crpX mutants of Escherichia coli K12: specific regulatory effects of altered cyclic AMP receptor proteins

Summary We attempted to correlate structural modifications of the adenosine 3,5 cyclic monophosphate (cAMP) receptor protein (CAP), to changes in some of its in vivo regulatory functions such as (i) stimulation of the lactose operon expression and (ii) control of adenylate cyclase activity. A radioimmunological procedure was used to study the structure of CAP synthesized by three mutants (crpX) grown under various conditions, in the presence or absence of endogenous or exogenous cAMP. In one mutant CAP appears to be sensitive to thermal inactivation. In another mutant CAP is particularly sensitive to degradation in the absence of cAMP; this degradation is enhanced by high temperature and during stationary phase of grwoth, and prevented by the addition of glucose. Functional alterations of CAP were not found to follow structural changes strictly. In the crpX mutants and in strains carrying the crp ⁺ or other crp allele, the stimulation of the lactose operon expression and the modulation of the in vivo rates of cAMP synthesis appear to vary in parallel, favoring an indirect mechanism of regulation of adenylate cyclase by CAP.     

The cyclic 3'',5''-adenosine monophosphate receptor protein and regulation of cyclic 3'',5''-adenosine monophosphate synthesis in Escherichia coli.

Summary Rates of synthesis of cyclic 3,5-adenosine monophosphate (cAMP) were measured in cultures of Escherichia coli aerating without a carbon source. This technique provides a representative measure of adenylate cyclase activity in the absence of inhibition caused by transport of the carbon source. Adenylate cyclase activity was found to vary more than 20-fold depending on the carbon source that had been available during growth. Synthesis of cAMP in cells aerating in the absence of the carbon source was highest when cells had been grown with glucose or fructose which inhibit adenylate cyclase activity severely. Synthesis of cAMP was much lower when cells had been grown with glycerol or succinate which cause only minimal inhibition of the activity.The variation in cAMP synthesis due to different carbon sources requires a functional cAMP receptor protein (CRP). Crp^- mutants synthesize cAMP at comparable rates regardless of the carbon source that afforded growth. A novel mutant of E. coli having a CRP no longer dependent on cAMP has been isolated and characterized. Adenylate cyclase activity in this mutant no longer responds normally to variations in the carbon source.     

Pertussis toxin inhibits CAMP-induced desensitization of adenylate cyclase in Dictyostelium discoideum

cAMP binds to surface receptors of Dictyostelium discoideum cells, transducing the signal to adenylate cyclase, guanylate cyclase and to chemotaxis. The activation of adenylate cyclase is maximal after 1 min and then declines to basal levels due to desensitization, which is composed of two components: a rapidly reversible adaptation process, and a slowly reversible down-regulation of cAMP receptors. Adaptation is correlated with receptor phosphorylation.The chemotactic response and the cAMP-induced cGMP response were not significantly altered in D. discoideum cells pretreated with pertussis toxin. The initial increase of cAMP levels was identical in control and toxin treated cells, suggesting that activation of adenylate cyclase was also not affected. However, cAMP synthesis continued in toxin treated cells, due to a strongly diminished desensitization. Pertussis toxin inhibited the adaptation of adenylate cyclase stimulation, but not the down-regulation or phosphorylation of the cAMP receptors. Adenylate cyclase in D. discoideum membranes can be stimulated or inhibited by GTP, depending on the conditions used. Pertussis toxin did not affect the stimulation of adenylate cyclase but nullified the inhibition. In membranes from desensitized control cells, stimulation of adenylate cyclase by GTP was lost, whereas inhibition was retained. Stimulation of adenylate cyclase in membranes from desensitized pertussis toxin treated cells was diminished but not absent. These results indicate that receptor phosphorylation is not sufficient for adaptation of adenylate cyclase, and that a pertussis toxin substrate, possibly Gi, is also involved in this process.Abbreviations used ATPS Adenosine 5-0-(3-Thiotriphosphate) - GTPS Guanosine 5-0-(3-thiotri-phosphate) - (Sp)-cAMPS Adenosine 3,5-monophosphorothioate-Sp-isomer - dcAMP 2-deoxyadenosine 3,5-monophosphate - Hepes N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid - DTT Dithiothreitol - buffer A 10 mM KH₂PO₄/Na2HPO₄, pH 6.5 - buffer B 40 mM Hepes/NaOH, 0.5 mM EDTA, 250 mM sucrose, pH 7.7     

