8Br-cGMP mediates relaxation of tracheal smooth muscle through PKA

In this study, guinea pig tracheal smooth muscle pre-contracted with histamine was relaxed by the addition of 100microM 8Br-cGMP, a non-hydrolyzable and cell-permeable analog for cGMP. This effect was not sensitive to cGMP-dependent protein kinase (PKG) inhibitors, whereas it was partially blocked by cAMP-dependent protein kinase (PKA) inhibitors. The relaxation observed was also reverted up to 50+/-8.5% by iberiotoxin, a selective inhibitor of large conductance, calcium-activated potassium channels (BK(Ca)). Our results indicate that there exists a crosstalk mechanism between cAMP and cGMP signaling pathways which lead to relaxation of guinea pig tracheal smooth muscle and also that BK(Ca) channels are involved to a certain extent in this phenomenon.     

Cyclic GMP modulates the expression of Gi protein and adenylyl cyclase signaling in vascular smooth muscle cells

We have recently shown that the nitric oxide (NO) donor, SNAP, decreased the expression of Giα proteins and associated functions in vascular smooth muscle cells. Because NO stimulates soluble guanylyl cyclase and increases the levels of guanosine 3′,5′-cyclic monophosphate (cGMP), the present studies were undertaken to investigate whether cGMP can also modulate the expression of Gi proteins and associated adenylyl cyclase signaling. A10 vascular smooth muscle cells (VSMCs) and primary cultured cells from aorta of Sprague Dawley rats were used for these studies. The cells were treated with 8-bromoguanosine 3′,5′-cyclic monophosphate (8Br-cGMP) for 24 h and the expression of Giα proteins was determined by immunobloting techniques. Adenylyl cyclase activity was determined by measuring [³²P]cAMP formation for [α-³²P]ATP. Treatment of cells with 8-Br-cGMP (0.5 mM) decreased the expression of Giα-2 and Giα-3 by about 30–45%, which was restored towards control levels by KT5823, an inhibitor of protein kinase G. On the other and hand, the levels of Gsα protein were not altered by this treatment. The decreased expression of Giα proteins by 8Br-cGMP treatment was reflected in decreased Gi functions. For example, the inhibition of forskolin (FSK)-stimulated adenylyl cyclase activity by low concentrations of GTPγS (receptor-independent Gi functions) was significantly decreased by 8Br-cGMP treatment. In addition, exposure of the cells to 8Br-cGMP also resulted in the attenuation of angiotensin (Ang) II- and C-ANP_4–23 (a ring-deleted analog of atrial natriuretic peptide [ANP]-mediated inhibition of adenylyl cyclase activity (receptor-dependent functions of Gi). On the other hand, Gsα-mediated stimulations of adenylyl cyclase by GTPγS, isoproterenol and FSK were significantly augmented in 8Br-cGMP-treated cells. These results indicated the 8Br-cGMP decreased the expression of Giα proteins and associated functions in VSMCs. From these studies, it can be suggested that 8Br-cGMP-induced decreased levels of Gi proteins and resultant increased levels of cAMP may be an additional mechanism through which cGMP regulates vascular tone and thereby blood pressure.     

Receptors for bradykinin and kallidin.

In order to establish if bradykinin (BK) and Lys-bradykinin (Lys-BK), alias kallidin, act on the same or on different receptors, experiments were performed on strips of cat terminal ileum and of rabbit aorta. The first preparation contains receptor B2 and the second has the newly identified receptor B1. The criterion used for establishing the identity of receptors for BK and Lys-BK in the cat ileum (receptor B2) was desensitization, while for the rabbit aorta (receptor B1) we measured the apparent affinity (pA2 value) of a competitive and specific inhibitor of BK, [Leu-OMe3,des-Arg9]-BK. Since cat ileum desensitized with BK or Lys-BK shows a significant decrease or a complete disappearance of the response to the other agent, while maintaining full sensitivity for histamine, and since the pA2 values of [Leu-OMe8,des-Arg9]-BK against BK and Lys-BK are identical in the rabbit aorta, we conclude that the two kinins act on the same types of receptors.     

