Effects of prostaglandins and catecholamines on rat spleen adenylate cyclase in vitro

The results reported here show some characteristics of adenylate cylase (EC 4.6.1.1) derived from homogenates of rat spleen, and describe the in vitro stimulation of this enzyme by prostaglandins, nucleotides, and F- under conditions where cyclic nucleotide degradative pathways are effectively inhibited. Particulate fractions from rat spleen homogenates contain high adenylate cyclase activities, and the highest specific activity is recovered in a particulate fraction prepared by low speed (1200 X g) centrifugation. Activity found in all particulate fractions is stimulated by fluoride, prostaglandins E1 and E2, catecholamines, and purine nucleotides. No stimulation is caused by prostaglandins F1 alpha and F2 alpha. Stimulation by prostaglandin E1 and E2 is augmented by GTP and other purine nucleotides, and stimulation by the combination of GTP and prostaglandin E1 is equal to that caused by optimal fluoride concentrations. Stimulation caused by L-isoproterenol is additive to that caused by GTP but is not increased by GTP.     

Activation by cholera toxin of adenylate cyclase solubilized from rat liver

Cholera toxin, or peptide A1 from the toxin, activates adenylate cyclase solubilized from rat liver with Lubrol PX, provided that cell sap, NAD+, ATP and thiol-group-containing compounds are present. The activation is abolished by antisera to whole toxin, but not to subunit B.     

Temperature-dependent stimulation and inhibition of adenylate cyclase by Aplysia bag cell peptides

The bag cell peptides (alpha-, beta-, and gamma-BCP) are secreted by the neuroendocrine bag cells of Aplysia, and provide feedback modulation of bag cell excitability and cAMP levels. We report here that if 200-500 mM NaCl is included in the assay buffer, the BCPs alter adenylate cyclase activity in a manner consistent with their effects on cAMP levels in intact bag cells. Specifically, beta-BCP and the related peptide A from the atrial gland stimulate the enzyme, while the effects of alpha-BCP(1-7) and gamma-BCP are temperature-dependent, stimulating at 30 degrees C and inhibiting at 15 degrees C. Both stimulation and inhibition require GTP, suggesting mediation by Gs and Gi. The ionic requirements of stimulation and inhibition differ: Cl- is necessary to support stimulation, but not inhibition. Moreover, pertussis toxin blocks inhibition, but does not affect stimulation. These results suggest that the temperature-sensitive mechanism lies upstream from the G-proteins in the signal transduction pathway.     

Inhibition of adenylate cyclase of rat hepatic membranes by glycosaminoglycans

Glycosaminoglycans are long non-branched polysaccharides composed of repeating disaccharide units. In a previous in vitro study we have shown that such molecules are able to modulate substrate phosphorylation catalyzed by cAMP-dependent protein kinase. Here, we investigate the impact of glycosaminoglycans, such as heparan sulfate, dermatan sulfate, chondroitin 4- and 6-sulfate, keratan sulfate and hyaluronic acid upon adenylate cyclase, which directly regulates cAMP-dependent protein kinase activity via cAMP synthesis. In rat liver plasma membrane preparation we have determined forskolin- and guanosine-5'-beta, gamma-imidotriphosphate-induced cAMP formation catalyzed by adenylate cyclase in the presence of increasing concentrations of glycosaminoglycans. The results indicate that glycosaminoglycans strongly influence enzymic conversion of ATP into cAMP. The highest reduction of adenylate cyclase activity is observed in the presence of dermatan sulfate and heparan sulfate. Moreover, the inhibitory effect of these two glycosaminoglycans is higher when guanosine-5'-beta, gamma-imidotriphosphate, instead of forskolin, is used as stimulator of adenylate cyclase. Further characterization of enzyme inhibition mediated by dermatan sulfate shows that this molecule exerts an inhibitory effect of mixed type.     

Production of prostaglandins E1 and E2 by adult human red blood cells

We showed that human adult red blood cells (RBCs) produce prostaglandin E1 (PGE1) and E2 (PGE2). RBCs that were mechanically stressed in the presence of extracellular Ca2+ by being injected rapidly through a fine needle produced PGE1 and PGE2 within 30 min after this mechanical stress. The amounts of PGE1 and PGE2 produced by 1 x 10(9) mechanically stressed RBCs were approximately 50 pg and 100 pg, respectively, which were determined in the cytosolic fraction from sonicated RBCs using a competitive enzyme immunoassay method. A Western blot analysis using anti-cyclooxygenase-2 antibody revealed a band at the 70-kDa position in the samples from RBCs producing PGE1 and PGE2. Treatment with 10 micrograms/mL indomethacin completely inhibited the productions of PGE1 and PGE2. The present results may indicate a new role of RBCs in microcirculation.     