The role of cAMP in flagellation of Salmonella typhimurium

Summary A mutational alteration either in adenylate cyclase (cya ^-) or in cyclic-35-AMP (cAMP) receptor protein (crp ^-) rendered Salmonella typhimurium incapable of producing flagella. The amount of mRNA specific for flagellin in these mutants was almost negligible when assayed in an in vitro protein synthesizing system. A secondary mutation, cfs, partially suppressing the cya ^- mutation, was identified among the revertants of cya ^-. A mutation in the same cistron as cfs resulted in a non-flagellate phenotype either by itself or in combination with cfs. The cistron, which was given the gene symbol flaT, was located between flaE and flaL. It was suggested that cAMP receptor protein together with cAMP modulates the gene flaT, which in turn acts as a positive effector on the synthesis of active mRNA specific for flagellin.     

Immunohistochemical localization of cyclic AMP and ultrastructural demonstration of adenylate cyclase activity in the testis of Esox lucius at time of spermiation

Summary In the testis of Esox lucius at the time of spermiation, activity of cyclic adenosine 3,5-monophosphate (cAMP) was immunocytochemically localized at the level of the Sertoli cells. In these cells adenylate cyclase activity was also ultracytochemically demonstrated by using adenylyl imidodiphosphate as a substrate. Reaction products of adenylate cyclase were primarily detectable on the basal and adluminal plasma membranes and on the surface of protrusions of the cell body into the lumen.     

Multiple regulation of nucleoside catabolizing enzymes in Escherichia coli: effects of 3:5'' cyclic AMP and CRP protein.

Summary The regulation of the synthesis of nucleoside metabolizing enzymes has been studied in cya and crp mutant strains of Escherichia coli.The synthesis of the cyt-enzymes, cytidine deaminase and uridine phosphorylase regulated by the cytR gene product, is activated by the cAMP-CRP complex. On the other hand the synthesis of the deoenzymes: deoxyriboaldolase, thymidine phosphorylase, phosphodeoxyribomutase and purine nucleoside phosphorylase, appears to be increased if an active cAMP-CRP complex cannot be formed.It also seems that nucleosides serve as poor carbon sources for cya and crp mutants; this could not solely be explained by low levels of nucleoside metabolizing enzymes nor by a deficiency in nucleoside uptake. Addition of casamino acids stimulated the growth of cya and crp mutants, with nucleosides as carbon sources. When grown on glucose and casamino acids growth could be stimulated by adenine and hypoxanthine nucleosides; these results suggest an impaired nitrogen metabolism in cya and crp mutants.Abbreviations and Symbols cAMP cyclic adenosine 3:5-monophosphate - CRP cAMP receptor protein. Genes coding for: adenyl cyclase - cya cAMP receptor protein - crp cytidine deaminase - cdd uridine phosphorylase - udp thymidine phosphorylase - tpp purine nucleoside phosphorylase - pup; cytR regulatory gene for cdd, udp, dra, tpp, drm, and pup - deoR regulatory gene for dra, tpp, drm, and pup     

Localization of adenylate cyclase and 5′-nucleotidase activities in human thyroid follicular cells

