Aging and obesity induce distinct gene expression adaptation in the liver of C57BL/6J mice.

BACKGROUND: Aging and obesity induce complex transcriptomic changes in the liver, promoting the development of insulin resistance and type 2 diabetes. In spite of an increasing amount of studies on the role of aging and nutrient excess in metabolic disorders, the specific molecular events leading to insulin resistance are still poorly understood. METHODS: This study presents a comparative analysis of hepatic gene expression profiles between young adult C57BL/6J mice fed with a low- or a high-fat diet for 1 and 12 months. We evaluated the expression of a defined set of genes implicated in glucose and lipid metabolism as well as key nuclear receptors and their target genes, IGF1 signaling and clock genes. RESULTS: Aging and short-term high-fat consumption induced insulin resistance, albeit through two distinct processes. Hepatic gene expression changes were more pronounced in the context of aging. We further analyzed expression profiles together with plasma parameters by principal component analysis with regard to diet condition. CONCLUSIONS: Our results suggest that in the liver of C57BL/6J mice, the molecular mechanisms underlying high-fat feeding or aging which mediated insulin resistance were not identical.

[Thoraco-abdominal aortitis in ankylosing spondylitis: a case report and review of literature]. / Aortite thoraco-abdominale au cours d'une spondylarthrite ankylosante: un nouveau cas et revue de la littérature.

UNLABELLED: We report a case of aortitis in a patient with ankylosing spondylitis revealed by an unexplained persistent inflammation. CASE STUDY: The diagnosis of ankylosing spondylitis was retained in a 64-year-old woman suffering from inflammatory back and neck pain combined with buttock pain relieved by anti-inflammatory drugs (NSAIDs) since 2004 and more recent bilateral heel pain in the morning since 2006; sacroiliitis was grade 3 on the right and grade 2 on the left (modified New-York criteria). The patient had remained asymptomatic from April 2006 to 2007 with NSAID as needed. Nevertheless, biological inflammation persisted: erythrocyte sedimentation rate 44 to 55 mm/h, activated protein C 34 to 90 mg/L. Complementary examinations are negative: bilateral temporal artery biopsy, endoscopy with duodenal biopsy looking for Tropheryma whipplei. The thoraco-abdominal and pelvic CT scan revealed aortitis extending from the abdominal aorta to the iliac axis. Treatment with prednisone 0.5 mg/kg was started to decrease the inflammatory aortitis. DISCUSSION: The most "classical" cardiovascular damage observed in spondylitis is aortic insufficiency and conduction disturbances. The first cases of aortitis were reported in 1958. CONCLUSION: Inflammatory vascular disease should be evoked as a possible diagnosis in patients with ankylosing spondylitis the presenting an unexplained biological inflammation (ESR and CRP).

Regulation of murine airway responsiveness by endothelial nitric oxide synthase.

Nitric oxide (NO) is a potent vasodilator, but it can also modulate contractile responses of the airway smooth muscle. Whether or not endothelial (e) NO synthase (NOS) contributes to the regulation of bronchial tone is unknown at present. Experiments were designed to investigate the isoforms of NOS that are expressed in murine airways and to determine whether or not the endogenous release of NO modulates bronchial tone in wild-type mice and in mice with targeted deletion of eNOS [eNOS(-/-)]. The presence of neuronal NOS (nNOS), inducible NOS (iNOS), and eNOS in murine trachea and lung parenchyma was assessed by RT-PCR, immunoblotting, and immunohistochemistry. Airway resistance was measured in conscious unrestrained mice by means of a whole body plethysmography chamber. The three isoforms of NOS were constitutively present in lungs of wild-type mice, whereas only iNOS and nNOS were present in eNOS(-/-) mice. Labeling of nNOS was localized in submucosal airway nerves but was not consistently detected, and iNOS immunoreactivity was observed in tracheal and bronchiolar epithelial cells, whereas eNOS was expressed in endothelial cells. In wild-type mice, treatment with N-nitro-L-arginine methyl ester, but not with aminoguanidine, potentiated the increase in airway resistance produced by inhalation of methacholine. eNOS(-/-) mice were hyperresponsive to inhaled methacholine and markedly less sensitive to N-nitro-L-arginine methyl ester. These results demonstrate that the three NOS isoforms are expressed constitutively in murine lung and that NO derived from eNOS plays a physiological role in controlling bronchial airway reactivity.

