Inhibition of the expression and activity of cyclooxygenase-2 by chicory extract.

Chicory is a major source of fructans with reported prebiotic-bifidogenic properties. In the present study, the potential anti-inflammatory activities of chicory were investigated. Ethyl acetate chicory root extract produced a marked inhibition of prostaglandin E(2) (PGE(2)) production in human colon carcinoma HT29 cells treated with the pro-inflammatory agent TNF-alpha. Two independent mechanisms of action were identified: (1) a drastic inhibition of the induction by TNF-alpha of cyclooxygenase 2 (COX-2) protein expression and (2) a direct inhibition of COX enzyme activities with a significantly higher selectivity for COX-2 activity. The inhibition of TNF-alpha-dependent induction of COX-2 expression was mediated by an inhibition of NF-kappaB activation. A major sesquiterpene lactone of chicory root, the guaianolide 8-deoxylactucin, was identified as the key inhibitor of COX-2 protein expression present in chicory extract. Altogether, the data presented strongly support chicory root as a promising source of functional food ingredient, combining prebiotic and anti-inflammatory properties.

Effects of parenteral lipid emulsions with different fatty acid composition on immune cell functions in vitro.

BACKGROUND: Numerous studies suggest that immune function may be compromised by lipid emulsions rich in polyunsaturated fatty acids (PUFAs). In our study, we compared the effect of a new olive oil-based lipid emulsion (ClinOleic) containing a moderate level of PUFAs, with emulsions based on soybean oil (Intralipid or Ivelip), on immune functions of human cell in vitro. METHODS: Peripheral white blood cells were collected from healthy volunteers. Lymphocyte proliferation was evaluated by [3H]-thymidine incorporation after stimulation with either phytohemagglutinin (PHA) or antibodies against T-cell specific antigens. Lymphocytes subsets and T-cell activation markers (CD25 and HLA-DR) were measured by flow cytometry. The release of cytokines (interleukin [IL]-2, IL-1beta, and tumor necrosis factor-alpha [TNF-alpha]) was measured by enzyme-linked immunosorbent assay (ELISA), after lymphocytes or monocytes/macrophages stimulation with PHA or lipopolysaccharide (LPS). RESULTS: A significant dose-dependent inhibition of thymidine incorporation was observed with Intralipid and Ivelip (incorporation down to 39.9% of control, p < .001) whereas ClinOleic showed no inhibitory effect. Activation antigen expression on both CD4+ and CD8+ T-cells tended to decrease with Intralipid (CD25: -53.4% on CD4+ and -57.4% on CD8+; HLA-DR: -61.5% on CD4+ and -58.5% on CD8+) but not with ClinOleic (from -2.9% for CD25 on CD4+ to 16.7% for HLA-DR on CD4+). Intralipid decreased significantly IL-2 production (-39.0%, p < .05) whereas ClinOleic had little effect (-13.0%, NS). Intralipid and ClinOleic tended to inhibit to a similar extent the release of pro-inflammatory cytokines (TNF-alpha: -21.5% and -34.8%, IL-1beta: -45.1% and -40.3%; respectively). CONCLUSIONS: Our results suggest that an olive oil-based lipid emulsion could modulate immune response selectively, maintaining protective immunity and reducing inflammatory response. Olive oil may offer an immunologically neutral alternative to soybean oil for use in parenteral lipid emulsions.

Rosemary components inhibit benzo[a]pyrene-induced genotoxicity in human bronchial cells.