Summary The localization of adenylate cyclase and 5-nucleotidase activities in the follicular cells of adenomatous goiter and normal thyroid was studied by light and electron microscopy. Simultanous biochemical measurement for both activities was carried out to confirm the histochemical findings. Adenylyl-imidodiphosphate (AMP-PNP) was used as an effective substrate for adenylate cyclase. The specificity of the adenylate cyclase reaction was also examined by adding oxalacetic acid or PCMB as an adenylate cyclase inhibitor, and by adding sodium fluoride or TSH as an adenylate cyclase stimulator to the reaction mixture. In the case of tissue from adenomatous goiter, a large amount of the reaction product of the adenylate cyclase activity was found uniformly in the apical and lateral plasma membrane and not in the basal plasma membrane. In the cases of normal thyroid, a small amount of the reaction product of adenylate cyclase activity was demonstrated, and only in the lateral plasma membrane of the follicular cells. On the other hand, the histochemical localization of 5-nucleotidase activity was the same in adenomatous goiter and normal thyroid. The reaction product of 5-nucleotidase activity was found predominantly in the apical plasma membrane of the follicular cells. The biochemical findings indicated that the activity of adenylate cyclase per gram tissue was approximately 2 times higher in the case of adenomatous goiter than that in the case of normal thyroid, while the 5-nucleotidase activity in adenomatous goiter was in slightly higher level than in normal thyroid. Thus the histochemically demonstrable amount of adenylate cyclase and 5-nucleotidase reflected the activity levels measured biochemically. The lack of demonstrable adenylate cyclase activity in the basal plasma membrane suggests the possibility that this structure may not play any important role in TSH reception.     

Regulation of methyl beta-galactoside permease activity in pts and crr mutants of Salmonella typhimurium

Summary We have studied the regulation of the synthesis and activity of a major galactose transport system, that of methyl -galactoside (MglP), in mutants of Salmonella typhimurium. Two classes of mutation that result in a (partially) defective phosphoenolpyruvate: sugar phosphotransferase system (PTS) interfere with MglP synthesis. pts mutations, which eliminate the general proteins of the PTS Enzyme I and/or HPr and crr mutations, which result in a defective glucose-specific factor III^Gle of the PTS, lead to a low MglP activity, as measured by methyl -galactoside transport. In both ptsH,I, and crr mutants the amount of galactose binding protein, one of the components of MglP, is only 5%–20% of that in wild-type cells, as measured with a specific antibody. We conclude that synthesis of MglP is inhibited in pts and crr mutants. Once the transport system is synthesized, its transport activity is not sensitive to PTS sugars (i.e., no inducer exclusion occurs). The defect in pts and crr mutants with respect to MglP synthesis can be relieved in two ways: by externally added cyclic adenosine 3, 5-monophosphate (cAMP) or by a mutation in the cAMP binding protein. The conclusion that MglP synthesis is dependent on cAMP is supported by the finding that its synthesis is also defective in mutants that lack adenylate cyclase. pts and crr mutations do not affect growth of S. typhimurium on galactose, however, since the synthesis and activity of the other major galactose transport system, the galactose permease (GalP), is not sensitive to these mutations. If the galactose permease is eliminated by mutation, growth of pts and crr mutants on low concentrations of galactose becomes very slow due to inhibited MglP synthesis. Residual growth observed at high galactose concentrations is the result of yet another transport system with low affinity for galactose.     

Cyclic adenosine 3′,5′-monophosphate and germination of sporangiospores from the fungus Mucor

Cyclic adenosine 3,5-monophosphate (cAMP) metabolism was examined in germinating sporangiospores of Mucor genevensis and Mucor mucedo. Exogenous cAMP prevented normal hyphal development from sporangiospores. Internal pools of cAMP fluctuated profoundly during development. Spherical growth of the spores was characterized by large pools of cAMP whereas germ tube emergence and hyphal elongation were characterized by small pools of cAMP. These observations suggest a possible role for cAMP in sporangiospore germination. Adenylate cyclase activities fluctuated significantly during germination with maximum values attained during spherical growth. In contrast, cAMP phosphodiesterase activities remained constant throughout germination. Internal cAMP levels may therefore be regulated by adjustment of adenylate cyclase activities. The binding of cAMP by soluble cell proteins was measured. cAMP-binding activity changed greatly during germination. Dormant and spherically growing spores possessed the highest activities. Developing hyphae contained the lowest activities. Use of the photoaffinity label, 8-azido-[^32P]cAMP, in conjunction with sodium dodecyl sulfate-polyacrylamide-gel electrophoresis allowed the identification of a small population of morphogenetic-stage-specific proteins which bind cAMP and may be of regulatory significance to development.     