Stable cholinergic-muscarinic and alpha-adrenergic inhibition of rat parotid adenylate cyclase

(-) Isoproterenol-stimulated adenylate cyclase activity of washed at parotid membrane preparations from gland slices previously treated with the alpha-adrenergic agonist, methoxamine, was inhibited approximately 30%. The action of methoxamine required exogenous Ca2+ and was blocked by the alpha-adrenergic blocking agent, phentolamine. Incubation of gland slices with carbamylcholine resulted in a dose-dependent inhibition (50%) of (-) isoproterenol-stimulated adenylate cyclase activity in washed membranes. The action of carbamylcholine was independent of exogenous Ca2+ and was blocked by preincubation with atropine. Cholinergic inhibition of parotid adenylate cyclase was compared to the cholinergic inhibition of adenylate cyclase in dog heart homogenates. While carbamylcholine caused a limited (20-30%) inhibition of basal and (-) isoproterenol-stimulated activities when added to dog heart homogenates, it failed to produce any effect in parotid homogenates prepared in an identical manner. Cholinergic inhibition of parotid adenylate cyclase activity was stable and persisted in washed particulate fractions while the inhibition in dog heart homogenates was reversible by washing. Cholinergic inhibition of adenylate cyclase was markedly dependent on the presence of GTP and was abolished when Mn2+ was subsituted for Mg2+ in both systems. Guanyl-5'-yl imidodiphosphate had little effect on the inhibition in parotid preparations but abolished the inhibition in heart homogenates. It is concluded that, in contrast to the cholinergic action in dog heart homogenates, the exposure of parotid slices to carbamylcholine results in a stable lesion in the adenylate cyclase activity.     

Induction of cytochromes P450 2B and 2E1 in rat liver by isomeric picoline N-oxides

Pyridine derivatives are widely used solvents and precursors for the synthesis of chemicals of industrial importance. Oxidized metabolites have been implicated in the observed toxicity of pyridines and are known to induce drug-metabolizing enzymes in rat liver. In this study the three isomeric picoline (methylpyridine) N-oxides, as major oxidized metabolites of 2-, 3- and 4-picoline, were evaluated as inducers of cytochrome P450 (CYP) enzymes in rat liver. After a single dose of 100 mg/kg 24 h before sacrifice the 3- and 4-isomers were effective inducers of microsomal substrate oxidations associated with the phenobarbital-inducible CYPs 2B; upregulation of CYP2B protein was confirmed by immunoblotting. In contrast, the 2-isomer did not increase CYP2B protein or activity in rat liver but CYP2E1 protein expression was upregulated by the isomers to 160-200% of control. The three chemicals increased aniline 4-hydroxylation activity in rat liver, which is consistent with induction of CYPs 2B or 2E1 and 4-nitrophenol 2-hydroxylation activity was increased in microsomal fractions from 3- and 4-picoline N-oxide-treated rats. The activities of several other CYPs were also determined and CYP1A-dependent 7-ethylresorufin O-deethylation was increased (to approximately 6- and 2-fold of control) by the 3- and 4-isomer, respectively, whereas the activity of CYP3A-mediated androstenedione 6beta-hydroxylation was decreased by the agents--most notably by the 2-isomer. During NADPH-supported oxidation of CCl4, lipid peroxidation was increased in microsomes from 3- and 4-picoline N-oxide-pretreated rats and was modulated in vitro by the CYP2B inhibitor orphenadrine, but not by the CYP2E1 inhibitor 4-methylpyrazole. These findings establish that particular isomers of picoline N-oxide rapidly upregulate CYP2B or, to a lesser extent, CYP2E1 and implicate CYP2B in the enhanced lipid peroxidation observed in microsomes from rats treated with 3- and 4-picoline N-oxides. Such induction process may contribute to the hepatotoxicity of pyridines by enhancing the capacity for microsomal lipid peroxidation.     

Effects of prostaglandins E1, E2 and F2 alpha and polyphloretin phosphate of domestic fowl

02 consumption by human term placenta has been measured during perfusion in vitro, with a technique that permits perfusion of the intervillous space as well as the umbilical circulation. The rate at which 02 was consumed was directly related to the rate at which it was supplied, within the limits studied. Previous estimates of 02 consumption yielded figures approximating 3 ml. per minute per kilogram of placenta, but these estimates were attained under conditions of limited oxygen supply. When oxygen was delivered to the placenta at rates believed to be those achieved in vivo, oxygen consumption approximated 10 ml. per minute per kilogram. This rate of 02 consumption is similar to those obtained from studies of animal placentas in vivo and is more consistent with that of an active metabolic organ. If one were to accept estimates of 02 consumption by the human fetus in utero, the present studies indicate that approximately one fifth of maternal oxygen supplied to the conceptus is diverted to support placental metabolism.     