Role of endothelin type B receptor in NO/cGMP signaling pathway in rat median eminence

We studied the effect of endothelins (ETs) on receptor-mediated NO/cGMP signaling in rat arcuate nucleus–median eminence (AN-ME) fragments, an hypothalamic structure known to contain a rich plexus of nitric oxide synthase (NOS)-containing neurons and fibers together with densely arranged ET_B-receptor-like immunoreactive fibers. NOS activity was determined measuring the conversion of [³H] arginine to [³H] citrulline, as an index of NO produced. cGMP production was determined by radio immunoassay. ET-1, ET-3, and the selective ET_B receptor agonist, IRL1620, significantly increased cGMP formation and NOS activity. Preincubation of AN-ME fragment with L-arginine analog, N-nitro-L-arginine (L-NAME), inhibited ET-1 or IRL1620-stimulated cGMP formation. The addition of the selective ET_B receptor antagonist, BQ788, blocked ET-1-, ET-3-, or IRL1620-induced increase in NOS activity and cGMP generation, while BQ123, a selective ET_A receptor antagonist, was ineffective. Our results demonstrate that in whole rat AN-ME fragments, ETs stimulate NO/cGMP signaling pathway through the interaction with the ET_B receptor subtype, supporting the concept that ETs may represent an important regulator of reproductive and neuroendocrine function.     

Genistein stimulates the osteoblastic differentiation via NO/cGMP in bone marrow culture

The soybean phytoestrogen, genistein (Gen), has anabolic effects on bone through mechanisms that remain to be elucidated. We examined the role of nitric oxide (NO) and its downstream effector guanylyl cyclase (GC) in mediating the effects of Gen on the proliferation and osteoblastic maturation of primary mouse bone marrow-derived mesenchymal stem cells (BMSCs). Gen (10(-8) approximately 10(-6) M) resulted in a dose-dependent increase in cell proliferation as measured by increased [3H]thymidine incorporation, and stimulated osteoblastic maturation as assessed by culture duration-dependent increments in alkaline phosphatase (ALP) activity, calcium deposition into extracellular matrix and Runx2/Cbfa1 gene expression in BMSCs cultures. Gen also resulted in a dose-dependent increase in NO synthase (NOS) activity, NO formation, and cGMP production in BMSCs cultures. The effects of Gen were mimicked by 17beta-estradiol (E2, 10(-8) M). Concurrent treatment with the estrogen receptor (ER) antagonist ICI182,780 (10(-7) M) or the NOS inhibitor L-NAME (3 x 10(-3) M) diminished the Gen (10(-6) M)-mediated increase in NOS activity, NO production, and cGMP content. In contrast, a soluble GC inhibitor 1H-[1,2,4]oxadiazolo [4,3,-a]quinoxalin-1-one (ODQ, 10(-6) M) selectively blocked the Gen (10(-6) M)-mediated increase in cGMP content but not in NO production and NOS activity. Moreover, inhibition of ER, NOS activity or cGMP blocked Gen-induced proliferation and osteoblastic differentiation of BMSCs and Runx2/Cbfa1 gene expression in culture. Gen has estrogen-like activity and stimulates the proliferation and osteoblastic differentiation of mouse BMSCs at least in part through NO/cGMP pathway.     

Studies on the angiotensin-converting enzyme and the kinin B2 receptor in the rabbit jugular vein: modulation of contractile response to bradykinin

The rabbit jugular vein (rbJV) was used as a bioassay system to validate some early and new hypothetical interactions between the angiotensin-converting enzyme (ACE) and the B2 receptor, which may be influenced by ACE inhibitors (ACE-I). These involve the potentiation of the contractile effect of bradykinin (BK) and BK analogues, which are inactivated by ACE (e.g., [Hyp3, Tyr(Me8)]-BK (R556)), the prevention of BK-induced B2 receptor desensitisation, and the restoration of receptor sensitivity in tissues desensitised with B2 receptor agonists. Enzymatic degradation studies performed in vitro and in vivo revealed that BK and R556 are readily degraded by rabbit ACE whereas [Phe8psi(CH2-NH)Arg9]-BK (R379) is totally resistant. BK, R556, and R379 contracted endothelium-denuded veins with similar potencies (pEC50 range 8.10-8.50). Tissues pretreated with ACE-I showed an increase in pEC50 values for BK and R556 but not for R379. ACE-I (captopril, enalaprilat) were unable to prevent B2 receptor desensitisation induced by BK (1 microM). ACE-I partially restored B2 receptor-mediated contraction in tissues initially exposed to BK but not to R379. These effects were antagonised by HOE 140 (0.1 microM) but were unaffected by AcLys[Dbeta-Nal7, Ile8]-desArg9BK (R715) (1 microM) or by Losartan (1 microM). In conclusion, the potentiation of BK and its analogues relates exclusively on prevention of their metabolism, B2 receptor desensitisation is not affected by ACE-I, and restoration of tissue responsiveness to BK by ACE-I may be attributed to changes in BK concentrations in the vicinity of the B2 receptor.     

