Antagonists of epithelial chloride channels inhibit cAMP synthesis.

In past studies we observed that the chloride channel blocker, diphenylamine-2-carboxylate (DPC) and chemically related drugs (Hoechst compounds 131, 143, 144) inhibited cAMP formation in mouse pituitary tumor cells. The object of this study was to determine whether these drugs inhibited chloride transport in human T-84 colonic carcinoma cells through an effect on cAMP metabolism. Chloride secretion (measured as 125I efflux from isotope-preloaded cells) was stimulated in a concentration-dependent manner by vasoactive intestinal polypeptide (VIP) (EC50 = 1.5 x 10(-10) M) which similarly increased cAMP synthesis (EC50 = 1.6 x 10(-8) M). The cAMP response to VIP was inhibited 17, 52, 55, and 78% maximally by DPC and compounds 144, 143, and 131, respectively. In untreated T-84 cells, 125I secretion fell by 66% after 3 min; VIP (10(-7) M) increased secretion about fivefold over the same period. Both basal and VIP-stimulated 125I secretion were inhibited up to 60% by compound 131. Pretreatment of cells with pertussis toxin did not attenuate the inhibitory effect of channel blockers on either VIP-stimulated cAMP synthesis or 125I secretion. The cationophore, A-23187, which had no effect on cAMP formation, and 8-Br-cAMP both stimulated 125I secretion from T-84 cells. These secretory responses were inhibited by compound 131. The mechanism by which phenylanthranilic acids antagonize cAMP synthesis and its significance is not known; however, the data suggest that this family of drugs may inhibit chloride transport by both cAMP-dependent and independent mechanisms.     

Tumor necrosis factor and CD11/CD18 (beta 2) integrins act synergistically to lower cAMP in human neutrophils

The ability of neutrophils (PMN) to undergo a prolonged respiratory burst in response to cytokines such as tumor necrosis factor-alpha (TNF) depends on expression of CD11/CD18 (beta 2) integrins and interaction with matrix protein-coated surfaces (Nathan, C., S. Srimal, C. Farber, E. Sanchez, L. Kabbash, A. Asch, J. Gailit, and S. D. Wright. 1989. J. Cell Biol. 109:1341-1349). We tested the hypothesis that changes in cAMP mediate the joint action of cytokines and integrins. When plated on FBS- or fibrinogen-coated surfaces, PMN responded to TNF with a sustained fall in intracellular cAMP. This did not occur without TNF; in suspended PMN; in PMN treated with anti-CD18 mAb; or in PMN genetically deficient in beta 2 integrins. A preceding fall in cAMP appeared essential for TNF to induce a respiratory burst, because drugs that elevate cAMP blocked the burst if added any time before, but not after, its onset. Adenosine analogues and cytochalasins also block the TNF-induced respiratory burst if added before, but not after, its onset. Both also blocked the TNF-induced fall in cAMP. The effect of cytochalasins led us to examine the relationship between cAMP and actin reorganization. The same conditions that led to a sustained fall in cAMP led at the same time to cell spreading and the assembly of actin filaments. As with the respiratory burst, cAMP-elevating agents inhibited TNF-induced cell spreading and actin filament assembly if added before, but not after, spreading began. Thus, occupation of TNF receptors and engagement of CD18 integrins interact synergistically in PMN to promote a fall in cAMP. The fall in cAMP is closely related to cell spreading and actin reorganization. These changes are necessary for TNF to induce a prolonged respiratory burst. We conclude that integrins can act jointly with cytokines to affect cell shape and function through alterations in the level of a second messenger, cAMP.     