The commonly used spice and flavouring agent, rosemary, derived from the leaves of the plant Rosmarinus officinalis L., displays antioxidant properties in foods and in biological systems. Moreover, in animal models rosemary components were found to inhibit the initiation and tumour promotion phases of carcinogenesis. In this work, we studied the mechanisms by which rosemary components block initiation of carcinogenesis by the procarcinogen benzo[a]pyrene (B[a]P) in human bronchial epithelial cells (BEAS-2B). Whole rosemary extract (6 micrograms/ml) or an equivalent concentration of its most potent antioxidant constituents, carnosol or carnosic acid, inhibited DNA adduct formation by 80% after 6 h co-incubation with 1.5 muM B[a]P. Under similar conditions, cytochrome P450 (CYP) 1A1 mRNA expression was 50% lower in the presence of rosemary components, and CYP1A1 activity was inhibited 70-90%. The observed reduction of DNA adduct formation by rosemary components may mostly result from the inhibition of the activation of benzo[a]pyrene to its ultimate metabolites. Carnosol also affected expression of the phase II enzyme glutathione-S-transferase which is known to detoxify the proximate carcinogenic metabolite of B[a]P. Treatment of BEAS-2B cells with carnosol (1 microgram/ml) for 24 h resulted in a 3- to 4-fold induction of GST pi mRNA. Moreover, expression of a second important phase II enzyme, NAD(P)H: quinone reductase, was induced by carnosol in parallel with GST pi. Therefore, rosemary components have the potential to decrease activation and increase detoxification of an important human carcinogen, identifying them as promising candidates for chemopreventive programs.

Phospholipid fatty acid composition and vitamin E levels in the retina of obese (fa/fa) and lean (FA/FA) Zucker rats.

We have compared the fatty acid composition of the major classes of phospholipids in the retina of lean (FA/FA) and genetically obese (fa/fa) male Zucker rats. In all phospholipid fractions, there was a higher ratio of n-3 to n-6 fatty acids in obese animals whereas the total content of polyunsaturated fatty acids (PUFA) was unaffected by the genotype. Lower percentages of arachidonic acid (20:4(n-6)) were present in the phosphatidylcholine, phosphatidylinositol and phosphatidylserine fractions in the retina of obese rats. This was associated with a higher level of docosahexaenoic acid (22:6(n-3)) in these fractions. In addition, increased levels of dihomo-gamma-linolenic acid (20:3(n-6)) were present in the retinal phosphatidylcholine and phosphatidylethanolamine of obese animals. These results indicate that modifications of phospholipid fatty acid composition which have previously been reported in peripheral tissues of obese Zucker rats also affect the retina. Furthermore, the retinal levels of vitamin E were higher in obese than in lean rats suggesting differences in the tissue antioxidant status between these two genotypes.

Effect of dietary fish oil on acute light-induced photoreceptor damage in the rat retina.

PURPOSE: Previous studies have shown that ingestion of fish oil (FO) containing a high proportion of n-3 polyunsaturated fatty acids increases the susceptibility of cellular membranes to oxidative damage in various tissues. In the retina, lipid peroxidation is thought to be a major mechanism contributing to light-induced lesions. Therefore, we investigated the effect of FO on acute light-induced photoreceptor damage. METHODS: For 2 months, weanling rats were fed diets containing either soybean oil (SOY) or FO as main lipid component. RESULTS: Rats fed FO had significantly higher levels of eicosapentaenoic acid (EPA, 20:5n-3) and higher ratios of EPA to arachidonic acid (AA, 20:4n-6) in retinal phospholipids and diacylglycerols than rats fed SOY. The levels of docosahexaenoic acid (DHA, 22:6n-3) were similar in both dietary groups. The susceptibility to lipid peroxidation was enhanced in the isolated retina of FO-fed rats as shown by higher levels of thiobarbituric acid reactive substances after incubation of retinal membranes with Fe2+/ascorbate. The retinal content of alpha-tocopherol was similar in SOY- and FO-fed animals. Light damage consisting of acute rod outer segment (ROS) disruptions was induced by exposing dark-adapted animals to 600 to 700 lux (230 to 260 microW/cm2) of white fluorescent light for 30 minutes. Damage was quantitated using a computerized multifunctional image analysis of retinal thin sections. Although structural alterations of the ROS were present in both groups, FO-fed rats showed less damage at the base of the ROS. This occurred in spite of higher rhodopsin levels in FO-fed rats. There was no effect of diet on retinal morphology in dark-adapted rats. CONCLUSION: These results indicate that FO does not enhance the susceptibility to acute ROS disk disruptions in the rat retina. Our study further suggests that FO exerts a partial protective effect that may be related to changes in the formation of lipid mediators derived from EPA and AA in retinal phospholipids.

