non-significant degree. Calmodulin antagonists slightly affected the AC effects of peptide hormones at concentrations efficient in the case of vertebrate AC, but decreased them markedly at higher concentrations. The AC effects of biogenic amines were little sensitive even to high antagonist concentrations. The obtained data show that targets of action of peptide hormones in the infusorian D. anser cell culture are the AC forms whose activity does not D. depends on calcium cations and possibly is regulated by Ca2+/calmodulin, whereas targets of action of biogenic amines are calcium-independent enzyme forms.     

Mode of serotype inheritance in exoconjugant progeny of the ciliate Dileptus anser

Two clones of Dileptus anser, originally isolated from natural reservoirs and referred to below as B and D clones, were found to display different serotypes, when cultured under identical laboratory conditions. On being tested with two different polyclonal rabbit immune sera against each particular clone (the classic immobilization test) these clones showed no cross-reaction. At a standard dilution (1:50) and at a standard exposure time (4 h), either of the two immune sera immobilized 100% or commonly 0% of homologous and heterologous clone cells, respectively. In addition, the difference in serotypes was confirmed by the immunofluorescence analysis. By crossing (conjugation) between B (mating type I) and D (mating type III) cells, exconjugant F1 clones were obtained. Their serotypes were then tested (the same immobilization test) with antisera against both the "parental" clones: some clones were tested before their sexual maturation in ca. one month after conjugation, while others were examined in approximately 4 months after conjugation, i.e. after reaching maturity. Each of the F1 clones could react with both immune sera, which means that they possessed the intermediate, "hybrid" phenotype. Five different F1 clones were selected, and each of them was back-crossed to both "parental" clones, B and D. We succeeded in raising 25 exconjugant F2 (B1, to be more exact) clones from F1 x B crosses and 26 clones from F1 x D crosses. The conventional testing of these clones in 5-10 weeks after conjugation provided quite unexpected results, since among them no segregation for "parental" serotypes was observed. Each of the 51 tested clones demonstrated the "hybrid" serotype--seemingly the same as that of F1 clones. Such a non-Mendelian inheritance of the character is hardly to explain from the standard, canonical assumptions on the genetic control of serotype difference between original "parental" clones (different alleles in one locus? different loci?). Also it does not seem likely that the absence of segregation could result from differential survival of various phenotypes in F2 (although the total viability of exconjugant clones appeared rather low). The above data obviously need further confirmations and experimental analyses. We attempt to discuss the obtained results in terms of the epigene hypothesis (Tchuraev, 1975) and in relation to the epigenetic control of serotype expression in species of the Paramecium aurelia complex and in Tetrahymena thermophila, which are "the chosen few" subjects in ciliate genetics.     

Actinomycin D-induced change of mating type in the ciliate Dileptus anser

The effects of actinomycin D on the expression and inheritance of mating types (MTs) were studied in mature laboratory clones of the ciliate Dileptus anser. In these ciliates, each mature clone isolated from the natural population belongs to one of three complementary MTs, i.e., MT I, MT II, or MT III. In the course of further cultivation of the clone under laboratory conditions, in a series of vegetative generations, its MT remained unchanged. However, treatment with actinomycin D (15 μg/ml, 3 days) causes these clones to transition to a state that is hereditarily unstable for their MTs. At weekly testing for MT for at least 15 weeks after this treatment (which corresponds to more than 100 cell divisions), many subclones of the treated clone were observed to reversibly exchange their MT for another one; a temporary state of immaturity and/or partial maturity was also revealed. These data confirm our hypothesis about epigenetic MT determination in D. anser. Taking into account that actinomycin D also induces the inheritable destabilization of some characters in amoebas Amoeba proteus, which obviously has an epigenetic nature, this antibiotic might be considered an epimutagen.     

Molecular mechanisms of regulatory action of adrenergic receptor agonists on functional activity of adenylyl cyclase signaling system of the ciliates Dileptus anser and Tetrahymena pyriformis