Antinociceptive Actions of α2-Adrenoceptor Agonists in the Rat Spinal Cord: Evidence for Antinociceptive α2-Adrenoceptor Subtypes and Dissociation of Antinociceptive α2-Adrenoceptors from Cyclic AMP

The antinociceptive actions of intrathecal injections of two alpha 2-adrenergic agonists, UK-14,304 and guanfacine, were investigated in rats after pretreatment of the animals with the noradrenaline neurotoxin N-2-chloroethyl-N-ethyl-2-bromobenzylamine (DSP4) 14 days in advance. The chronic noradrenaline depletion induced by DSP4 caused a marked increase in sensitivity of the antinociceptive action of UK-14,304 in the tail-flick test. By contrast, the antinociceptive effect of guanfacine was not appreciably affected by the DSP4 treatment. The antinociceptive effects of both UK-14,304 and guanfacine were blocked by intraperitoneal injections of yohimbine, a result indicating that both drugs induced their actions by activating alpha 2-adrenoceptors. Both UK-14,304 and guanfacine were found to reduce the production of cyclic AMP (cAMP) in the spinal cord, as determined using an in vitro radioisotopic method. The cAMP inhibitory effects of both agonists were effectively blocked by yohimbine, but not by prazosin, a finding indicating the alpha 2-adrenergic nature of the response. However, the cAMP inhibitory effect of UK-14,304 was not potentiated by pretreatment with DSP4, a finding in marked contrast with the strong potentiation of the antinociceptive action of UK-14,304 induced by the chronic depletion of endogenous noradrenaline. Moreover, intrathecal injections of forskolin, which increased the endogenous levels of spinal cord cAMP fivefold, did not modify the antinociceptive effects of UK-14,304 or guanfacine in neither normal nor DSP4-treated animals. It is suggested that there exist pharmacologically differing alpha 2-adrenergic receptor pathways capable of mediating antinociceptive effects at the level of the spinal cord. The cAMP inhibitory actions of spinal cord alpha 2-adrenoceptors appear not to be directly linked with the antinociceptive actions of these receptors.     

The stimulatory effect of cannabinoids on calcium uptake is mediated by Gs GTP-binding proteins and cAMP formation

Cannabinoids are neurodepressive drugs that convey their cellular action through G(i/o) GTP-binding proteins which reduce cAMP formation and Ca(2+) influx. However, a growing body of evidence indicates that the stimulatory effects of cannabinoids include the elevation in cAMP and cytosolic Ca(2+) concentration. The present study expands our previous findings and demonstrates that, in N18TG2 neuroblastoma cells, the cannabinoid agonist desacetyllevonantradol (DALN) stimulates both cAMP formation and Ca(2+) uptake. The stimulatory effect of DALN on cAMP formation was not eliminated by blocking Ca(2+) entry to the cells, while its stimulatory effect on Ca(2+) uptake was abolished by blocking cAMP-dependent protein kinase. Furthermore, elevating cAMP by forskolin stimulated calcium uptake, while elevating the intracellular Ca(2+) concentration by ionomycin or KCl failed to stimulate cAMP formation. These findings suggest that cAMP production precedes the influx of Ca(2+) in the cannabinoid stimulatory cascade. The stimulatory effect of DALN on calcium uptake resisted pertussis toxin treatment, and was completely blocked by introducing anti-G(s) antibodies into the cells, indicating that the stimulatory activity of cannabinoids is mediated by G(s) GTP-binding proteins. The relevance of the cellular stimulatory activity of DALN to the pharmacological profile of cannabinoid drugs is discussed.     

In Vivo Evidence that GABAB Receptors Are Negatively Coupled to Adenylate Cyclase in Rat Striatum

Abstract: The characteristics of the cerebral GABA_B receptor/cyclic AMP (cAMP)-generating system were investigated using the in vivo microdialysis technique in freely moving rats. Addition of forskolin, an activator of adenylate cyclase, to perfusate for 20 min resulted in a dose-dependent increase of cAMP efflux from the striatum. Pre- and coinfusions of baclofen for 80 min had no effect on the basal efflux of cAMP from the striatum but induced a significant decrease of forskolin (10 µ M )-stimulated cAMP efflux from the striatum in a dose-dependent manner. SKF 97541 (100 µ M ), a GABA_B receptor agonist, and GABA (50 µ M ) also decreased forskolin-induced cAMP efflux from the striatum. Coinfusion of CGP 54626A (100 µ M ), a GABA_B receptor antagonist, counteracted the effect of baclofen on the forskolin-stimulated cAMP efflux. In contrast, the isoproterenol (5 m M )-induced increase of cAMP efflux from the striatum was significantly enhanced by pre- and coinfusions with baclofen. These results suggest that this test system using in vivo microdialysis may be useful for examining the effect of drugs on the GABA_B receptor-linked cAMP-generating system in vivo.     