The cya gene region of Erwinia chrysanthemi B374: organisation and gene products

Summary A DNA fragment containing the cya gene region of Erwinia chrysanthemi, B374 was cloned in vivo and transferred into cells of E. coli using a plasmid pULB113 derived from RP4 followed by subcloning in vitro into the vector pBR322. The cya gene encodes a 95 kDal protein that complemented E. coli cya mutants. Apparently, cya genes truncated at the 3 end could still produce proteins complementing cya-defective strains, thus showing that adenylate cyclase truncated at its carboxy-terminal end could synthesise cAMP. A protein of unknown function (40 kDal) is encoded by a gene that is transcribed divergently from the control region of the adenylate cyclase gene.     

Evidence for cAMP-mediated control of isoleucyl-tRNA synthetase formation in Escherichia coli K-12

The ability of cAMP to inhibit isoleucyl-tRNA synthetase (IRS) formation has been demonstrated in wild type K-12 Escherichia coli and two adenyl-cyclase (cya) mutants. cAMP appeared not to have any effect on either the valyl- or arginyl-tRNA synthetase (VRS and ARS respectively). Addition of cAMP led to a reduction in rate of IRS synthesis but not VRS or ARS. Furthermore, derepression of IRS and VRS by isoleucine limitation was completely prevented by cAMP.Abbreviations IRS isoleucyl-tRNA synthetase - VRS valyl-tRNA synthetase - ARS arginyl-tRNA synthetase - cAMP cyclic adenosine-3,5-monophosphate - Cya adenyl cyclase Gene - CRP cAMP receptor protein - O.D. optical density     

Post-receptor modulation of the effects of cyclic AMP in isolated cardiac myocytes

Summary The actions of cyclic AMP are subject to several levels of post-receptor modulation in cardiac tissue. Isoproterenol and prostaglandin E₁ both stimulate cAMP accumulation, but only isoproterenol causes activation of particulate cAMP-dependent protein kinase, leading to activation of phosphorylase kinase and glycogen phosphorylase, and inhibition of glycogen synthase. Through the use of isolated, adult ventricular myocytes, we have determined that the hormone-specific activation of glycogen phosphorylase is due to subcellular compartmentation of cAMP. There is some evidence that cyclic nucleotide phosphodiesterases, whose activity is stimulated by alpha₁-adrenergic agonists in isolated myocytes, may have a role in compartmentation. Phosphoinositide hydrolysis is stimulated by alpha, and muscarinic agonists, presumably leading to activation of protein kinase C, which in turn has multiple effects on hormone-sensitive adenylate cyclase.Abbreviations cAMP Adenosine-3,5-Cyclic Monophosphate - cGMP Guanosine-3,5-Cyclic Monophosphate - G_i, G_S Guanine nucleotide-binding proteins linked to inhibition and stimulation, respectively, of adenylate cyclase - GTP Guanosine-5-triphosphate - PDE Cyclic Nucleotide Phosphodiesterase - PGE₁ Prostaglandin E₁     

Identification of the domain of Saccharomyces cerevisiae adenylate cyclase associated with the regulatory function of RAS products

Summary Various truncated CYR1 genes of Saccharomyces cerevisiae were fused to efficient promoters and expressed in Escherichia coli and S. cerevisiae cells with or without the RAS genes. The catalytic domain of adenylate cyclase encoded by the 3-terminal 1.3 kb region of the open reading frame of the CYR1 gene produced cyclic AMP, irrespective of the presence of RAS genes. The product of the 3-terminal 2.1 kb region of CYR1 showed guanine nucleotidedependent adenylate cyclase activity and produced a large amount of cAMP in the presence of the RAS gene. Thus, the domain encoded by the 0.8 kb region adjacent to the catalytic domain is associated with the regulatory function of the RAS products. The cyr1 RAS1 RAS2 cells carrying the 3-terminal 1.3 kb region of CYR1 were unable to respond to environmental signals such as sulfur starvation and temperature shift, but the cyr1 cells carrying the 2.1 kb region and at least one RAS gene were able to respond to these signals. The environmental signals may be transferred to the adenylate cyclase system through the RAS products.     