Effects of cGMP and cAMP on light responses of the photosensory pineal neurons in the lamprey, Lampetra japonica.

We examined in this study how external cyclic nucleotides affect the light response mechanism of the pineal photoreceptors and explored the existence of parietal eye type of photoreceptor of which the internal cGMP concentration increased during the light response. Pineal organs of river lampreys, Lampetra japonica, were treated with 8-bromo guanosine 3',5'-cyclic monophosphate (8Br-cGMP) or 8-bromo adenosine 3',5'-cyclic monophosphate (8Br-cAMP) before light stimuli, and the light responses were recorded from the second order neurons, chromatic or achromatic-type neurons. Excitatory and inhibitory light responses of the chromatic-type neuron became obscure by 9 and 3 mM 8Br-cGMP without changing the spontaneous spike discharge in the dark. 8Br-cAMP (3 mM) increased the frequency of spontaneous spike discharge, though it did not inhibit the light responses themselves. The inhibitory light response of the achromatic-type neuron decreased after adding 3 mM 8Br-cGMP, and it was unchanged by 3 mM 8Br-cAMP. The spontaneous spike discharge of the neurons in the dark was not affected by the cyclic nucleotides. The mechanism of these results can be explained if cGMP is an intracellular second messenger of light responses in the pineal photoreceptors and the blocking effect on photoresponses by externally applied 8Br-cGMP is caused by compensating for the reduction in intracellular cGMP by light. However, it does not indicate that the parietal eye type of photoreceptor found in lizard participates in the chromatic and achromatic-type responses in the lamprey pineal organ.     

Hepatic cytoprotection by nitric oxide and the cGMP pathway after ischaemia-reperfusion in the rat.

Many studies in diverse models suggest that nitric oxide (NO) may be protective against liver injury due to ischaemia-reperfusion (IR). We evaluated, in an experimental in vivo model of rat liver partial ischaemia, the effects of pretreatment by an NO donor (spermineNONOate, 5mg/kg), and exogenous cGMP (8Br-cGMP, 16 mg/kg) or an endogenous cGMP producer (ANP, 10 microg/kg), to assess their beneficial effects. After 6h of reperfusion, 8Br-cGMP completely prevented the adverse effect of Nomega-nitro-L-arginine (10mg/kg) and 8Br-cGMP alone showed a protective action on both hepatocytes (AST, -25%, LDH, -55%) and endothelial cells (plasma hyaluronic acid (HA), -30%). ANP caused a marked decrease in AST and LDH activities only after 1h of reperfusion (AST, -30%, LDH, -40%). Pretreatment with spermineNONOate prevented hepatocyte injury after 1 and 6h of reperfusion (AST, -22%, LDH, -27%). However, neither spermineNONOate nor ANP had any protective effect on endothelial cell damage. These results confirm the beneficial effect of an NO donor and strongly suggest the implication of a cGMP pathway that does not involve a blockade of inflammatory cytokines production (IL-6 generation was unaffected by 8Br-cGMP pre-treatment). In our model, 8Br-cGMP showed a greater protective effect than ANP or spermineNONOate and so might be used to prevent hepatic injury after IR. Finally, we propose a schematic representation of the different routes for the actions of NO in protecting the liver against IR damage.     