Gastric anti-ulcerogenic drug effect. A possible mechanism of its molecular basis.

During experimental gastric ulceration in rats an elevation in the mucosal cAMP/cGMP ratio can be encountered. The cause of this significant elevation is mainly (but not entirely) the dramatic fall of the cGMP level. Similar observations were obtained with prostacyclin application (100 micrograms/kg, p.o.), too. This prostaglandin derivative is well known, among others, because of its pronounced anti-ulcerogenic (cytoprotective) effect, too. Other substances of different molecular structure and properties may also exert such effect. The exact mechanism of action of this above-mentioned cytoprotection is still not completely understood. H2-receptor blocker drug cimetidine, given in such small dose (5 mg/kg, p.o.) which does not interfere with gastric acid secretion, also exerts very significant cytoprotective effect in stress (restraint)- and drug (indomethacin)-induced gastric ulcer models. Under cimetidine effect--together with a noticeable endogenous prostacyclin mobilization--the gastric mucosal cAMP/cGMP ratio was also strongly elevated. We conclude that this elevation in the mucosal cAMP/cGMP ratio might be a possible molecular basis of the gastric cytoprotective (anti-ulcerogenic) drugs but it needs further investigations whether all substances exerting cytoprotective effect, e.g. atropine, somatostatin, sulfhydryl drugs, etc., have the same "shifting" property or not? Moreover the phenomenon of the so-called "adaptive cytoprotection" can not be ruled out completely either, therefore this problem needs attention, too.     

Effect of taurine on cyclic AMP and GMP levels in the hearts of rats exposed to stress]

Taurine produced no effect on the cyclic nucleotides level in the heart of intact rats but sharply inhibited the cAMP and cGMP level elevation in the rat heart occuring in stress. After atropine pretreatment of the animals no effect of taurine on the heart cGMP level was observed; its effect on the cAMP level was significantly inhibited against the background of partial beta-adrenoreceptors block. It is suggested that taurine is a nonspecific regulator of the myocardial cells sensitivity to the biologically active drugs.     

Effect of alkylating derivatives of cyclic adenosine-3' ,5'-monophosphate on proliferation of mouse bone marrow stem cells

The effect of the physiological concentration of cyclic adenosine-3' ,5'-monophosphate (cAMP) analogues on the proliferation of mouse bone marrow stem hemopoietic cells (CFUs) was examined. The stimulating effect was estimated from the decrease in CFUs expressed in the percentage derived from comparing the number of spleen colonies in the control and experimental groups treated with hydroxyurea 10(-3) M (incubation with hydroxyurea resuted in the cell death in S-phase). Cyclic AMP stimulted the proliferation of CFUs by 60%, while its analogues such as 8-(N-chloroacetylaminoethylamino)-cAMP, 1-(N-chloroacetylaminoethyoxy)-cAMP and 1-(N-(p-fluorosulfonyl)-benzoylaminoethoxy)-cAMP stimulated the proliferation by 39.2%, 32.4% and 21.9%, respectively. Therefore, the synthetic analogues of cAMP were not only far from inhibiting the proliferation of CFUs but, on the contrary, exerted a stimualting effect unlike most antineoplastic alkylating drugs that depress hemopoiesis up to its total aplasia.     