Dietary deficiency of N-3 fatty acids alters rhodopsin content and function in the rat retina.

PURPOSE: To investigate the possibility that previously demonstrated reductions in photoreceptor sensitivity to light in n-3 fatty-acid-deficient rats can be explained by alterations in rhodopsin content and/or function. METHODS: Sprague-Dawley rats were reared throughout gestation, lactation, and up to 24 weeks of age on a diet containing safflower oil (n-3 fatty-acid-deficient) or soybean oil as the sole source of lipids. Dark-adapted content and in vivo regeneration of rhodopsin after bleaching were measured by detergent extraction. The regeneration rate constants and number of photons absorbed by rhodopsin under steady-state bleach conditions were calculated from these values. The rate of metarhodopsin II (MII) formation in vitro was determined by flash bleaching extracted pigment and native rod outer segment membranes. Rod outer segment length and photoreceptor cell density were determined in histologic sections through the inferior central retina. RESULTS: Dark-adapted rhodopsin content of retinas from rats reared on safflower oil was 12% to 15% higher than that of rats raised on soybean oil at every age measured. The rate of rhodopsin regeneration was significantly slower in rats reared on safflower oil while the level of steady-state bleach was the same. This meant that the rats reared on safflower oil absorbed about one half as many photons during light exposure. The rate of metarhodopsin II formation in vitro was unaffected by n-3 fatty acid deficiency. No difference in either rod outer segment length or cell number was detected. CONCLUSION: A reduced capacity for photon absorption by rhodopsin could play a role in lowering retinal sensitivity to light in n-3 fatty-acid-deficient rats.

Light damage in the rat retina: the effect of dietary deprivation of N-3 fatty acids on acute structural alterations.

We investigated the effect of depleting membrane docosahexaenoic acid (DHA, 22:6n-3) content through dietary deprivation of n-3 fatty acids on the susceptibility of the photoreceptors and pigment epithelium cells to acute light-induced changes. Male Sprague-Dawley rats were raised throughout gestation, lactation and up to the age of 8 weeks on semi-purified diets containing either safflower oil (SFO, n-3 deficient diet) or soybean oil (SO) as the sole source of lipids. A third group was switched at weaning from safflower oil to soybean oil (SFO/SO). Rats were maintained on a 12 hr/12 hr light/dark cycle in which the light level at the front of the cages was 5-10 lx. Light damage was produced by exposing dark-adapted animals to diffuse white fluorescent light of 700-800 lx for 30 min followed by 90 min of darkness. In order to study recovery from light damage, additional groups of SFO and SO rats were returned to dim cyclic light for 27 hr following bright light exposure. DHA content in retinal phosphatidylethanolamine and phosphatidylcholine was 65-75% lower in rats fed SFO than in rats fed SO. The decrease was compensated for by an increase in 22:5n-6, the total content of polyunsaturated fatty acids (PUFA) being similar in both the SFO and SO groups. The SFO/SO rats had DHA levels similar to SO animals, but 22:5n-6 remained elevated resulting in a slightly higher level of total PUFA. Severe rod outer segment (ROS) membrane disruptions were seen following bright light exposure in rats on the SO and SFO/SO diets. The appearance of these disruptions did not change significantly during more than 24 hr in dim cyclic light. In contrast, there were virtually no acute ROS lesions in the SFO group. Furthermore, there was a strong light-elicited disk-shedding response in the SO rats but not in the other two groups. The pigment epithelium of the DHA deficient retinas showed a significantly greater accumulation of large lipid droplets in the dark-adapted state. Notably, whole retina rhodopsin levels were 15% higher in the SFO than in the SO group. These results indicate that depletion of retinal DHA reduces the susceptibility of the rod outer segments to acute light damage and at the same time may alter visual pigment photochemistry and other photoreceptor and pigment epithelium functions.