Endothelin Signaling Pathways in Rat Adrenal Medulla

1. We further characterized the effect of endothelins (ETs) on receptor-mediated phosphoinositide (PI) turnover, nitric oxide synthase (NOS) activation, and cGMP formation in whole rat adrenal medulla.2. The PI hydrolysis was assessed as accumulation of inositol monophosphates (InsP₁) in the presence of 10 mM LiCl in whole tissue and the analysis of inositol-1-phosphate by Dowex anion exchange chromatography. NOS activity was assayed by monitoring the conversion of radiolabeled L-arginine to L-citrulline. Cyclic GMP formation was assessed as accumulation of cGMP in whole tissue in the presence of phosphodiesterase inhibition, and the amount of cGMP formed was determined by radioimmuno-antibody procedure.3. ET-1 and ET-3 increased PI turnover by 30% in whole adrenal medulla prelabeled with [³H] myoinositol. Both ETs isoforms, at equimolar doses, increased NOS activity and cGMP levels in similar degree. The selective ET_B receptor agonist, IRL-1620, also increased cGMP formation, mimicking the effects of ETs, while IRL-1620 did not alter the PI metabolism. ETs-induced InsP₁ accumulation and cGMP was dependent on extracellular calcium. The effect of ETs on PI turnover was inhibited by neomycin. The L-arginine analogue, N-nitro-L-arginine (L-NAME), and two inhibitors of soluble guanylyl cyclase, methylene blue and ODQ, significantly inhibited the increase in cGMP production induced by ETs or IRL-1620. The selective ET_A receptor antagonist, BQ 123, inhibited the ETs-induced increase in PI turnover, while the selective ET_B receptor antagonist, BQ 788, was ineffective. Likewise, BQ 788, significantly inhibited ET-1- or ET-3-induced NOS activation and cGMP generation but not ETs-induced InsP₁ accumulation.4. Our data indicate that stimulation of PI turnover and NO-induced cGMP generation constitutes ETs signaling pathways in rat adrenal medulla. The former action is mediated through activation of ET_A receptor, while the latter through the activation of ET_B receptor. These results support the role of endothelins in the regulation of adrenal medulla function.     

Fluorescent and biotinylated probes for B2 bradykinin receptors: agonists and antagonists.

Peptide ligands carrying additional reporter groups are valuable research tools to facilitate biochemical and pharmacological studies of G protein-coupled receptors. B2 bradykinin receptors, widely distributed in mammalian tissues, regulate many physiological systems and are therapeutic targets. Acylation of the amino-terminus of bradykinin (BK) and a B2a-selective antagonist produced ligands derivatized with biotinamidocaproate or 7-Amino-4-methylcoumarin-3-acetate. These fluorescent and biotinylated peptides bound with high affinity to bovine and rodent B2 receptors. Analysis of second messenger production confirmed that fluorescent and biotinylated analogs of BK were B2 receptor agonists whereas derivatives of DArg0[Hyp3,DPhe7,Leu8]BK were BK receptor antagonists. The complimentary properties of these selective receptor probes will be useful in studying B2 receptor localization, expression and desensitization.     

Nitric oxide-cGMP-mediated vasoconstriction and effects of acetylcholine in the branchial circulation of the eel

Information about the presence and effects of nitric oxide (NO) in fish vasculature is scant and contradictory. We have studied the NO/cGMP system in the branchial circulation of the teleost Anguilla anguilla using a branchial basket preparation under basal conditions and cholinergic stimulation. The effects of endogenous and exogenous NO were tested with L-arginine, the nitric oxide synthase (NOS) substrate, and the NO donors 3-morpholinosydnonimine (SIN-1) and sodium nitroprusside (SNP), respectively. L-arginine (from 10(-11) to 10(-6) M) and the NO donors (starting from 10(-14) M) caused dose-dependent vasoconstriction. Conversely, in the ACh-pre-contracted preparations both donors elicited vasodilation. SIN-1-induced vasoconstriction was due to NO generation: it was increased by superoxide dismutase (SOD) and blocked by NO scavenger hemoglobin. Pre-treatment with sGC inhibitor 1H-[1,2,4]oxadiazolo-[4,3-a]quinoxalin-1-one (ODQ) inhibited the effects of SIN-1 and SNP. The stable cGMP analogue 8-bromo-guanosine 3',5'-cyclic monophosphate (8-Br cGMP) induced dose-dependent vasoconstriction. Unexpectedly, three NOS inhibitors, N(G)-nitro-L-arginine methyl ester (L-NAME), N(G)-monomethyl-L-arginine (L-NMMA), L-N(5)-(1-iminoethyl) ornithine (L-NIO), caused mild vasoconstriction. ACh caused vasoconstriction, but at pico- and nanomolar concentrations it caused mild but significant vasodilation in 40% of the preparations. Both responses, blocked by atropine and pirenzepine, required an intact endothelium. The ACh-induced vasoconstriction was substantially independent of a NO-cGMP mechanism.     