Effect of various antimicrotubular drugs on the osmotic water flow through the wall of frog's urinary bladder]

The action of antimicrotubular drugs (colchicine, vinblastine and copper) on the osmotic water flow through the wall of the urinary bladder of Rana temporaria has been studied. The osmotic gradient was made by five- or tenfold dilution of the internal Ringer solution. The water flow was estimated gravimetrically. The water flow was induced by pituitrin (50 milliunits/ml), cyclic AMP (cAMP, 0.5-10(-3) M) and nystatine (3.5-10(-5) M). Pituitrin and cAMP and all the antimicrotubular drugs were added from the serosal surface of the bladder. Nystatine was introduced with the help of a fixed polyethylene tube. Preincubation with colchicine lasted 4 hours and that with vinblastine and copper (CuSO4), 1 hour. The drug concentrations varied between 10(-5)--10(-4) M. All the drugs studied showed a significant inhibitory effect toward pituitrin. The action of cAMP on the water flow was seen inhibited in the presence of colchicine and copper. The nystatine induced water flow was supressed by copper, colchicine being in this case inactive. A conclusion is drawn that the inhibition of cAMP formation does not cause a decreased pituitrine effect in the presence of antimicrotubular drugs. It has been assumed that the microtubules may be involved in the directed water flow within the cell.     

cAMP/PKA诱导卵母细胞减数分裂停滞的机制

大多数物种的卵母细胞在减数分裂前都要经历长时间停滞,其中cAMP对卵母细胞减数分裂停滞具有重要作用,本研究关注c AMP对卵母细胞减数分裂的影响及其机制。本研究通过将卵母细胞与cAMP预孵育,再用胰岛素刺激研究胰岛素诱导的卵母细胞成熟的影响,接着本研究通过显微注射和Zeiss 100TV显微镜分析cAMP对PKA在卵母细胞中定位的影响,并且本研究用Western blotting的方法研究cAMP/PKA对mos蛋白的表达和MAPK蛋白磷酸化的影响。结果显示,本研究通过亲和层析得到了高纯度的PKA蛋白,且cAMP/PKA能够抑制卵母细胞的成熟,而PKA的热稳定抑制剂PKI能够解除PKA对卵母细胞减数分裂的抑制,cAMP/PKA也能够影响mos的积累以及MAPK的磷酸化。cAMP能够影响PKA在卵母细胞中的定位,cAMP/PKA能够通过影响mos积累抑制卵母细胞的减数分裂,这可能与cAMP能够抑制MAPK磷酸化有关。     

The effects of methylxanthines, ethymizol, ephedrine and papaverine on guinea pig and dog trachea

The study was aimed to compare the effects of pentoxyphylline, aminophylline, choline theophyllinate and ethymizol on guinea pig and dog trachea with those of theophylline, papaverine and ephedrine. The effects of these drugs on the basal tension, on dose-response curves for muscle contraction produced by histamine and on cAMP level were investigated in guinea pig trachea, together with their influence on the resting and histamine-evoked mechanical and membrane activities of dog trachea. Like papaverine, pentoxyphylline did not alter the resting membrane potential, although it relaxed both tracheal preparations, and it antagonised the effects histamine and raised the cAMP level of the smooth muscle. The effects of ethymizol were similar to those of theophylline and its water soluble derivatives (aminophylline and choline theophyllinate). Whereas, ephedrine although it decreased the basal tension and inhibited histamine-evoked responses, also elicited substantial hyperpolarization of the smooth muscle membrane with no effect on the cAMP level. These findings are consistent with the hypothesis that cAMP has an important role in the action of some bronchodilator drugs; however, it is concluded that the possibility of contributing of their action on membrane potential to their action needs to be considered. The similarity of the potencies of ethymizol and pentoxyphylline to that of classical bronchodilators in inhibiting contraction of guinea pig and dog tracheal smooth muscle suggests that they may have a therapeutic value.     

Functional compartments in rat mast cells for cAMP and calcium on histamine release