Regulation of pyrimidine biosynthesis in Pseudomonas cepacia

Pyrimidine biosynthesis was investigated in Pseudomonas cepacia ATCC 17759. The presence of the de novo pyrimidine biosynthetic pathway enzyme activities was confirmed in this strain. Following transposon mutagenesis of the wild-type cells, a mutant strain deficient for orotidine 5-monophosphate decarboxylase activity (pyrF) was isolated. Uracil, cytosine or uridine supported the growth of this mutant. Uracil addition to minimal medium cultures of the wild-type strain diminished the levels of the de novo pyrimidine biosynthetic enzyme activities, while pyrimidine limitation of the mutant cells increased those de novo enzyme activities measured. It was concluded that regulation of pyrimidine biosynthesis at the lelel of enzyme synthesis in P. cepacia was present. Aspartate transcarbamoylase activity was found to be regulated in the wild-type cells. Its activity was shown to be controlled in vitro by inorganic pyrophosphate, adenosine 5-triphosphate and uridine 5-phosphate.     

Interaction of the CRP-cAMP complex with the cea regulatory region

Summary Analysis of the induction of expression of cea-lacZ fusions in cya and crp mutants showed that catabolite repression affects the kinetics of induction and the rate of induced synthesis. In a cya mutant, addition of cAMP reduced the induction lag and increased the amount of -galactosidase produced. The CRP-cAMP complex was found to bind to two sites 5 to the cea promoter, but deletion analysis showed that only one of these was involved in the control of cea. Deletion of this site resulted in a loss of the stimulatory effects of cAMP in a cya mutant.     

A new approach to the immunocytochemistry of cAMP

A method is described to couple cyclic adenosine 3,5 monophosphate (cAMP) to a carrier protein by means of acrolein. Antibodies against this conjugate were raised in mice. These antibodies proved to be highly specific for acrolein-fixed cAMP in a gelatin model system. Slices (300 m in thickness) from rat cerebral cortex were incubated in vitro and the dopaminergic control of adenylate cyclase activity was drug-manipulated. This manipulation was visualized by application of the cAMP-antisera on cryostat sections of the acrolein fixed slices.     

Temperature conditional cAMP-requiring mutant strains ofChlamydomonas reinhardtii arrest in G1 and are rescued by added cAMP

Summary Three independent isolates ofChlamydomonas, selected for caffeine resistance, were found to arrest in G₁ phase, as determined by quantitative fluorescence measurements of DNA, when grown at a non-permissive temperature. This cell cycle arrest correlated with lowered levels of cAMP and of adenylate cyclase activity. The arrested cells could be rescued by added cAMP but not AMP, hence the defect was not one of general purine metabolism. Back-crosses to wild type revealed that the phenotypes observed result from a combination of three separable mutations. It is clear that the mutations define functions that are more stringently required for cell division than for growth since the mutant strains are able to grow up to fifteen times normal size while blocked at the non-permissive temperature. The possible interaction of cAMP dependent events with division is discussed.Abbreviations AMP adenosine 5-monophosphate - ATP adenosine 5-triphosphate - BSA bovine serum albumin - cAMP adenosine 3,5-cyclicmonophosphate - db-cAMP dibutyryl-cAMP - DNA deoxyribonucleic acid - DTT dithiothreitol - -cAMP 1,N⁶-etheno-cAMP - EDTA ethylenediaminetetraacetic acid - EGTA ethylene glycol-bis(-aminoethylether)-N,N,N,N-tetraacetic acid - HPLC high performance liquid chromatography - LSA low sulphur-high salt-acetate medium - LYP LSA media containing yeast extract and proteose peptone - M1, 2, 3 mutants 1, 2, 3 - PDE phosphodiesterase - TAP trisacetate-phosphate medium - TLC thin layer chromatography - TYP TAP medium containing yeast extract and proteose peptone     

Effects of oxotremorine and RMI 12330 A on [3H]acetylcholine release and adenylate cyclase activity in guinea pig superior cervical ganglion