Effect of low intake of n-3 fatty acids during development on brain phospholipid fatty acid composition and exploratory behavior in rats.

The effect of dietary restriction of n-3 fatty acids during development on brain phospholipid fatty acid composition and exploratory behavior has been studied in male Sprague Dawley rats. Female rats were fed semipurified diets containing either 5.5% safflower oil or 6% soybean oil for 6 wk prior to mating and throughout gestation and lactation. Control rats were maintained on laboratory chow. The male pups were weaned to the diets of the dams except for one group which was switched from safflower to soybean oil at weaning. Behavioral studies and brain phospholipid analyses were conducted at 16-18 wk of age. Rats fed safflower oil showed significantly lower levels of 22:6n-3 in phospholipids of synaptic membranes and myelin than rats fed soybean oil or chow. The decrease in 22:6n-3 was compensated for by an increase in 22:5n-6, the total content of polyunsaturated fatty acids remaining approximately constant. The brain phospholipid fatty acid composition of rats switched from safflower to soybean oil at weaning was similar to that of rats fed soybean oil throughout the experiment. There was no difference in spontaneous locomotor activity among the different dietary groups. However, rats raised on safflower oil displayed a significantly lower exploratory activity (horizontal movements and rearings) in a novel environment than rats fed soybean oil or chow. In contrast to the brain phospholipid fatty acid composition, there was no recovery of exploratory behavior in rats raised on safflower oil and switched to soybean oil at weaning suggesting a specific requirement of n-3 fatty acids during development.

Effect of in vivo modulation of membrane docosahexaenoic acid levels on the dopamine-dependent adenylate cyclase activity in the rat retina.

We have studied the effect of a dietary deprivation of n-3 fatty acids on the activity of the dopamine (DA)-dependent adenylate cyclase in the rat retina. Experiments were conducted in 6-month-old rats raised on semipurified diets containing either safflower oil (n-3 deficient diet) or soybean oil (control diet). The levels of docosahexaenoic acid [22:6 (n-3)] in retinal phospholipids were significantly decreased in n-3 deficient rats (35-42% of control levels). This was compensated by a rise in 22:5 (n-6), the total content of polyunsaturated fatty acids (PUFA) remaining approximately constant. Adenylate cyclase activity was measured in retinal membrane preparations from dark-adapted or light-exposed rats. The enzyme activity was stimulated by DA and SKF 38393 in a light-dependent fashion. The activation was lower in rats exposed to light than in dark-adapted animals, suggesting a down-regulation of the D1 DA receptors by light. The activation by guanine nucleotides and forskolin was also decreased in light-exposed rats. There was no significant effect of the dietary regimen on the various adenylate cyclase activities and their response to light. Furthermore, the guanine nucleotide- and DA-dependent adenylate cyclase activities of retinal membranes were found to be relatively resistant to changes in membrane fluidity induced in vitro by benzyl alcohol. The results indicate that in the absence of changes in total PUFA content, a decreased ratio of n-3 to n-6 fatty acids in membrane phospholipids does not significantly affect the properties of adenylate cyclase in the rat retina.

Metabolism of the food-borne mutagen/carcinogen 2-amino-3,8-dimethylimidazo[4,5-f]quinoxaline in the rat: assessment of biliary metabolites for genotoxicity.

The absorption and kinetics of excretion of [14C]2-amino-3,8-dimethylimidazo[4,5-f]-quinoxaline (MeIQx) was studied in male Sprague-Dawley rats. Within 72 hr of an oral dose of [14C]MeIQx (20 mg/kg) 33-56% of the radioactivity was excreted in the urine and 37-75% of the radioactivity in the faeces, which accounted for greater than 99% of the dose. Only low levels of radioactivity remained in the body. Radioactivity, when expressed per gram of tissue, was highest in the liver and kidney with smaller amounts detected in the lung and both the small and large intestines. Between 25 and 50% of a dose of MeIQx was recovered in the bile within 24 hr. Biliary metabolites were excreted over a long period of time with one radioactive fraction rapidly excreted at 2-3 hr and a second fraction excreted at 10-12 hr. The metabolites present in bile were assessed for genotoxicity using Salmonella typhimurium TA98 with or without hepatic S-9 activation and were found to be present as detoxified products. The residual mutagenic activity present in bile was attributed primarily to unmetabolized MeIQx.