The crosstalk between 3', 5'-cyclic adenosine monophosphate (cAMP), intracellular calcium, and histamine release in rat mast cells using the stimulatory effect of three different drugs, thapsigargin, sodium fluoride (NaF), and compound 48/80 were studied. Each of these drugs induces histamine release by different mechanisms. The transducting pathways modulating cAMP and intracellular calcium levels were modified by using, cholera toxin (CTX) which ADP-rybosylates Gs-protein, pertussis toxin (PTX) which ADP-rybosylates Gi-protein, and okadaic acid (OA) which inhibits phosphatases 1 and 2a. Our results show that CTX increased cAMP levels and inhibited histamine release elicited by thapsigargin and compound 48/80. The inhibitory effect of CTX on histamine release was potentiated by OA in the presence of compound 48/80 but was decreased in the presence of thapsigargin. Calcium uptake was stimulated by NaF and compound 48/80. The previous treatment with OA increased calcium uptake when combined with compound 48/80 but not with NaF. Treatment with NaF highly stimulated calcium uptake and cAMP levels only when combined with OA and CTX. These results suggest that the modulatory effect of intracellular calcium and cAMP on histamine release depend more on the crosstalk of the activated signal transducting pathway than on the final level of calcium or cAMP, further supporting the theory that rat mast cells are divided into functionally distinct compartments.     

Anesthetic Barbiturates Enhance Gsα-Dependent Cyclic AMP Production in S49 Mouse Lymphoma Cells

Abstract: Cyclic AMP (cAMP) regulates many important physiological processes. Barbiturates influence cAMP regulation, possibly through effects on G proteins. This study used intact S49 mouse lymphoma cells to characterize the role of G proteins in the effect of barbiturates on cAMP regulation. cAMP accumulation was determined in intact S49 WT (wild-type) and S49 cyc^? cells (the G_sα-deficient mutant) by measuring the conversion of [³H]-ATP to [³H]cAMP in cells preloaded with [³H]adenine. Pentobarbital enhanced cAMP accumulation in WT cells in the absence (basal) or presence of isoproterenol but had no effect on the EC₅₀ for isoproterenol. This effect was dose dependent with a 50–60% enhancement at 2 mM pentobarbital. Pentobarbital did not affect forskolin-stimulated cAMP accumulation in WT cells. In cyc^? cells, basal and forskolin-stimulated cAMP accumulation were stimulated only at the highest concentration of pentobarbital used (2 mM). Pentobarbital did not affect the inhibition of cAMP accumulation by somatostatin in WT cells, and pertussis toxin treatment of WT cells did not affect the action of pentobarbital on cAMP accumulation. Pentobarbital did not affect isoproterenol-stimulated adenylyl cyclase activity in whole-cell homogenates or membranes prepared from WT cells. The S-(?)-isomer of pentobarbital enhanced isoproterenol-stimulated cAMP accumulation more than the R-(+)-isomer. Phenobarbital and barbituric acid did not enhance isoproterenol-stimulated cAMP accumulation, whereas the anesthetic barbiturates hexobarbital, pentobarbital, and thiopental all enhanced activity. These results suggest that pentobarbital enhances cAMP accumulation in intact WT cells by a mechanism that is dependent on G_sα but independent of G_i. The properties of barbiturates that are responsible for the enhancement of cAMP accumulation may be related to the properties that are responsible for producing sedation and anesthesia.     

环化腺苷酸对细菌生长的影响

用大肠杆菌(Escherichia coli AS 1.797)、北京棒状杆菌(Corynebacterium pekinense AS1.299)和巨大芽孢杆菌(Bacills megatertum AS 1.217)研究了细胞内环化腺苷酸(cAMP)浓度和外源cAMP对细胞生长的影响。结果表明,大肠杆菌在不同碳源中生长时,细胞的生长量随细胞内cAMF’浓度升高而降低。在以葡萄糖作碳源时,细胞内cAMP浓度低,外源cAMP。对生长有抑制作用,而cAMP的类似物5'-AMP则无抑制作用。在以乳糖、麦芽糖和甘油分别作碳源时,细胞内cAMP浓度高,外源cAMP对生长无影响。北京捧状杆菌以葡萄糖作碳源时,细胞生长也受外源cAMP的抑制,但cAMP的抑制作用不是专一的,它的作用可用类似物5’-AMP来代替。自身不合cAMP的巨大芽孢杆菌在不同碳原(包括葡萄糖)中生长时,生长不受外源cAMP抑制,也不受5’-Amt’的影响。因此认为,cAMP不是细菌生长的必需物,而是生长调节物,但这种调节物对巨大芽孢杆菌无效。     

