Adenylyl Cyclase, a Coincidence Detector for Nitric Oxide

McVey, Michael; Hill, Jennifer; Howlett, Allyn C.; Klein, Claudette

doi:10.1074/jbc.274.27.18887

Cited by 83 publications

(75 citation statements)

References 26 publications

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“…We observed that inhibition of adenylyl cyclase activity and PKA completely blocked the lipolytic effect of iNOS inhibition, implying that NO suppresses lipolysis by reducing cAMP and PKA activation. Interestingly, previous reports have shown that NO inhibits adenylyl cyclase activity (29,30). Thus, the NO donor sodium nitroprusside was found to decrease forskolin-induced activation of type VI adenylyl cyclase.…”

Section: Discussionmentioning

confidence: 99%

Inducible nitric oxide synthase modulates lipolysis in adipocytes

Penfornis

Marette

2005

Journal of Lipid Research

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The role of inducible nitric oxide synthase (iNOS) in the modulation of adipocyte lipolysis was investigated. Treatment of white and brown adipose cell lines and mouse adipose explants with a mixture of tumor necrosis factor-␣ , interferon-␥ , and lipopolysaccharide (LPS) doubled the lipolytic rate, and this was associated with marked induction of iNOS expression and nitric oxide (NO) production. iNOS inhibition by 1400W, aminoguanidine, or L-NIL pretreatment further increased the cytokine/LPS-mediated lipolysis by 30% ( P Ͻ 0.05) in cultured adipocytes and in adipose explants. However, this potentiating effect of iNOS inhibition was abolished in adipose explants isolated from iNOS knockout mice. Pharmacological inhibitors of adenylyl cyclase or protein kinase A reduced cytokine/LPS-induced lipolysis and also blunted the potentiating effect of iNOS inhibition on the lipolytic rate. Furthermore, addition of the antioxidants l -cystine and l -glutathione to cytokine/LPS-stimulated adipocytes mimicked the lipolytic effect of iNOS inhibition.In conclusion, inhibition of iNOS activity in adipocytes potentiates cytokine/LPS-induced lipolysis. This effect was fully reversed by adenylyl cyclase and protein kinase A inhibitors but was mimicked by cellular antioxidants. These data suggest that iNOS-mediated NO production counteracts cytokine/LPS-mediated lipolysis in adipocytes and that this feedback mechanism involves an oxidative process upstream of cAMP production in the signaling pathway. -Penfornis, P., and A. Marette. Major metabolic changes occur during sepsis as proinflammatory cytokines and endotoxins markedly affect energy metabolism in liver and peripheral tissues (reviewed in 1, 2). In vivo studies have shown that adipose tissue lipolysis is markedly increased in sepsis and other acute inflammatory settings, leading to an increased VLDL secretion and hepatic fatty acid synthesis. The lipolytic effect of cytokines and endotoxins can be reproduced in vitro using freshly isolated adipocytes or cultured adipose cell lines (3). Unlike ␤ -adrenergic agonists, which stimulate lipolysis within minutes through activation of the adenylyl cyclase/cAMP/protein kinase A (PKA) pathway, inflammatory cytokines such as tumor necrosis factor-␣ (TNF-␣ ) increase lipolysis only after long-term activation (hours) via activation of Ras-extracellular signal regulated kinase (ERK), which in turns promotes phosphorylation and activation of Hormone-sensitive lipase (HSL) and its translocation on cellular lipid droplets (3-6). TNF-␣ may also cause lipolysis through ERK-dependent inhibition of cyclic nucleotide phosphodiesterase 3B (PDE3B), increasing intracellular cAMP and PKA activity, leading to phosphorylation and decreased expression of perilipins (7-9). Perilipins are phosphoproteins located at the surface of the intracellular lipid droplets that have been proposed to act as a barrier to lipolysis (9-11).Sepsis is also associated with marked expression of inducible nitric oxide synthase (iNOS), a proinflammatory mediator i...