Facilitatory role of NO in neural norepinephrine release in the rat kidney

We examined modulation by nitric oxide (NO) of sympathetic neurotransmitter release and vasoconstriction in the isolated pump-perfused rat kidney. Electrical renal nerve stimulation (RNS; 1 and 2 Hz) increased renal perfusion pressure and renal norepinephrine (NE) efflux. Nonselective NO synthase (NOS) inhibitors [N(omega)-nitro-L-arginine methyl ester (L-NAME) or N(omega)-nitro-L-arginine], but not a selective neuronal NO synthase inhibitor (7-nitroindazole sodium salt), suppressed the NE efflux response and enhanced the perfusion pressure response. Pretreatment with L-arginine prevented the effects of L-NAME on the RNS-induced responses. 2-(4-Carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (carboxy-PTIO), which eliminates NO by oxidizing it to NO(2), suppressed the NE efflux response, whereas the perfusion pressure response was less susceptible to carboxy-PTIO. 8-Bromoguanosine cGMP suppressed and a guanylate cyclase inhibitor [4H-8-bromo-1,2,4-oxadiazolo(3,4-d)benz(b)(1,4)oxazin-1-one] enhanced the RNS-induced perfusion pressure response, but neither of these drugs affected the NE efflux response. These results suggest that endogenous NO facilitates the NE release through cGMP-independent mechanisms, NO metabolites formed after NO(2) rather than NO itself counteract the vasoconstriction, and neuronal NOS does not contribute to these modulatory mechanisms in the sympathetic nervous system of the rat kidney.     

Classification of kinin receptors

This minireview is divided into three parts: the first part refers to the characterization and classification of kinin receptors using agonists and antagonists in isolated tissues (classical pharmacology). Two kinin receptors have been considered on the basis of their distinct pharmacology, namely the B1 receptor of the rabbit aorta (rank order of potency of agonists: LysdesArg9BK > desArg9BK > or = LysBK > BK; apparent affinities of antagonists Lys[Leu8]desArg9BK (pIC50 8.4) > [Leu8]desArg9BK (pIC50 7.4) > HOE 140, a B2 receptor antagonist, pIC50<5.0), and the B2 receptor of the rabbit jugular vein (potency of agonists: LysBK = BK > LysdesArg9BK = desArg9BK and HOE 140 (pIC50 9.0) > Lys[Leu8]desArg9BK, pIC50<5.0). The second part describes species-related B1 receptor subtypes, demonstrated by different pharmacological profiles of agonists and antagonists: human, rabbit and pig subtypes (LysdesArg9BK > desArg9BK and Lys[Leu8]desArg9BK > [Leu8]desArg9BK) and dog, rat, mouse and hamster B1 receptors (desArg9BK = LysdesArg9BK and [Leus]desArg9BK = Lys[Leu8]desArg9BK). Affinities of agonists and antagonists in some species (man, rabbit, pig) are significantly increased (at least 10-fold) by the presence of a Lys at their N-terminus. The last part describes species-related B2 receptor subtypes supported by results obtained with non-peptide receptor agonists (FR 190997) and antagonists (FR 173657). While BK acts as a full agonist in man, rabbit and pig, FR 190997 behaves as a full agonist on human, as partial agonist on rabbit, and as pure antagonist on pig B2 receptors. Various hypotheses are considered to interpret these findings.     

Nitric oxide relaxes human myometrium by a cGMP-independent mechanism

The role of intracellular guanosine 3',5'-cyclicmonophosphate concentration([cGMP]_i) in nitricoxide (NO)-mediated relaxations in the uterus has become controversial.We found the NO donor S-nitroso-L-cysteine(CysNO) to potently (IC₅₀ = 30 nM)inhibit spontaneous contractions in the nonpregnant human myometrium. CysNO treatment increased[cGMP]_i significantly(P < 0.001), and this increase wasblocked by the guanylyl cyclase inhibitors methylene blue (10 µM) orLY-83583 (1 µM); however, pretreatment with these guanylyl cyclaseinhibitors failed to block CysNO-mediated relaxations. IntracellularcAMP concentrations were not altered by treatment of tissues with 10 µM CysNO. Incubation with the cGMP analogs 8-bromo-cGMP or-phenyl-1,N²-etheno-cGMPdid not significantly affect spontaneous contractility. Pretreatment oftissues with charybdotoxin [a calcium-dependent potassium channel(BK) blocker] completely reversed CysNO-induced relaxations. Weconclude that NO is a potent inhibitor of spontaneous contractileactivity in the nonpregnant human uterus and that, although guanylylcyclase and BK activities are increased by NO, increases in[cGMP]_i are notrequired for NO-induced relaxations in this tissue.