Affinity purification of seminalplasmin and characterization of its interaction with calmodulin.

Bull seminalplasmin antagonizes with high potency and selectivity the activating effect of calmodulin on target enzymes [Gietzen & Galla (1985) Biochem. J. 230, 277-280]. In the present paper we establish that seminalplasmin forms a 1:1, Ca2+-dependent and urea-resistant complex with calmodulin. The dissociation constant equals 1.6 nM. In the absence of Ca2+ a low-affinity complex is formed that is disrupted by 4 M-urea. On the basis of these properties, a fast affinity purification of seminalplasmin was developed. The high specificity of seminalplasmin as a calmodulin antagonist was demonstrated for the multipathway-regulated adenylate cyclase of bovine cerebellum. Far-u.v. c.d. properties are consistent with a random form of seminalplasmin in aqueous solution; 23% alpha-helix is induced on interaction with calmodulin. The fluorescence properties of the single tryptophan residue of seminalplasmin are markedly changed on formation of the complex. These studies allowed us to locate tentatively the peptide segment that interacts with calmodulin, and to ascertain the structural homology between seminalplasmin and other calmodulin-binding peptides. Additional material, showing the inhibition of calmodulin-mediated activation of bovine brain phosphodiesterase by melittin and seminalplasmin and also the near-u.v. spectrum of affinity-purified seminalplasmin, has been deposited as supplement SUP 50135 (4 pages) at the British Library Lending Division, Boston Spa, Wetherby, West Yorkshire LS23 7BQ, U.K., from whom copies may be obtained on the terms indicated in Biochem. J. (1986) 233, 5.

Relationship among calmodulin-, forskolin-, and guanine nucleotide-dependent adenylate cyclase activities in cerebellar membranes: studies by limited proteolysis.

Adenylate cyclase activity in bovine cerebellar membranes is regulated by calmodulin, forskolin, and both stimulatory (Ns) and inhibitory (Ni) guanine nucleotide-binding components. The susceptibility of the enzyme to chymotrypsin proteolysis was used as a probe of structure-function relationships for these different regulatory pathways. Pretreatment of membranes with low concentrations of chymotrypsin (1-2 micrograms/ml) caused a three- to fourfold increase in basal adenylate cyclase activity and abolished the Ca2+-dependent activation of the enzyme by calmodulin. In contrast, the stimulation of the enzyme by GTP plus isoproterenol was strongly potentiated after protease treatment, an effect that mimics the synergistic activation of adenylate cyclase by Ns and calmodulin in unproteolyzed membranes. Limited proteolysis revealed low- and high-affinity components in the activation of adenylate cyclase by forskolin. The low-affinity component was readily lost on proteolysis, together with calmodulin stimulation of the enzyme. The activation via the high-affinity component was resistant to proteolysis and nonadditive with the Ns-mediated activation of the enzyme, suggesting that both effectors utilize a common pathway. The inhibitory effect of low concentrations (10(-7) M) of guanyl-5'-yl imidodiphosphate [Gpp(NH)p] on forskolin-activated adenylate cyclase was retained after limited proteolysis of the membranes, indicating that the proteolytic activation does not result from an impairment of the Ni subunit. Moreover, in the rat cerebellum, proteolysis as well as calmodulin was found to enhance strongly the inhibitory effect of Gpp(NH)p on basal adenylate cyclase activity. Our results suggest that calmodulin and Ns/Ni interact with two structurally distinct but allosterically linked domains of the enzyme. Both domains appear to be involved in the mode of action of forskolin.