Inhibition of human tumor cell growth in vivo by an orally bioavailable inhibitor of human farnesyltransferase, BIM-46228.

Oncogenic mutations of the ras gene leading to constitutive activation of downstream effectors have been detected in a wide spectrum of human cancers (pancreas, thyroid, colon, non-small-cell lung cancer). Membrane anchorage of Ras, required for functional activity in signal transduction, is facilitated by post-translational modifications resulting in covalent attachment of a farnesyl group to the cysteine in the C-terminal CAAX motif. This attachment is mediated by farnesyltransferase (FTase). Here, we report a novel FTase inhibitor, BIM-46228, which showed (i) specific inhibition of purified human FTase enzyme, (ii) inhibition of proliferation in vitro in a large spectrum of human tumor cell lines, (iii) inhibition of growth of human tumor xenografts in athymic nude mice treated by per os administration and (iv) the benefits of in vitro combination of its activity with chemotherapy or radiotherapy.

Hyperoxia/normoxia-driven retinal angiogenesis in mice: a role for angiotensin II.

PURPOSE: To examine a possible role for the angiotensin system in a rodent model of retinopathy of prematurity. METHODS: A previously described model was used in which oxygen cycling (5 days hyperoxia and 5 days hypoxia) induced retinal alterations in newborn mice. An angiotensin-converting enzyme inhibitor (perindopril), or angiotensin receptor antagonists AT1 (losartan) or AT2 (PD123319) were administered subcutaneously for 5 days after the hyperoxia exposure. According to histologic methods, the endothelial cell count within the anterior part of the ganglion cell layer was used for the evaluation of the compound effect. RESULTS: Histologic evaluation showed an increased number of endothelial cells in retinas of hypoxic pups compared with hyperoxic or normoxic pups. Hypoxic animals treated with perindopril (4 mg/kg) showed a significant decrease (29%, P < or = 0.001) in endothelial cell number (163 +/- 7) compared with hypoxic control animals (231 +/- 10). Losartan also decreased the endothelial cell number (14%, P < or = 0.05), whereas the AT2 antagonist had no effect. CONCLUSIONS: The data showed a protective effect of an angiotensin-converting enzyme inhibitor and of an AT1 receptor antagonist on hyperoxia- and normoxia-induced neovascularization in newborn mice. The results suggest a role for the angiotensin system in this model and that such compounds may be of interest in the prevention of proliferative retinopathies such as proliferative diabetic retinopathy.

Inhibition of human tumor cell growth in vitro and in vivo by a specific inhibitor of human farnesyltransferase: BIM-46068.

Oncogenic mutations of the ras gene leading to constitutive activation of downstream effectors have been detected in a large spectrum of human cancers (pancreas, thyroid, colon and NSCLC). Membrane anchorage of Ras required for functional activity in signal transduction is facilitated by post-translational modifications resulting in covalent attachment of a farnesyl group to the cysteine in the C-terminal CAAX motif. This attachment is mediated by farnesyltransferase (FTase). Here, we report a novel series of potent FTase inhibitors, where the tetrapeptide CAAX motif has been modified by incorporation of a thiazolidine carboxylic acid moiety followed by reduction of the 1st and 2nd peptide bonds to a secondary and tertiary amine, respectively. The C-terminal carboxylate was converted to esters for improved cellular penetration. These compounds showed specific inhibition of purified human FTase enzyme, inhibition of proliferation in vitro in a large spectrum of human tumor cell lines and inhibition of growth of human tumor xenografts in athymic nude mice. In addition, in regard to a panel of cell lines, using the Compare analysis to determine the Pearson coefficient correlation, the anti-proliferative spectrum of BIM-46068 has been shown to be distinct from the profile of typical chemotherapeutic agents.