     

Effects of estradiol on renal cyclic guanosine monophosphate and oxidative stress in spontaneously hypertensive rats

Background: Evidence suggests that estradiol offers protection against the development of cardiovascular and renal pathologies, although the mechanisms involved are still under investigation. The nitric oxide (NO) pathway regulates blood pressure and kidney function, and estradiol is associated with increases in NO bioavailability. We hypothesized that in female spontaneously hypertensive rats (SHRs), estra-diol increases NO bioavailability, activates the NO synthase (NOS) pathway, and suppresses superoxide production compared with rats that underwent ovariectomy (OVX).Objective: The goal of this study was to determine whether estradiol regulates the NO/cyclic guanosine monophosphate (cGMP) pathway and superoxide levels in the kidneys of female SHR.Methods: Three types of SHRs were studied: gonad-intact females, OVX rats, and OVX rats with estra-diol replacement (OVX+E). Renal cortical cGMP levels were measured to assess NO bioavailability. NOS enzymatic activity, NOS protein expression, basal superoxide production, and nicotinamide adenine dinucleotide phosphate (NADPH) oxidase activity were measured in the renal cortex.Results: Fifty-six SHRs were included in the study (17 intact females, 21 OVX rats, 18 OVX+E rats). Mean (SEM) cGMP levels were significantly lower in the renal cortex of OVX rats (0.03 [0.008] pmol/mg, n = 5) than in intact females (0.1 [0.02] pmol/mg, n = 6; P < 0.05), and estradiol restored cGMP levels to those seen in intact females (0.1 [0.01] pmol/mg, n = 5; P < 0.05). Despite a decrease in cGMP following OVX, renal cortical NOS activity, NOS1 and NOS3 protein expression, and the phosphorylation status of NOS3 were comparable among the 3 groups (n = 7–9 per group). However, mean basal superoxide production in the renal cortex was higher in OVX rats (3.2 [0.3] cpm/mg, n = 12) than in intact females (1.9 [0.3] cpm/mg, n = 8; P < 0.05) and lower in OVX+E rats (1.3 [0.3] cpm/mg, n = 9; P < 0.05). Mean NADPH oxidase activity was comparable in the renal cortex of intact females and OVX rats (81 [4] and 83 [12] cpm/35 μg, respectively [n = 5 per group]). OVX+E rats had significantly lower mean renal cortical NADPH oxidase activity than did rats in the other groups (45 [6] cpm/35 μg, n = 6; P < 0.05), and the decrease in activity was accompanied by a decrease in p22^phox protein expression.Conclusions: In vivo manipulations of estradiol levels influenced renal cortical NO bioavailability, as assessed indirectly by cGMP measurements. The decrease in cGMP following OVX was not due to alterations in the activity or expression of NOS.     

Mechanism of the pressor response to intraperitoneal injection of bradykinin in guinea pigs.

Single intraperitoneal (IP) injection of bradykinin (BK) in anesthetized guinea pigs caused concentration-related pressor effects and slight, not significant tachycardia. Intravenous injections of BK in the same animal model evoked hypotension and a marked tachycardia. IP injection of des-Arg9-BK, a selective B1 receptor agonist, caused no changes of blood pressure or heart rate. The pressor response to IP BK was reduced by concomitant IP injection of lidocaine or of D-Arg[Hyp3,D-Phe7,Leu8]BK, a B2 receptor antagonist. It was also inhibited by acute animal pretreatment with sympatholytic drugs, by chronic animal exposure to capsaicin, or acute spinalization, but it was not affected by atropine, propranolol, indomethacin, [Leu8]des-Arg9-BK, a B1 receptor antagonist, or by acute cervical vagotomy. These results suggest that pressor responses to IP BK in anesthetized guinea pigs are reflex in nature, involving abdominal, capsaicin-sensitive, nonvagal visceral afferents, efferent components of the sympathetic nervous system and possibly supraspinal centers, and likely to be mediated by B2 receptors of kinins presumably located on abdominal visceral afferents.     