Ca++ antagonists distinguish different requirements for cAMP-mediated gene expression in the cellular slime mold, Dictyostelium discoideum

Cyclic AMP is essential for the accumulation of many prespore mRNAs and can advance the time of appearance of mRNAs specifically enriched in prestalk cells. Additionally, when late-developing cells are washed free of cAMP, a number of growth phase mRNAs reaccumulate. This reaccumulation can be suppressed by cAMP. These effects of cAMP are all mediated through the cell surface cAMP receptor and can occur under conditions where the receptor-associated adenylate cyclase is inactive, indicating that the initial intracellular transduction event necessary for expression of these mRNAs does not depend upon cAMP synthesis. The dihydropyridine derivatives, nifedipine and nitrendipine, are highly specific Ca++ channel blockers. They are shown here to prevent the influx of Ca++ from the external medium that occurs in response to cAMP binding to the cell surface receptor during development. These two compounds as well as another Ca++ antagonist, 8-N,N-diethylamino)octyl-3,4,5-trimethoxy-benzoate (TMB-8) and a calmodulin inhibitor, N-(6-amino-hexyl)-5-chloro-1-naphthalene sulfonamide (W7), all specifically decrease cAMP-mediated prespore mRNA accumulation in a dose-dependent manner. They also prevent cAMP from suppressing the expression of the growth phase genes. The growth phase mRNAs reaccumulate in cAMP-treated cells in the presence of increasing concentrations of these drugs. By contrast, cAMP induction of the pre-stalk-enriched mRNA is not as significantly affected by these agents. These results raise the possibility that the cell surface cAMP receptor can couple to different signal transduction systems and thereby induce or suppress the expression of different sets of cAMP-regulated genes during development.     

Pharmacological elevation of cyclic AMP and transmitter release at the mouse neuromuscular junction

Intracellular recordings of spontaneous and evoked end-plate potentials have been made at the neuromuscular junction of mouse hemidiaphragms to determine a possible role of cyclic AMP (cAMP) in the release of acetylcholine from presynaptic terminals. Spontaneous release, as determined from the frequency of miniature end-plate potentials, was increased by drugs that inhibit phosphodiesterase: isobutylmethylxanthine (IBMX), SQ 20,009, theophylline, and caffeine; drugs that stimulate adenylate cyclase: forskolin, fluoride, and cholera toxin, and the stable analogue of cAMP: 8-bromo-cAMP but not dibutyryl cAMP. Release increased with time during maintained exposure to the drugs and generally followed a simple exponential time course with time constants ranging from 8 to 17 min at 20 degrees C, except for SQ 20,009 and cholera toxin which required longer exposure times for effect. The order of potency of the phosphodiesterase inhibitors was IBMX = SQ 20,009 greater than theophylline = caffeine. This is consistent with an effect mediated by an increase in cAMP concentrations within the nerve terminal. Evoked release, determined from the quantal content of the end-plate potential, was increased to a lesser extent than spontaneous release. The results are discussed with reference to the possible involvement of second messengers in the release of vesicles from nerve terminals in vertebrate synapses.     

cAMP-mediated inhibition of DNA replication and S phase progression: involvement of Rb, p21Cip1, and PCNA

cAMP exerts an antiproliferative effect on a number of cell types including lymphocytes. This effect of cAMP is proposed to be mediated by its ability to inhibit G1/S transition. In this report, we provide evidence for a new mechanism whereby cAMP might inhibit cellular proliferation. We show that elevation of intracellular levels of cAMP inhibits DNA replication and arrests the cells in S phase. The cAMP-induced inhibition of DNA synthesis was associated with the increased binding of p21Cip1 to Cdk2-cyclin complexes, inhibition of Cdk2 kinase activity, dephosphorylation of Rb, and dissociation of PCNA from chromatin in S phase cells. The ability of cAMP to inhibit DNA replication and trigger release of PCNA from chromatin required Rb and p21Cip1 proteins, since both processes were only marginally affected by increased levels of cAMP in Rb-/- and p21Cip1-/- 3T3 fibroblasts. Importantly, the implications of cAMP-induced inhibition of DNA synthesis in cancer treatment was demonstrated by the ability of cAMP to reduce apoptosis induced by S phase-specific cytotoxic drugs. Taken together, these results demonstrate a novel role for cAMP in regulation of DNA synthesis and support a model in which activation of cAMP-dependent signaling protects cells from the effect of S phase-specific antitumor agents.     