Sequence dependency of the internalization and distribution of phosphorothioate oligonucleotides in vascular smooth muscle cells.

Antisense studies imply the utilization of oligonucleotides (ODN) for sequence-specific down-regulation of genes. This usually consists in assessing antisense sequences versus control sequences (mismatched, inverted, scrambled, randomized or any sequence unrelated to the relevant target). Even though the investigated biological effect (knockdown of an unwanted protein) is observed only with the antisense sequence and weakly, if at all, with any of the control sequences, this is a necessary but not a sufficient condition to demonstrate an antisense effect. Indeed, biochemical parameters such as stability, uptake and subcellular compartmentalization of ODN in a given cellular system are most often sequence-dependent processes. In this work, a series of phosphorothioate ODN of different lengths and sequences were evaluated as to their binding, internalization and subcellular distribution properties in vascular smooth muscle cells. In addition to membrane binding and nuclear accumulation, the partition of ODN in the cytosol of cells was measured by a method based upon controlled permeabilization of the plasma membrane, permitting the recovery of the cytosolic content with minimal damage to the membranes of the endocytic vesicles and lysosomes. We found that the tested ODN showed striking differences in their uptake and distribution in smooth muscle cells. Our results gave rise to the problem of validating the observed biological effects when different sequences of ODN were compared. Cellular studies such as the one presented in this work could help in choosing the proper control sequences among ODN exhibiting similar cell interactions as compared to the antisense sequences. Moreover, this method could be useful for the selection of antisense sequences that can be efficiently internalized and preferentially distributed in the appropriate compartments in cells for in vitro antisense studies.

Dual inhibition of human leukocyte elastase and lipid peroxidation: in vitro and in vivo activities of azabicyclo[2.2.2]octane and perhydroindole derivatives.

A series of potent and selective human leukocyte elastase (HLE) inhibitors of the Val-Pro-Val type has been developed. Initially, the central proline residue was replaced by nonnatural amino acids Phi ((2S,3aS,7aS)-perhydroindole-2-carboxylic acid) and Abo ((3S)-2-azabicyclo-[2.2.2]octane-3-carboxylic acid), and secondly several groups able to confer antioxidant properties to the molecule were introduced at the lipophilic N-terminal side chain. When compared to reference inhibitors, in vitro HLE inhibitory potency was maintained (10-100 nM) both with compounds containing the antioxidant moiety at the end of the N-terminal side chain and with compounds in which the N-terminal valine of the tripeptidic sequence had been replaced by a epsilon-substituted lysine. The lipidic peroxidation inhibitory potency of this series of inhibitors was found to be similar to that of the reference antioxidant compounds (around 1 microM). Moreover, HLE-induced hemorrhage in the hamster lung was effectively prevented (40-60% at 15 micrograms/kg) by most of the inhibitors tested when administered intratracheally 3 h before instillation of elastase. Among the most active analogs, compounds 11a,c,g were still active when administered 18 h before elastase. Interestingly, compound 14a was able to prevent HLE-mediated lung damage when administered 72 h prior to enzymatic challenge, indicating exceptional stability and retention in the lung. Finally, in a 14-day chronic model of emphysema in the hamster, 14a significantly conserved alveolar spaces, a marker of lung tissue destruction, and was more potent than reference inhibitor ICI 200 880. This indicates that addition of peroxidation inhibitory properties to an HLE inhibitor can provide a powerful in vivo inhibitor of pulmonary tissue destruction.

Neutrophil-associated inflammatory responses in rats are inhibited by phenylarsine oxide.