Differential Regulation of Intracellular Signaling Systems by Sodium Fluoride in Rat Glioma Cells

Abstract: We investigated the rapid and slow effects of NaF on intracellular signaling systems such as Ca²⁺ homeostasis and cyclic GMP (cGMP) generation in rat glioma C6 cells, using the Ca²⁺-sensitive dye fura-2 and cGMP enzyme immunoassay. We found that the following: (a) NaF enhanced cGMP generation in a concentration-dependent manner. This enhancement was abolished by pretreatment with 100 µ M BAPTA tetraacetoxymethyl ester or in the presence of W-7 in a concentration-dependent manner. N ^G-Monomethyl- l -arginine (NMMA), a competitive inhibitor of nitric oxide synthase (NOS), also inhibited the NaF-induced generation of cGMP. These results suggest that NaF-induced cGMP generation occurs via a calcium/calmodulin- and NOS-dependent pathway. (b) The basal intracellular Ca²⁺ concentration ([Ca²⁺]_i) was transiently greater at 1 and 3 h after pretreatment with NaF. W-7 and W-13 antagonized the increase in [Ca²⁺]_i, whereas NMMA had little effect. This suggests that the NaF-induced change in basal [Ca²⁺]_i was mediated by a calmodulin-dependent pathway but was independent of a NOS-sensitive pathway. (c) The serotonin (5-HT)-induced intracellular mobilization of Ca²⁺ was reduced by pretreating the cells with NaF. The reduction in Ca²⁺ mobilization was antagonized by genistein, a tyrosine kinase inhibitor. W-7, W-5, and H-8 had no effect. Results suggest that NaF differentially regulates the cGMP generation, basal [Ca²⁺]_i, and 5-HT_2A receptor function in C6 glioma cells.     

Regulation of rat pial arteriolar smooth muscle relaxation in vivo through multidrug resistance protein 5-mediated cGMP efflux

Multidrug resistance protein 5 (MRP5) has been linked to cGMP cellular export in peripheral vascular smooth muscle cells (VSMCs) and is widely expressed in brain vascular tissue. In the present study, we examined whether knockdown of MRP5 in pial arterioles [via antisense oligodeoxynucleotide (ODN) applications] affected nitric oxide (NO)/cGMP-induced dilations. The antisense or (as a control) missense ODN was applied to the cortical surface approximately 24 h before study via closed cranial windows. The efficacy of the antisense vs. missense ODN in eliciting selective reductions in MRP5 expression was confirmed by analysis of MRP5 mRNA in pial tissue. Unexpectedly, in initial studies, a significantly lower maximal pial arteriolar diameter increase in the presence of the NO donor S-nitrosoacetylpenicillamine (SNAP) was seen in the antisense vs. missense ODN-treated rats (35 vs. 48% diameter increase, respectively). It was suspected that this related to a reduced vascular smooth muscle cell sensitivity to cGMP due to prolonged exposure to increased intracellular cGMP levels elevated by overnight restriction of cGMP efflux. That postulate was supported by a finding of a diminished vasodilating response to the cGMP-dependent protein kinase-activating cGMP analog 8-p-chlorophenylthio-cGMP in antisense vs. missense ODN-treated rats. To prevent desensitization, additional rats were studied in the presence of chronic NOS inhibition via Nomega-nitro-L-arginine. In the NO synthase (NOS)-inhibited rats, the maximal SNAP response was much higher in the antisense (62% increase) vs. the missense ODN (40% increase) group. A similar result was obtained when monitoring responses to the soluble guanylyl cyclase-activating drugs YC-1 and BAY 41-2272. Moreover, in the presence of NOS inhibition, the normal SNAP-induced rise in periarachnoid cerebrospinal fluid cGMP levels, which reflects cGMP efflux, was absent in the antisense ODN-treated rats, a finding consistent with loss of MRP5 function. In conclusion, if one minimizes the confounding effects of basal cGMP production, a clearer picture emerges, one that indicates an important role for MRP5-mediated cGMP efflux in the regulation of NO-induced cerebral arteriolar relaxation.     