Regulation of Melatonin Production by Pineal Photoreceptor Cells: Role of Cyclic Nucleotides in the Trout (Oncorhynchus mykiss)

Abstract: The light/dark cycle influences the rhythmic production of melatonin by the trout pineal organ through a modulation of the serotonin N -acetyltransferase (NAT) activity. In static organ culture, cyclic AMP (cAMP) levels (in darkness) and NAT activity (in darkness or light) were stimulated in the presence of forskolin, isobutylmethylxanthine, or theophylline. Analogues of cAMP, but not of cyclic GMP, induced an increase in NAT activity. Light, applied after dark adaptation, inhibited NAT activity. This inhibitory effect was partially prevented in the presence of drugs stimulating cAMP accumulation. In addition, cAMP accumulation and NAT activity increase, induced by forskolin, were temperature dependent. Finally, melatonin release, determined in superfused organs under normal conditions of illumination, was stimulated during the light period of a light/dark cycle by adding an analogue of cAMP or a phosphodiesterase inhibitor. However, no further increase in melatonin release was observed during the dark phase of this cycle in the presence of the drugs. This report shows for the first time that cAMP is a candidate as intracellular second messenger participating in the control of NAT activity and melatonin production by light and temperature.     

Dopamine-stimulated adenylate cyclase in human term placenta

The effect of dopamine on adenylate cyclase activity was investigated in slices of human term placentas. Dopamine elicited a dose-dependent stimulation of cAMP formation with a ED50 value of about 1 X 10(-6)M dopamine and an increase of 110% over the control with 1 X 10(-4)M dopamine. (-)-Epinephrine and (-)-norepinephrine also increased placental cAMP formation. Apomorphine displayed a slight but non-significant stimulatory effect while bromocriptine was not effective. SCH 23390, a selective antagonist of dopamine D1 receptors caused a dose-dependent decrease of the dopamine activation. In contrast, the dopamine increase of cAMP was unaffected by beta- and alpha-adrenergic blocking drugs and by the D2 selective antagonist, (-)-sulpiride. These data indicate that dopamine stimulates cAMP formation in human term placenta through a specific mechanism via D1 dopaminergic receptors positively coupled to adenylate cyclase.     

Pharmacological modification of pulmonary vascular injury: possible role of cAMP

Experiments were designed to test the hypothesis that drugs which increase adenosine 3',5'-cyclic monophosphate (cAMP) in the lung would prevent the pulmonary hypertension and the increase in vascular permeability caused by the infusion of the oxidant lipid peroxide, tert-butyl hydroperoxide (t-bu-OOH), in isolated rabbit lungs perfused with Krebs-Henseleit buffer. Pretreatment with indomethacin or verapamil was also studied, since these drugs block the increase in pulmonary arterial pressure caused by t-bu-OOH. Indomethacin or verapamil prevented the pulmonary hypertension but did not prevent the increase in permeability caused by t-bu-OOH. Consequently, indomethacin or verapamil treatment partially reduced the gain in lung weight caused by t-bu-OOH. In contrast, pretreatment with isoproterenol, prostaglandin E1, or a cAMP analogue not only prevented the pulmonary hypertension but also inhibited the increase in vascular permeability caused by t-bu-OOH. Consequently, these drugs completely blocked the gain in lung weight caused by t-bu-OOH. Posttreatment with aminophylline or the cAMP analogue also significantly reduced the gain in lung weight caused by t-bu-OOH. These results indicate that pharmacological therapy can reduce the pulmonary hypertension and the increase in vascular permeability caused by the infusion of a lipid hydroperoxide. Since isoproterenol, aminophylline, prostaglandin E1, and a cAMP analogue all had similar effects, the results suggest that the likely common mechanism for their protective effect is an increase in cAMP.