NADPH oxidase is a phagocyte-specific enzyme which produces O2- and so initiates a cascade of reactive oxygen species formation. Inflammatory diseases involve overproduction of reactive oxygen species which induce tissue damage. Phenylarsine oxide has been described previously as a complete and direct inhibitor of NADPH oxidase in vitro that acts by covalently binding to vicinal thiol groups of a membrane-associated component of the enzyme. In the present work, the potential anti-inflammatory effect of phenylarsine oxide was tested on two experimental models in rats, carrageenan-induced paw oedema and lipopolysaccharide-mediated lung inflammation. Intraperitoneal injection of phenylarsine oxide reduced (i) reactive oxygen species production by rat phagocytes, (ii) neutrophil infiltration into the lung after inhalation of lipopolysaccharide and (iii) neutrophil-dependent oedema induced by carrageenan in hindpaws. We conclude that phenylarsine oxide has anti-inflammatory properties which are probably exerted by its ability to inhibit neutrophil NADPH oxidase-dependent reactive oxygen species production. The present work provides the basis for the development of new anti-inflammatory, arsenic-free agents reacting at the phenylarsine oxide site, which seems to be the Achilles' heel of NADPH oxidase.

Activation of MMP-9 by neutrophil elastase in an in vivo model of acute lung injury.

The effect of neutrophil elastase on the functional status of gelatinases was studied in an hamster model developed by intratracheal administration of lipopolysaccharide followed by in situ cell activation with phorbol myristate acetate. This resulted in the production in bronchoalveolar lavage fluids, in addition to the matrix metalloproteinase MMP-9, of a 75 kDa gelatinase associated with collagenolytic activity. Treatment in vivo with an elastase inhibitor abolished the latter activity. Since, in addition, elastase activates in vitro purified MMP-9 gelatinase into a similar 75 kDa entity, these data suggest that elastase may be a physiological activator of MMP-9 in vivo.

In vitro down-regulation of antigen-induced IL-5 gene expression and protein production by cAMP-specific phosphodiesterase type 4 inhibitor.

The effects of cAMP-elevating agents on antigen-induced IL-5 (interleukin-5) messenger RNA expression and protein production were examined in vitro in an antigen-driven system of splenocytes from ovalbumin sensitized BALB/c mice. IL-5 production was inhibited by rolipram, a type 4 phosphodiesterase (PDE4) inhibitor, dose-dependently (maximally at 10(-5) M) and by dibutyryl-cAMP (db-cAMP) (3 x 10(-4) M), but not by the type 3 and type 5 PDE inhibitors milrinone and zaprinast (10(-5) M), respectively. Forskolin (10(-5) M), an adenylate cyclase activator, was noninhibitory alone but potentiated inhibition by rolipram. Inhibition was associated with a decrease in IL-5 mRNA expression. Cycloheximide 10(-6) M and actinomycin 2 micrograms/ml abolished IL-5 production and mRNA expression. We conclude that in splenocytes from sensitized mice, IL-5 production and mRNA expression depend on antigen stimulation. The time course of IL-5 protein production is closely related to IL-5 mRNA expression and depends on de novo protein synthesis. db-cAMP and a selective PDE4 inhibitor, alone or in combination with forskolin, are the only cAMP-elevating agents that dose-dependently inhibited antigen-induced IL-5 mRNA expression and protein production. These results are in agreement with in vivo inhibition by a selective PDE4 inhibitor of antigen-induced pulmonary eosinophil infiltration and IL-5 production in sensitized mice, and they suggest that PDE4 inhibitors have potential for treating respiratory allergy.

A water-soluble, stable dipeptide NK1 receptor-selective neurokinin receptor antagonist with potent in vivo pharmacological effects: S18523.