Adenylyl cyclase signaling system (ACS) of the higher eukaryotes involves the following main components: receptor, heterotrimeric G protein, adenylyl cyclase (AC), and protein kinase A. At present, these components have been found in cells of different species of the lower eukaryotes. Hence, the signal transduction through ACS of unicellular eukaryotes may have some features in common with those of the higher eukaryotes. We showed earlier that agonists of adrenergic receptors (ARs) regulate AC activity of ciliates Dileptus anser and Tetrahymena pyriformis. The aim of this work was to study molecular mechanisms of AR ligand action on the functional activity of different components of ACS of the ciliates. It has been shown that beta-AR antagonist [3H]-dihydroalprenolol binds membranes of the ciliates with a comparatively lower affinity than those of the higher eukaryotes (Kd for D. anser was 13.4 nM, for T. pyriformis--27 nM). Beta-AR ligands--agonist (-)-isoproterenol and antagonists propranolol and atenolol in competition manner displace [3H]-dihydroalprenolol with IC50 that are 10-100 times higher than corresponding IC50 of beta-AR of the higher eukaryotes. In the presence of GTP, the right shift of competition curves of [3H]-dihydroalprenolol displacement by isoproterenol was obtained, being most considerable in the case of D. anser. Adrenaline and isoproterenol in a dose-dependent manner stimulated GTP-binding in cell cultures of D. anser and T. pyriformis. Suramin (10(-5) M), the inhibitor of heterotrimeric G proteins, completely blocked effects of these hormones. In D. anser culture, adrenaline and isoproterenol in a dose-dependent manner, stimulated AC activity, and its stimulating effects in the presence of beta-AR blockers vanished (propranolol) or decreased to a great extent (atenolol). At the same time the effects were unchanged in the presence of alpha2-AR antagonists yohimbine and idazoxan. These data show the involvement of G protein-coupled beta-AR in signal transduction induced by AR agonists in D. anser cells. In cell culture of T. pyriformis isoproterenol weakly stimulated AC activity, and its effect was completely blocked by beta-AR blockers. Adrenaline in T. pyriformis cells in a dose-dependent manner inhibited AC activity. Inhibiting effect of hormone was decreased in the presence of alpha2-AR blockers. On the basis of the obtained data we concluded that adrenaline in T. pyriformis cells inhibited AC activity through G protein-coupled receptor, being close to alpha2-AR of vertebrate animals.     

Mating types in the ciliate Dileptus anser. Inheritance and genetic determination

Hybridological analysis of mating types (MTs) has been first made for the lower ciliate Dileptus anser. Clones of an initially unknown genotype belonging to three MTs (MT I, MT II and MT III), characteristic of D. anser, were isolated from natural reservoirs and further used for crosses. In one group crosses, synclonal inheritance and typical Mendelian behaviour of the character were observed over sexual generations of ciliates. The results suggest that MTs in D. anser may be directly controlled by a single mat locus with three alleles showing peck-order dominance (mat1 > mat2 > mat3). In other words, cells with mat1/mat1, mat1/mat2 and mat1/mat3 genotypes belong to MT I, those with mat2/mat2 and mat2/mat3, and the mat3/mat3 belong to MT II and MT III, respectively. Sexually mature exconjugant clones stably retain their MTs corresponding to their genotypes on vegetative reproduction. The progeny of other group crosses showed various deviations from typical Mendelian behaviour of the character. In some cases, standard Mendelian ratios were more or less violated. Most typical was instability of differentiation for MT in maturing exconjugant clones. Shortly after their maturation, the majority of clones change their MT, rather frequently more than once, although the finally established MT is stably inherited afterwards, during vegetative reproduction. When unstable, exconjugant clones can successively express two or even three MTs characteristic of this species, including MTs that should not have been expected on the basis of parental genotypes available in a given cross. It looks likely that the mat locus in D. anser is complex and multipotential; it is inherited as a whole providing for expression of any MT characteristic of the species (in this respect bearing similarity with Tetrahymena thermophila). Other mechanisms, epigenetic in particular (Nanney, 1958), determine the final expression of one of the three MT potentialities by a given exconjugant clone. Stable, persistent functioning of these mechanisms ensures a stable differentiation for MT and Mendelian behaviour of the character in sexual generations and in crosses. Any disturbances in differentiation control may trigger MT instability in maturing exconjugant clones and violation of regular Mendelian behaviour.     