There is considerable evidence that adenosine 3, 5-cyclic monophosphate (cAMP) is involved in the modulation of synaptic transmission in the guinea pig superior cervical ganglion (SCG). Presynaptic muscarinic receptors are known to attenuate, when activated, acetylcholine (ACh) release in the periphery as well as in the brain. Thus, the possible relationship between ganglionic adenylate cyclase activity and the output of ACh from electrically stimulated ganglia, preloaded with [³H]choline, was investigated. The muscarinic agonist oxotremorine significantly reduced in a dose-dependent manner the electrically evoked neurotransmitter release. The adenylate cyclase inhibitor N-(cis-2-phenylcyclopentyl)azacyclotridecan-2-imine hydrochloride (RMI 12330 A) also decreased ACh output. The inhibitory effects of these two drugs were additive. In crude ganglion membrane fractions oxotremorine significantly inhibited adenylate cyclase activity. The results indicate that drugs capable of inhibiting adenylate cyclase, significantly decrease ACh output from preganglionic nerve terminals in guinea pig SCG.     

Round-cell mutants of Salmonella typhimurium produced by transposition mutagenesis: Lethality of rodA and mre mutations

Summary Thirty-three insertions of transposon Tn10l6l7 into genes involved in the control of rod cell shape were isolated in Salmonella typhimurium by the characteristic glossy appearance of colonies composed of spherical cells. Genetic tests demonstrated that 25 (76%) were insertions in the rodA gene, 7 (21 %) were mre mutants, and 1 (3%) was a divD mutant. No insertion in the pbpA gene were found. Insertions in cell shape genes only appeared when strains displaying resistance to mecillinam (not caused by -lactamase production) were employed. Neither rodA nor mre insertions could be transduced to wild-type strains but they were normally accepted by mecillinam-resistant derivatives and by cya and crp mutants, which, unlike the corresponding Escherichia coli strains, did not display resistance to mecillinam. On the other hand, the divD insertion could be efficiently transduced to any strain. It is concluded that the rodA, mre, and divD genes are involved in the control of rod cell shape but, in addition, the RodA and Mre products perform some function(s) that is essential for wild-type cells but dispensable for some mecillinam-resistant strains, and for cya and crp mutants.     

Integration of biochemical functions of different cells of RAT gastric mucosa for hydrochloric acid secretion

Summary The regulation patterns of gastric acid secretion in rats were investigated. Pentagastrin and histamine stimulate gastric acid secretion, but the inhibitors of DNA-dependent synthesis of RNA and of proteins prevent only the pentagastrin action. It has been found that pentagastrin induces histidine decarboxylase in gastric mucosa, ensuring local accumulation of histamine. The latter activates adenylate cyclase and results in 3,5-AMP accumulation in gastric tissues. The administration of pentagastrin, histamine or 3,5-AMP enhances the activity of gastric carbonic anhydrase, the enzyme which takes part in HCI formation. The data suggest that these three compounds act sequentially (pentagastrin histamine 3,5-AMP) and the effect of the last one could be mediated through 3,5-AMP dependent protein kinase. The experiments in vitro demonstrated that gastric carbonic anhydrase can be separated into two isoenzymes and the phosphorylation of one of them by the 3,5-AMP dependent protein kinase sharply increases its activity. The findings raise the possibility that histamine and 3,5-AMP, mediating gastrin action, form together with enzymes (histidine decarboxylase, adenylate cyclase, protein kinase, carbonic anhydrase) a cascade of amplifiers.Autoradiographic studies have shown that [³H]-pentagastrin is not bound by oxyntic cells but adheres preferentially to histamine-producing-like endocrine cells and to the chief cells, while³H-histamine adheres preferentially to oxyntic and to chief cells. Electron microscopy indicates that only pentagastrin (but not histamine) initiates in-like endocrine cells ultrastructural changes characteristic for induction. Pentagastrin, histamine and 3,5-AMP administration produces in oxyntic cells ultrastructural changes typical for the secretion processes.These results lead to assumption that pentagastrin (gastrin) induces histidine decarboxylase in-like endocrine cells of gastric glands. Histamine which is secreted enhances adenylate cyclase activity in the neighbouring oxyntic cells where 3,5-AMP dependent protein kinase activates carbonic anhydrase by means of phosphorylation. These different cells form, probably, a multicellular functional unit for gastric acid secretion.An invited article.