The potassium salt of a chemically stabilized dipeptide, {1-[4-(1 H-tetrazol-5-yl)butyl]indol-3-yl}carbonyl-Hyp-Nal-N(methyl)-Bzl , (Hyp = (R)-4-hydroxy-L-proline; Nal = 3-L-(beta-naphthyl)-alanine), S18523, is described as a new water-soluble, potent and selective NK1 receptor antagonist. The low molecular weight antagonist (M(r) = 736) displays nanomolar potency (pA2 = 9.6) in the rabbit vena cava (NK1) bioassay and nanomolar affinity (pKi = 9.1) on the human NK1 receptor expressed by lymphoblastoma cells. It is devoid of mu-opiate affinity (Ki > 10(-4) M with respect to tritiated Tyr-DAla-Gly-MePhe-Gly-ol), has negligible calcium-channel affinity (estimated Ki = 2.6 x 10(-5) M, with respect to isradipine) and does not cause peritoneal mast-cell degranulation. S18523 has strong antinociceptive effects in three classical pain tests in vivo both by i.v. and p.o. routes. The dipeptide potently antagonizes bronchoconstriction provoked by exogenous substance P in the guinea-pig and acts longer than the non-peptide antagonist CP99994, when administered as aerosol. Finally, S18523 displays antiinflammatory properties, since it dose-dependently inhibits substance P-induced plasma extravasation both in the bladder (ID50 = 0.18 mg/kg i.v.) and bronchi (ID50 = 0.14 mg/kg i.v.) of the guinea-pig.

In vitro pharmacological effects of S 12370 (2-[4-benzhydryloxypiperidinoethyl]isoxindole; an antibronchoconstrictor agent) in normal and sensitized tissue.

The effects of S 12370 (2-[4-benzhydryloxypiperidinoethyl]isoxindole), were studied in vitro. In guinea pig isolated tracheal rings, S 12370 induced a similar competitive inhibition of the contractile responses produced by acetylcholine, histamine and serotonin. However, it did not affect the contractions induced by leukotriene D4 (LTD4), substance P and U 46619, a stable analogue of thromboxane A2. S 12370 induced a concentration dependent inhibition of the cholinergic component of the contraction induced by electrical field stimulation, whereas it did not influence the sustained nonadrenergic noncholinergic (NANC) excitatory response observed in guinea pig isolated bronchi. S 12370 did not influence the relaxations induced by prostaglandin E2, isoprenaline and salbutamol, and did not modify the nonadrenergic noncholinergic inhibitory response induced by electrical field stimulation. In isolated left atria, the negative inotropic effect of acetylcholine was competitively inhibited by S 12370. In binding experiments, S 12370 exhibited similar affinity for M1, M2, M3, M4 muscarinic receptors and also recognized 5-HT2 serotonin and H1 histamine receptor subtypes. In ovalbumin-sensitized animals, the contractile response of isolated tracheal rings produced by exposure to the allergen was not influenced by S 12370. Tracheal rings from sensitized animals preexposed in vitro to the allergen developed a hyporesponsiveness to beta-adrenoceptor stimulation. S 12370 prevented the inhibitory effect caused by ovalbumin immune sensitization in the relaxation to isoprenaline. In rat polymorphonuclear neutrophil (PMN) cells, S 12370 up to 10(-5) M did not inhibit the arachidonic acid metabolism. These results suggest that in guinea pig tracheal smooth muscle, S 12370 is a competitive inhibitor of muscarinic, serotonin and histamine receptors and can modulate the beta-adrenergic dysfunction induced by immune sensitization. S 12370 may present some therapeutic interest in inflammatory airway diseases.

In vitro and in vivo pharmacology of S 16474, a novel dual tachykinin NK1 and NK2 receptor antagonist.