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Section: Discussionmentioning

confidence: 99%

Inducible nitric oxide synthase modulates lipolysis in adipocytes

Penfornis

Marette

2005

Journal of Lipid Research

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“…Indeed, there is evidence that NO decreases steroidogenesis although in different experimental schemes (Olson et al 1996, Masuda et al 1997, Vega et al 2000. The mechanisms involved may be related to the inhibition produced by the NO of the activity of steroid synthesislimiting enzyme, cytochrome P 450 , of the two isoforms of adenylyl cyclase, the second intracellular messenger (McVey et al 1999), and/or of the inhibition of the steroidogenic acute regulatory protein (StAR) protein (Devoto et al 2001). In our case it should be emphasized that the terminals of the ovarian nervous plexus reach the steroidogenic cells where the inducible NOS or eNOS isoenzymes have been found (Dunnam et al 1999).…”

Section: Discussionmentioning

confidence: 99%

The cholinergic influence on the mesenteric ganglion affects the liberation of ovarian steroids and nitric oxide in oestrus day rats: characterization of an ex vivo system

Orozco¹,

Sosa²,

Fillipa³

et al. 2006

Journal of Endocrinology

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The axons that constitute the ovarian nervous plexus originate mostly in the principal neurons of the superior mesenteric ganglion (SMG) that is part of the sympathetic ganglionic chain and exhibits cholinergic receptors. In order to observe the effect of acetylcholine, the main neurotransmitter in the ganglionic transmission, the purpose of the present work was: first, to standardize an integrated ex vivo superior mesenteric ganglion-ovarian nervous plexus-ovary (SMG-ONP-O) system in oestrus day rats; secondly, to determine if the ganglionic cholinergic stimulus modifies the release of nitric oxide and steroids in the ovary compartment in the absence of humoral factors; and thirdly, to investigate if there are differences in the responses between the left and right ovaries caused by the neural stimulus. The ex vivo experimental left and right systems were developed and standardized. The systems were incubated in Krebs-Ringer phosphate buffer in a Dubnoff metabolic shaker. The progesterone release was determined to standardize the incubation times, obtaining different responses between the left and right systems, which shows that both systems have their own autonomic tone. Non-specific stimulation with KCl in the ganglion compartment provoked different responses in terms of release of progesterone and oestradiol. Progesterone decreased in the left and right systems.However, oestradiol diminished at short times and increased at 60 and 120 min in the left ovary, whereas it increases at 30 and 60 min in the right ovary. These different responses show the sensitivity and viability of both systems. When acetylcholine was used in the ganglion compartment, the release of nitric oxide, progesterone, androstenedione and oestradiol was evaluated. The liberation of nitrite increased at 15, 30 and 60 min in the left system and decreased in the right system at 120 min. Progesterone showed a decrease in its release at 15, 30 and 120 min and androstenedione at 15 min in the left ovary compartment. In the right ovary, only progesterone decreased in relation to the control at 120 min while androstenedione did not show significant changes. Oestradiol showed an increase in the left ovary compartment at all the studied times, while in the right ovary it did not show any changes. These results indicate that the neural stimulus from the superior mesenteric ganglion through the ovarian nervous plexus is one of the factors modulating the secretory activity of the ovarian steroids and nitric oxide. The system is viable and also shows a different sensitivity of the left ovary in relation to the right one at least in this cycle stage, characterized by marked irrigation and profound structural changes in the ovary.

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“…Recombinant AC Is Inhibited by Zn 2ϩ -N18TG2 cells appear to express AC6 as their predominant activity (18). To determine whether AC itself is the target of Zn 2ϩ inhibition, we examined recombinant AC6.…”

Section: Kinetic Analyses Of the Effects Of Znmentioning

confidence: 99%

Zinc Inhibition of cAMP Signaling

Klein

Sunahara

Hudson

et al. 2002

Journal of Biological Chemistry

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Zn2؉ is required as either a catalytic or structural component for a large number of enzymes and thus contributes to a variety of important biological processes. We report here that low micromolar concentrations of Zn 2؉ inhibited hormone-or forskolin-stimulated cAMP production in N18TG2 neuroblastoma cells. Similarly, low concentrations inhibited hormone-and forskolin-stimulated adenylyl cyclase (AC) activity in membrane preparations and did so primarily by altering the V max of the enzyme.

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Adenylyl Cyclase, a Coincidence Detector for Nitric Oxide

Cited by 83 publications

References 26 publications

Inducible nitric oxide synthase modulates lipolysis in adipocytes

Inducible nitric oxide synthase modulates lipolysis in adipocytes

The cholinergic influence on the mesenteric ganglion affects the liberation of ovarian steroids and nitric oxide in oestrus day rats: characterization of an ex vivo system

Zinc Inhibition of cAMP Signaling

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