Synergistic activation of bovine cerebellum adenylate cyclase by calmodulin and ?-adrenergic agonists.

The relationship between calmodulin-dependent and ?-adrenergic-sensitive adenylate cyclase activities was examined in membrane preparations from bovine cerebellum. Although stimulation by ?-adrenergic agonists or calmodulin can occur independently, it is shown that their simultaneous presence has a strong synergistic effect on enzyme activity. Calmodulin did not influence the regulatory components of the neurotransmitter-dependent pathway as shown by the lack of effect on (1) receptor affinity, (2) GTP requirement for receptor-mediated activation, (3) rate of activation by guanyl 5?-yl imidodiphosphate [Gpp(NH)p]. Conversely, isoproterenol and guanine nucleotides did not modify to a significant extent the characteristics of enzyme stimulation by Ca(2+) and calmodulin. Furthermore, calmodulin and Gpp(NH)p-dependent activities displayed different sensitivities to thermal inactivation. Our results indicate that ?-adrenergic agonists and calmodulin interact with the same catalytic activity in cerebellar membranes, but presumably via two independent pathways.

Ca2+-dependent regulation of calmodulin binding and adenylate cyclase activation in bovine cerebellar membranes.

The binding parameters of 125I-labeled calmodulin to bovine cerebellar membranes have been determined and correlated with the activation of adenylate cyclase by calmodulin. In the presence of saturating levels of free Ca2+ calmodulin binds to a finite number of specific membrane sites with a dissociation constant (Kd) of 1.2 nM. Furthermore, Scatchard analysis reveals a second population of binding sites with a 100-fold lower affinity for calmodulin. The Ca2+-dependence of calmodulin binding and of adenylate cyclase activation varies with the amount of calmodulin present, as can be inferred from the model of sequential equilibrium reactions which describes the activation of calmodulin-dependent enzymes. On the basis of this model, a quantitative analysis of the effect of free Ca2+ and of free calmodulin concentration on both binding and activation of adenylate cyclase was carried out. This analysis shows that both processes take place only when calmodulin is complexed with at least three Ca2+ atoms. The concentration of the active calmodulin X Ca2+ species required for half-maximal activation of adenylate cyclase is very similar to the Kd of the high affinity binding sites on brain membranes. A Hill coefficient of approx. 1 was found for both processes indicating an absence of cooperativity. Phenothiazines and thioxanthenes antipsychotic agents inhibit calmodulin binding to membranes and calmodulin-dependent activation of adenylate cyclase with a similar order of potency. These results suggest that the Ca2+-dependent binding of calmodulin to specific high affinity sites on brain membranes regulates the activation of adenylate cyclase by calmodulin.

Evidence for a role of calmodulin in the hydrosmotic action of vasopressin in toad bladder.

1. The informational role of cytosolic Ca2+ appears to be mediated by a ubiquitous protein--calmodulin--in most cell systems. 2. Evidence has been accumulating that not only cAMP, but also Ca2+, behaves as an intracellular messenger in the stimulation of water transport by vasopressin (hydrosmotic effect). 3. To examine whether calmodulin plays a role in the hydrosmotic effect of vasopressin, we used a specific antagonist of calmodulin--trifluoperazine--and looked at its effects on water transport in the urinary bladder of toads Bufo marinus. 4. The results showed that trifluoperazine, at micromolar concentrations, blocked the hydrosmotic effects of vasopressin or cAMP, thus indicating a post-cAMP site of action. 5. Two other psychotropic drugs--amitriptyline and harmaline--had similar effects, but higher concentrations were required to induce the same degree of inhibition of water flow. 6. Calmodulin was detected in the membrane and in the cytosolic fractions of isolated epithelial cells of toad bladder by means of the phosphodiesterase test. The content of both fractions was similar to that found in bovine brain. 7. The results suggest that calmodulin plays a regulatory role in the hydrosmotic action of vasopressin by possibly interacting with proteins associated with microfilaments and/or microtubules.