Since tachykinins released from lung sensory nerve endings are thought to play a role in inflammatory diseases of airways via NK1 and NK2 receptors, dual tachykinin NK1 and NK2 receptor antagonists may have a great therapeutic potential. In vitro, the cyclopeptide S 16474 (cyclo-[Abo-Asp(D-Trp(Suc0Na)-Phe-N-(Me)Bzl)]) bound to both human tachykinin NK1 and NK2 receptors expressed in two lines of transfected Chinese hamster ovary cells (IC50 values 85 nM and 129 nM, respectively), while showing a poor affinity for the rat tachykinin NK1 receptor. S 16474 inhibited the contractions induced by substance P in isolated rabbit vena cava (pA2 7.0) and by neurokinin A in rabbit pulmonary artery (pA2 5.6). In vivo in anaesthetized guinea-pigs, S 16474 was found to dose dependently inhibit the bronchoconstrictions induced by intravenously administered substance P, neurokinin A and capsaicin. Plasma extravasation evoked in bronchi by endogenously released tachykinins under vagus nerve stimulation was abolished by S 16474 (10 mu mol/kg i.v.). These results demonstrate clearly that S 16474 is a tachykinin receptor antagonist exhibiting, in vitro and in vivo, a dual inhibitory effect on NK1 and NK2 receptors.

S 16118 (p-guanidobenzoyl-[Hyp3,Thi5,D-Tic7,Oic8]bradykinin) is a potent and long-acting bradykinin B2 receptor antagonist, in vitro and in vivo.

The in vitro and in vivo effects of S 16118 [p-guanidobenzoyl-[Hyp3, Thi5,D-Tic7,Oic8]bradykinin (BK)], a new BK receptor antagonist, were studied. S 16118 inhibited the contraction produced by BK in the rabbit jugular vein, but was ineffective in the rabbit aorta, indicating the BK B2 receptor specificity of the compound. In isolated organs from various species including humans, S 16118 was a potent antagonist (Ki, pA2 or pKB value from 9.58-7.37). The effect of S 16118 was specific as it did not show any affinity for a number of other receptors or channels and did not possess residual agonistic properties in most of the tissues studied. Furthermore, S 16118 is a poor secretagogue agent either in the rat or human mast cells and is resistant to degradation with an in vitro half-life in blood from different species, including humans, of more than 24 hr. In vivo, in the rabbit, i.v. injection of S 16118 inhibited the hypotension induced by BK up to 4 hr after administration. In the guinea pig, it was also effective in inhibiting the bronchoconstriction induced by BK, although when administered i.v. it had a shorter duration than in the rabbit. However, in the same species, when aerosolized, S 16118 was effective and long-acting against BK-induced bronchoconstriction. Changes in permeability induced by BK injection in the guinea pig trachea and bronchus, and by BK superfusion in the hamster cheek pouch, were abolished by i.v. pretreatment with S 16118.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of the bradykinin B2 receptor antagonist S 16118 (p-guanidobenzoyl-[Hyp3,Thi5,D-Tic7,Oic8]bradykinin) in different in vivo animal models of inflammation.

The effects of S 16118 (p-guanidobenzoyl-[Hyp3,Thi5,D-Tic7, Oic8]bradykinin (BK)], a new, potent and long-acting BK B2 antagonist, were tested in some in vivo models of inflammation. In rats, S 16118 (0.1 and 1 mg/kg) given i.v. or s.c. delayed the edema formation induced by intraplantar carrageenan injections up to 4 hr after administration, confirming the involvement of kinins in this inflammatory reaction. In guinea pigs treated with atropine, vagal stimulation induced bronchial microvascular leakage. Aerosolization of S 16118 (5 x 10(-3) M for 20 sec), 4 min before vagus nerve stimulation, induced a 60% decrease in the Evans blue extravasation, demonstrating the modulatory role of BK in neurogenic inflammation. In rats, caerulein infusion (4 nmol/kg/hr) induced hypotension, massive pancreatic edema, hypovolemia due to plasma leakage and an increase in serum lipase and amylase activity. S 16118 (100 nmol/kg s.c.) prevented the hypotension, the pancreatic edema and the hypovolemia and induced a marked increase in the serum lipase and amylase activity. This confirms that BK, acting on BK B2 receptors, is involved in this model of pancreatitis. In rabbits, the injection of lipopolysaccharides (LPS; 600 micrograms/kg i.v.) induced hypotension, metabolic acidosis and leukopenia. S 16118 (1.73 mumol/kg i.v.) did not influence the effects of LPS injection. In mice, i.p. LPS (25 mg/kg) administration induced over 90% mortality in 96 hr. S 16118 (1 mg/kg x 4), given 30 min before LPS injection and 4, 8 and 24 hr after LPS injection, did not influence the mortality rate.(ABSTRACT TRUNCATED AT 250 WORDS)