Comparative study of molecular mechanisms of natural and synthetic polycationic peptides action on the activity of the adenylyl cyclase signaling system

The molecular mechanisms of action of natural and synthetic polycationic peptides, forming amphiphilic helices, on the heterotrimeric G-proteins and enzyme adenylyl cyclase (AC), components of hormone-sensitive AC system, were studied. It is shown that synthetic peptides C-epsilonAhx-WKK(C10)-KKK(C10)-KKKK(C10)-YKK(C10)-KK (peptide I) and (GRGDSGRKKRRQRRRPPQ)2-K-epsilonAhx-C(Acm)(peptide II) in dose-dependent manner stimulate the basal AC activity, inhibit forskolin-stimulated AC activity and decrease both stimulating and inhibiting AC effects of the hormones in the tissues (brain striatum, heart muscle) of rat and in smooth muscles of the mollusc Anodonta cygnea. AC effects of these peptides are decreased after membrane treatment by cholera and pertussis toxins and are inhibited in the presence of the peptides, corresponding to C-terminal regions 385-394 alphas- and 346-355 alphai2-subunits of G-proteins. These data give evidence that the peptides I and II act on the signaling pathways which are realized through Gs- and Gi-proteins. At the same time, natural polycationic peptide mastoparan acts on AC system through Gi-proteins and blocks hormonal signals mediated via Gi-proteins only. Consequently, the action of mastoparan on G-proteins is selective and differs from the action of the synthetic peptides. It is also shown that peptide II, with branched structure, directly interacts not only with G-proteins (less effective in comparison with peptide I with hydrophobic radicals and mastoparan), but also with enzyme AC, the catalytic component of AC system. On the basis of data obtained the following conclusions were made: 1) the formation of amphiphilic helices is not enough for selective activation of G-protein by polycationic peptides, and 2) the primary structure of the peptides, the distribution of positive charged amino acids and hydrophobic radicals in them are very important for selective interaction between polycationic peptides and G-proteins.     

Mating types in the ciliate Dileptus anser. Genetical instability in the mating type system

In F1 and F2 from a cross between two clones of Dileptus anser isolated from natural sources (MT 1 x x MT III; MT = mating type), along with "normal" clones, many clones were observed demonstrating abnormal phenotype with respect to the MT-character. Irregular features of the latter were as follows: a) a delay in maturation; b) temporary reversion to immature or adolescent state, which means instability of maturity state; c) expression of MT I and MT III, rather than MT II as in properly matured clones; d) changes in MT (i.e., MT instability); e) appearance of totally unexpected MTs in terms of the scheme of genetic control of MTs in D. anser previously suggested by Afon'kin and Yudin (1987)--e.g., of all three MTs in F1 from the initial (analysing!) cross. Amazingly, these abnormal D. anser clones closely resembled some selfer-clones of Tetrahymena pigmentosa, previously reported as an example of genetic instability in the ciliate MT system (Simon, 1980; Simon, Orias, 1987).     

Mating types in the ciliate Dileptus anser. Shortening of maturation period after micrurgical bisection of exconjugant cells

In many ciliates, young exconjugant clones demonstrate sexual immaturity: they are not able to conjugate with mature cells of complementary mating types (MTs). After several scores of cell divisions, a short period of adolescence (partial maturity) commonly occurs followed by maturation, after which these cells are able to conjugate with cells of other, i.e. complementary, MTs again. Tavrovskaja (1981) reported a significant reduction in the maturity period in Dileptus anser clones, grown from exconjugant ciliates regenerated from small cell fragments. To verify this, in the present study exconjugant D. anser cells were bisected with glass needle after 3 to 4 cell divisions following conjugation. The same procedure was performed with survived and regenerated cells on the 2nd and 3rd days. The clones thus obtained were cultivated, and their ability to mate with each of the three standard clones of MT I, II and III was tested week by week. Indeed, in 22 F1 clones from cross N 7C (MT I) x N 2 (MT II) the immaturity period was reduced 1.4-3.4-fold (2.18 in average) after a threefold bisection, as compared with that in intact subclones. Similarly, in 27 F1 clones from cross N 20 (MT I) x N 14 (MT II) this period was shortened 1.6-3.0-fold (2.19 in average). 12 of these clones showed a 0.9-2.4-fold (1.53 in average) reduction after a single bisection, and 1.6-2.8 (2.12 in average) after a threefold operation. Thus, micrurgical fragmentation of young exconjugant cells can be used to accelerate maturation in D. anser.     