Evidence for two types of beta-adrenergic-sensitive adenylate cyclase activities in bovine cerebellum.

A latent, as well as an expressed form of adenylate cyclase coupled to beta-adrenergic receptors is present in intact crude synaptosomal preparations from bovine cerebellum. The latent adenylate cyclase activity was assayed in Krebs-Ringer buffer by [3H]adenine labeling and was found to be coupled to a beta 1-like adrenergic receptor. The externally accessible adenylate cyclase assayed in the same medium with [3H]ATP was stimulated via beta 2-adrenergic receptors.

Urinary metabolites of oxapadol (MD720111), a new non-narcotic analgesic agent, in the rat, dog and man.

1. A number of metabolites of oxapadol were isolated from urine of rat, dog and man after administration of a single dose of 14C-labelled compound. They were identified by direct inlet mass spectrometry and chromatographic comparison with reference compounds. 2. Oxapadol was extensively metabolized and the unchanged drug was undetectable in rat or human urine; only traces were found in dog urine. Nine metabolites were identified in rat and dog urine, and six in man. 3. The routes of biotransformation were: (a) aromatic hydroxylation, mainly in the benzimidazole ring, (b) scission of the heterocyclic ring following two different pathways, and (c) a combination of the two. Regioselectivity was observed for aromatic hydroxylation, as only three of the four possible monohydroxy oxazepinobenzimidazoles could be detected.

Regulation of brain cyclic nucleotide phosphodiesterase by calmodulin. A quantitative analysis.

Comparison of the parameters of Ca and Sr binding to bovine brain calmodulin with the activation of bovine brain phosphodiesterase by Ca2+ and Sr2+ at different calmodulin concentrations allows a quantitative description of the mechanism of activation of the enzyme. Equilibrium dialysis studies show that calmodulin possesses three high affinity (K'diss = 6 micoM) and one low affinity (K'diss = 200 microM) sites for Ca2+. All four sites display the same affinity for Sr2+ with K'diss = 180 microM. In the presence of calmodulin, soluble bovine brain phosphodiesterase is activated by Sr2+ to the same extent as by Ca2+. The activation of the enzyme shows the same Ca2+/Sr2+ selectivity ratio of 30 as the binding of the metal ions to calmodulin. Based on the findings that the Ca2+ or Sr2+ concentration at half-maximal activation of the enzyme depends on the concentration of calmodulin present, a quantitative analysis of activation was carried out as a function of the four calmodulin-metal complex species (CaM . Men). The data show that the activating species are CaM . Ca3, CaM . Ca4 or CaM . Sr3, CaM . Sr4. The interaction of these activating species with phosphodiesterase follows the Hill equation with a dissociation constant of 10(-9) M and a Hill coefficient of 2, irrespective of the binding characteristics of Ca2+ or Sr2+. The latter value agrees well with the fact that phosphodiesterase possesses two binding sites for calmodulin.

Regulation of a presynaptic adenylate cyclse from bovine cerebellum by beta-adrenergic receptors.

Intact crude synaptosome from bovine cerebellum contain, in addition to an externally accessible (postsynaptic) adenylate cyclase, an enzyme with its catalytic center oriented towards the inside of the synaptosome (presynaptic adenylate cyclase). This is demonstrated by the unmasking of latent adenylate cyclase activity by Triton X-100. Furthermore, intact crude synaptosomes can synthesize cyclic AMP from adenine. This synthesis takes place inside the synaptosomes as the postsynaptic adenylate cyclase is inactive in the Krebs-Ringer buffer. Presynaptic adenylate cyclase activity is not influenced by depolarization, as shown by [3H]adenine pulse-labeling, but is stimulated by (-)-norepinephrine and (-)-isoproterenol. (+/-)-Propranolol inhibits this stimulation whereas phentolamine has no effect, suggesting the presence of a beta-adrenergic receptor-coupled presynaptic adenylate cyclase.