[Evaluation of the CIS Allergen Screen I kit versus the Pharmacia Cap System and skin tests in the diagnosis of respiratory allergy]. / Evaluation de la trousse CIS Allergen Screen I vis-à-vis de Pharmacia Cap System et des tests cutanés dans le diagnostic de l'allergie respiratoire.

This study has given evaluation of a new pneumallergen diagnostic test CIS Allergen Screen I in comparison with Pharmacia Cap System and intradermal skin test. Five allergens (Mite (DPT) D1, Mite (DF) D2, Cat E1, Dog E2, Orchard grass G3) have been studied with in vitro tests (CIS Allergen Screen I Cap System) and the results obtained gave on patient to patient comparison a sensitivity of 91%, a specificity of 100% and on allergen comparison a sensitivity of 84%, a specificity of 99% and an accuracy of 93%. Compared with intradermal skin test for two allergens (Mite (DT) D1 and Orchard grass G3), CIS Allergen Screen I have good results to G3 but less specificity and sensitivity to D1. These results could be to depend on different standardisation between allergen extracts especially for Mite.

Endothelin receptor regulation by endothelin synthesis in vascular smooth muscle cells: effects of dexamethasone and phosphoramidon.

One of the major biological effects of the endothelium-derived peptide endothelin-1 (ET-1) is its receptor-mediated constrictive action on vascular smooth muscle. In this study, we have examined the effects on the ET-1 pathway of 18 h exposure at 37 degrees C of cultured rat aortic smooth muscle cells to dexamethasone (DEX) and phosphoramidon. ET-1 synthesis was evaluated by radioimmunoassay, ET-1 binding characteristics were determined with [125I]iodo-ET-1, and ET-1-induced intracellular calcium mobilization was measured using fura-2-loaded cells. DEX (100 nM) led to a 2- to 3-fold-increase of ET-1 production, it down-regulated ET-1 receptors and reduced ET-1-stimulated calcium mobilization by 70%. In contrast, phosphoramidon (100 microM) inhibited ET-1 production by 60%, up-regulated ET-1 receptors and potentiated ET-1-induced calcium mobilization by 75%. These results indicate that the regulatory effects of DEX and phosphoramidon on ET-1 receptors are mediated via ET-1 production by the cells. This suggests an autocrine control of ET-1 receptors by endogenous ET-1 synthesis in vascular smooth muscle cells.

Nitric oxide synthase induction in glial cells: effect on neuronal survival.

In primary rat cortical glial cell cultures lipopolysaccharide (LPS) induced a dose- and time-dependent increase of intracellular cyclic GMP concentration associated with a release of nitrite. The LPS-induced cyclic GMP and nitrite increase was enhanced by interferon-gamma and was prevented by L-NG-nitroarginine, dexamethasone and cycloheximide. Thus indicates that LPS effect occurred via the production of nitric oxide (NO) and involved new protein synthesis suggesting the induction of NO synthase in these cells. Furthermore this induction was Ca(2+)-independent and was blocked by an inhibitor of the synthesis of tetrahydrobiopterin. The inducible NO synthase was also expressed by C6 glioma cells. In primary mixed cultures containing both neuronal and glial cells, the effects of LPS were less important than in primary glial cell cultures suggesting that glial cells rather than neurons expressed the inducible form of NO synthase. On the other hand no change on neuronal viability was observed after NO synthase induction by LPS in this culture type. This study indicates that glial cells are able to induce NO synthase without affecting neuronal survival.