Inhibitory regulation of adenylyl cyclase in the absence of stimulatory regulation. Requirements and kinetics of guanine nucleotide-induced inhibition of the cyc- S49 adenylyl cyclase

cyc- S49 cell membranes contain an adenylyl cyclase activity which is stimulated by forskolin and inhibited by guanine nucleotides and NaF. These inhibitory effects are mediated by an inhibitory guanine nucleotide-binding regulatory component (Ni) affecting the adenylyl cyclase catalytic unit (Hildebrandt, J. D., Sekura, R. D., Codina, J., Iyengar, R., Manclark, C. R., and Birnbaumer, L. (1983) Nature (Lond.) 302, 706-709). Since cyc- S49 cells do not contain a stimulatory guanine nucleotide-binding regulatory component (Ns), these membranes were used to study the requirements and kinetics of activation of Ni in the absence of Ns. Activation of Ni by guanyl-5'-yl imidodiphosphate was time-dependent (i.e. hysteretic) and pseudo-irreversible. Although GTP and guanosine 5'-(beta-thio)diphosphate could prevent the inhibition caused by guanyl-5'-yl imidodiphosphate if added simultaneously with it, they could not reverse the inhibited state induced by previous exposure to guanyl-5'-yl imidodiphosphate. Activation of Ni had an absolute requirement for Mg2+. Unlike the activation of Ns, however, which requires millimolar concentrations of Mg2+ in the absence of hormonal stimulation, activation of Ni requires only micromolar concentrations of the divalent cation. These results support the contention that hormones which activate Ni or Ns do so by altering different parameters of a similar activation mechanism.     

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.     

G proteins and regulation of adenylyl cyclase

The function and structures of G proteins and their role in the regulation of adenylyl cyclase is reviewed.The Nobel lecture given on December 8, 1994 by Dr Alfred Gilman and published inLes Prix Nobel 1994, printed by Norstedts Tryckeri, Stockholm, Sweden, republished here with the permission of the Nobel Foundation, the copyright holder.     

Type-specific regulation of adenylyl cyclase. Selective pharmacological stimulation and inhibition of adenylyl cyclase isoforms

Crystallographic studies have elucidated the binding mechanism of forskolin and P-site inhibitors to adenylyl cyclase. Accordingly, computer-assisted drug design has enabled us to identify isoform-selective regulators of adenylyl cyclase. After examining more than 200 newly synthesized derivatives of forskolin, we found that the modification at the positions of C6 and C7, in general, enhances isoform selectivity. The 6-(3-dimethylaminopropionyl) modification led to an enhanced selectivity for type V, whereas 6-[N-(2-isothiocyanatoethyl) aminocarbonyl] and 6-(4-acrylbutyryl) modification led to an enhanced selectivity for type II. In contrast, 2'-deoxyadenosine 3'-monophosphate, a classical and 3'-phosphate-substituted P-site inhibitor, demonstrated a 27-fold selectivity for inhibiting type V relative to type II, whereas 9-(tetrahydro-2-furyl) adenine, a ribose-substituted P-site ligand, showed a markedly increased, 130-fold selectivity for inhibiting type V. Consequently, on the basis of the pharmacophore analysis of 9-(tetrahydro-2-furyl) adenine and adenylyl cyclase, a novel non-nucleoside inhibitor, 2-amino-7-(2-furanyl)-7,8-dihydro-5(6H)-quinazolinone (NKY80), was identified after virtual screening of more than 850,000 compounds. NKY80 demonstrated a 210-fold selectivity for inhibiting type V relative to type II. More importantly, the combination of a type III-selective forskolin derivative and 9-(tetrahydro-2-furyl) adenine or NKY80 demonstrated a further enhanced selectivity for type III stimulation over other isoforms. Our data suggest the feasibility of adenylyl cyclase isoform-targeted regulation of cyclic AMP signaling by pharmacological reagents, either alone or in combination.     

Effect of biologically active agents on the feeding response of Dileptus anser]

A study was made of the effects of pharmacological agents--adrenaline, noradrenaline, serotonine, dibenamine, theophylline, and emidazole--on the phagocytar activity of Dileptus anser. These effects were estimated in terms of food response changes towards chemical food models (CFM) made in cysteine, lecithine or tween-40 solutions. The above pharmacological agents were also tested as phagocytosis inductors. Of these, only adrenalin appeared to be an effective inductor of the food response. The CFM, made in adrenaline, was stimulated by 10(-6) M theophylline, and inhibited with 10(-4)--10(-8) M imidazole. The addition of 10(-3)--10(-12) M adrenaline or 10(-8)--10(-10) M serotonine to the Dileptus-containing medium stimulated phagocytosis of CFM. 5.10(-6) M dibenamin decreased phagocytotic intensity of CFM. 10(-6) M theophylline stimulated, while 10(-4) M inhibited the food response. It is proposed that protozoans have receptors capable of accepting hormones. A possible role of the system of cyclic AMP in transporting hormonal and food stimules in protozoans is discussed.