Cyclic GMP does not inhibit protein kinase C-mediated enzyme secretion in rat pancreatic acini

In pancreatic acini, cGMP can be increased by secretagogues such as cholecystokinin (CCK), cholinergic agents, and bombesin, whose actions on enzyme secretion are believed to be mediated by protein kinase C. However, the role of cGMP in acinar cell function has been unclear. A recent paper by Rogers et al. (Rogers, J., Hughes, R.G., and Matthews, E. K. (1988) J. Biol. Chem. 263, 3713-3719) reported that two analogues of cGMP, N2,O2-dibutyl guanosine 3':5'-monophosphate (Bt2cGMP) and 8-bromoguanosine 3':5'-monophosphate (8Br-cGMP), at concentrations in the nanomolar range, inhibited the stimulation of amylase secretion caused by CCK-8, bethanechol, bombesin, and 12-O-tetradecanoylphorbol-13-acetate (TPA). Rogers et al. also reported that sodium nitroprusside inhibited the stimulation of enzyme secretion caused by CCK-8 or TPA. These authors concluded that cGMP inhibits protein kinase C-mediated secretion in pancreatic acini. In the present study we attempted to confirm the findings of Rogers et al., We found, however, that Bt2cGMP inhibited CCK-8-stimulated amylase release only at concentrations of the nucleotide above 10 microM. Moreover, there was a close correlation between the ability of Bt2cGMP to inhibit CCK-8-stimulated amylase release and its ability to inhibit binding of 125I-CCK-8. Bt2cGMP, at concentrations as high as 3 mM, did not alter the stimulation of amylase release caused by carbachol, bombesin, TPA, or A23187. 8Br-cGMP, at concentrations up to 1 mM, did not inhibit the stimulation of amylase release caused by CCK-8 or TPA. At concentrations above 0.1 mM, 8Br-cGMP augmented the stimulation of amylase release caused by CCK-8, carbachol, bombesin, or TPA. Sodium nitroprusside, at a concentration that causes a 60-fold increase in cGMP, did not inhibit the stimulation of amylase release caused by CCK-8, carbachol, bombesin, or TPA. Our results do not confirm the findings of Rogers et al. and indicate that cGMP does not inhibit protein kinase C-mediated secretion in pancreatic acini.     

Calcium/calmodulin-dependent nitric oxide synthase activity in the CNS of Aplysia californica: biochemical characterization and link to cGMP pathways

We characterized enzymatic activity of nitric oxide synthase (NOS) in the central nervous system of Aplysia californica, a popular experimental model in cellular and system neuroscience, and provided biochemical evidence for NO-cGMP signaling in molluscs. Aplysia NOS (ApNOS) activity, determined as citrulline formation, revealed its calcium-/calmodulin-(Ca/CaM) and NADPH dependence and it was inhibited by 50% with 5mM of W7 hydrochloride (a potent Ca/CaM-dependent phosphodiesterase inhibitor). A representative set of inhibitors for mammalian NOS isoforms also suppressed NOS activity in Aplysia. Specifically, the ApNOS was inhibited by 65-92% with 500 microM of L-NAME (a competitive NOS inhibitor) whereas d-NAME at the same concentration had no effect. S-Ethylisothiourea hydrobromide (5mM), a selective inhibitor of all NOS isoforms, suppressed ApNOS by 85%, l-N6-(1-iminoethyl)lysine dihydrochloride (L-NIL, 5mM), an iNOS inhibitor, by 78% and L-thiocitrulline (5mM) (an inhibitor of nNOS and iNOS) by greater than 95%. Polyclonal antibodies raised against rat nNOS hybridized with a putative purified ApNOS (160 kDa protein) from partially purified central nervous system homogenates in Western blot studies. Consistent with other studies, the activity of soluble guanylyl cyclase was stimulated as a result of NO interaction with its heme prosthetic group. The basal levels of cGMP were estimated by radioimmunoassay to be 44.47 fmol/microg of protein. Incubation of Aplysia CNS with the NO donors DEA/NONOate (diethylammonium (Z)-1-(N,N-diethylamino) diazen-1-ium-1,2-diolate - 1mM) or S-nitroso-N-acetylpenicillamine (1mM) and simultaneous phosphodiesterase inhibition with 3-isobutyl-1-methylxanthine (1mM) prior to the assay showed a 26-80 fold increase in basal cGMP levels. Addition of ODQ (1H-[1,2,4]oxadiazolo[4,3-a] quinoxaline-1-one - 1mM), a selective inhibitor of soluble guanylyl cyclase, completely abolished this effect. This confirms that NO may indeed function as a messenger in the molluscan CNS, and that cGMP acts as one of its effectors.