Synergistic activation of adenylate cyclase by guanylyl imidophosphate and epinephrine

A kinetic analysis of the synergistic activation of turkey erythrocyte adenylate cyclase by 1-catecholamines and guanylyl imidodiphosphate (Gpp(NH)p) is described. We have found that the role of the catecholamine hormone is to facilitate the activation of the enzyme by the guanyl nucleotide according to the following mechanism: R-E+G=R-EG R-EG+H=HR-EG leads to HR-E'G where R is the receptor, E the enzyme, G the guanyl nucleotide effector, and H the hormone. The binding steps are fast and reversible but the conversion of the inactive enzyme E to its active stable form (E') occurs with a rate constant of k=0.7 min-1. This step is essentially irreversible in the presence of high Gpp(NH)p concentrations. In the absence of beta-agonist (1-catecholamine) and at low free Mg2+ concentrations, the activation of the enzyme is insignificant. At high Mg2+ concentration the conversion of E to E' occurs slowly in the absence of hormone, probably by another pathway. Thus, the presence of a guanyl nucleotide at the allosteric site is obligatory but not sufficient to induce the conversion of the inactive enzyme to its active form. The process of enzyme activation requires both Gpp(NH)p and hormone and under these conditions is essentially irreversible. The permanently active enzyme is stable in the absence of hormone and Gpp(NH)p and its high catalytic activity is stable for many hours. However, hormone and ATP induce a conversion of the high activity to the low activity form. Thus, it seems that both the process of enzyme activation by Gpp(NH)p and its reversal are hormone dependent. Both processes are blocked by the beta-blocker propranolol.     

Neuropeptide FF receptors of mouse olfactory bulb: binding properties and stimulation of adenylate cyclase activity

Neuropeptide FF (NPFF) receptors have been characterized in mouse olfactory bulb membranes by using [125I][1DMe]Y8Fa. The specific binding of this NPFF analogue was time and concentration dependent, reversible, saturable, and of high affinity (Kd = 0.022 nM, Bmax = 56.4 fmol/mg protein). In olfactory bulb membranes, NaCl increased the affinity of [125I][1DMe]Y8Fa by decreasing the dissociation rate constant (k-1). In contrast, the nonhydrolyzable analogue of GTP, Gpp[NH]p, decreased the maximal number of binding sites suggesting a coupling of NPFF receptors to a G-protein. In mouse olfactory bulb and spinal cord membranes, NPFF analogues stimulated adenylate cyclase activity in a time- and dose-dependent manner, whereas in the cerebellum, which does not possess NPFF receptors, low cAMP production was stimulated by NPFF. Our data are consistent with guanine nucleotide binding protein regulation of NPFF receptors positively coupled to adenylate cyclase.     

5-hydroxytryptamine1A receptor-mediated effects on adenylate cyclase and nitric oxide synthase activities in rat ventral prostate

AIM: To investigate the patterns of expression of transforming growth factor alpha (TGF-alpha) and epidermal growth factor receptor (EGFR) in squamous metaplasia and squamous cell carcinomas of the urinary bladder with and without schistosomiasis. METHODS: Immunohistochemical study of the expression of TGF-alpha and EGFR in squamous metaplasias (n = 12) and various grades of squamous cell carcinomas (n = 21) of the bladder with and without schistosomiasis. RESULTS: Focal cytoplasmic and membranous positivity for EGFR and TGF-alpha was seen in all cases of squamous metaplasia. The markers were diffusely coexpressed in a concordant pattern in areas of hyperplastic keratinising squamous metaplasia. A similar pattern of positivity was seen in verrucous carcinomas (n = 2) and well differentiated squamous carcinomas (n = 6). Progressive loss of differentiation was associated with increasing loss of EGFR staining while TGF-alpha staining was retained. Squamous cell carcinoma in situ (n = 2) showed focal positivity for TGF-alpha and EGFR. There were no differences in staining patterns between cases with and without schistosomiasis. CONCLUSIONS: The coexpression of TGF-alpha and EGFR by well differentiated squamous cell carcinomas and hyperplastic keratinising squamous metaplasia is consistent with the active regulatory role exerted by this autocrine loop. There is regional absence of expression of EGFR but not of TGF-alpha in squamous cell carcinomas of lesser differentiation, suggesting heterogeneity of such control in these tumours. The focal expression of the two markers in squamous cell carcinomas in situ indicates a possible second pathway of oncogenesis for less differentiated tumours. These observations may have important implications for the effectiveness of putative growth factor based treatments.