MOLECULAR MODEL OF SOLUBLE GUANYLYL CYCLASE: INSIGHT INTO ALLOSTERY IN NITRIC OXIDE SIGNALING

Fritz, Bradley

January 2011

Soluble guanylyl cyclase (sGC), the nitric oxide (NO) receptor, is a 150 kDa heterodimeric multi-domain protein that contains heme in the β subunit. Binding of NO to heme leads to rupture of the proximal histidine bond, increased catalytic conversion of GTP to cGMP at a distant guanylyl cyclase catalytic domain, and vasodilation through cGMP signaling. The structure of sGC has not been determined, and little is known about the mechanism by which NO binding to heme leads to increased catalysis. The small molecule YC-1 is known to stimulate sGC activity, but the exact YC-1 binding site and mechanism of action are unknown. Using truncated constructs of Manduca sexta (Ms) sGC lacking the catalytic domain, conformational changes upon YC-1 and NO-binding were characterized using analytical ultracentrifugation and small-angle X-ray scattering. Chemical cross-linking and high-resolution mass spectrometry was used to obtain distance restraints which, when combined with homology models, have provided the first model of sGC domain arrangement and revealed important information about domain-domain interactions. Truncated Ms sGC is highly elongated, contains a coiled-coil in a parallel arrangement, and contains a direct interface between the β H-NOX (Heme Nitric oxide/Oxygen binding domain) and the coiled-coil, and between the β H-NOX and α PAS (Per-arnt-sim) domains. Experiments using analytical ultracentrifugation, fluorescence anisotropy and native mass spectrometry have revealed the YC-1 binding site to be located within the α PAS domain. Additionally, measurement of the kinetics of heme loss and the heme reduction potential were performed to investigate the instability of oxidized sGC heme.

soluble guanylyl cyclase

Chemistry

Identification of tandem organization of soluble guanylyl cyclase α_1 and β_1 subunit genes in the Japanese pufferfish (Fugu rubripes) genome: comparison with their human homologues

Yamamoto, Takehiro, Moriya, Yuki, Suzuki, Norio, Morinaga, Chikako

January 2007

No description available.

Fugu rubripes

pufferfish

soluble guanylyl cyclase

Human Genome Database

The Mechanism of Allosteric Regulation in Soluble Guanylate Cyclase

Purohit, Rahul

January 2014

Nitric oxide (NO), a reactive diatomic gas and a potent signaling molecule, is required for proper cardiovascular functioning. Soluble guanylate cyclase (sGC), a heterodimeric heme protein, is the key intracellular NO receptor protein which, upon NO binding, undergoes conformational changes leading to catalysis and the cGMP signaling cascade. Several small molecules that allosterically stimulate sGC have been developed for treatment of pulmonary hypertension, but little is known about their binding site or how they stimulate activity. This dissertation describes experiments designed to uncover the molecular basis for signal transduction in sGC by NO and small molecule stimulators. The crystal structure of the α-subunit PAS domain from Manduca sexta (Ms) sGC was solved at 1.8 Å resolution revealing the expected PAS fold but with an additional β strand and a shorter Fα helix. CO binding measurements on different Ms sGC N-terminal constructs and the β₁ (1-380) construct revealed that the α-subunit keeps the β₁ H-NOX domain in an inhibited conformation and this inhibition is relieved by removal of the α-subunit or by addition of stimulatory compounds such as compound YC-1. Linked-equilibria measurements on the N-terminal constructs show that YC-1 binding affinity is increased in the presence of CO. Surface plasmon resonance (SPR) studies on the in-vitro biotinylated constructs showed that YC-1 binds near or directly to the β₁ H-NOX domain. Computational and mutational analysis of the β₁ H-NOX domain revealed a pocket important in allostery and drug action. Finally, we show that the coiled coil domain plays an important role in allosteric regulation of the β₁ H-NOX domain and possibly in signal transduction. Our data are consistent with a model of allosteric activation in which the α-subunit and the coiled coil domains function to keep heme in a low affinity conformation while YC-1 binding to the β₁ H-NOX domain switches heme to a high affinity conformation, and sGC to its high activity form.

Soluble Guanylyl Cyclase

YC-1

BAY

Chemistry

Soluble Guanylate Cyclase

Neuronal Growth Cone Dynamics are Regulated by a Nitric Oxide-Initiated Second Messenger Pathway.

Welshhans, Kristy

01 October 2007

During development, neurons must find their way to and make connections with their appropriate targets. Growth cones are dynamic, motile structures that are integral to the establishment of appropriate connectivity during this wiring process. As growth cones migrate through their environment, they encounter guidance cues that direct their migration to their appropriate synaptic targets. The gaseous messenger nitric oxide (NO), which diffuses across the plasma membrane to act on intracellular targets, is a signaling molecule that affects growth cone motility. However, most studies have examined the effects of NO on growth cone morphology when applied in large concentrations and to entire cells. In addition, the intracellular second messenger cascade activated by NO to bring about these changes in growth cone morphology is not well understood. Therefore, this dissertation addresses the effects that a spatially- and temporally-restricted application of physiological amounts of NO can have on individual growth cone morphology, on the second messenger pathway that is activated by this application of NO, and on the calcium cascades that result and ultimately affect growth cone morphology. Helisoma trivolvis, a pond snail, is an excellent model system for this type of research because it has a well-defined nervous system and cultured neurons form large growth cones. In the present study, local application of NO to Helisoma trivolvis B5 neurons results in an increase in filopodial length, a decrease in filopodial number, and an increase in the intracellular calcium concentration ([Ca2+]i). In B5 neurons, the effects of NO on growth cone behavior and [Ca2+]i are mediated via sGC, protein kinase G, cyclic adenosine diphosphate ribose, and ryanodine receptor-mediated intracellular calcium release. This study demonstrates that neuronal growth cone pathfinding in vitro is affected by a single spatially- and temporally-restricted exposure to NO. Furthermore, NO acts via a second messenger cascade, resulting in a calcium increase that leads to cytoskeletal changes. These results suggest that NO may be a signal that promotes appropriate pathfinding and/or target recognition within the developing nervous system. Taken together, these data indicate that NO may be an important messenger during the development of the nervous system in vivo.

filopodia

protein kinase G

soluble guanylyl cyclase

growth cone

calcium

ryanodine receptor

cyclic adenosine diphosphate ribose

nitric oxide

helisoma trivolvis

Biology, general

Le syndrome métabolique chez les congéniques du rat Dahl : influence de la diète et rôle du récepteur de l'ANP

Fillion-Forté, Valérie

03 1900

L’hypertension artérielle et l’obésité sont deux composantes conjointement reliées du syndrome métabolique. Les récepteurs de l’ANP (GCA) et de l’oxyde nitrique (GCs) ont des propriétés diurétiques, natriurétiques, vasodilatatrices et sont liés au contrôle de la pression. Des études récentes ont démontré leur implication dans l’obésité. Hypothèse : Une différence génétique au niveau du gène GCA pourrait contribuer à des différences physiologiques. La composante lipidique et/ou sodique de la diète pourrait influencer la fonction rénale, cardiaque et les valeurs anthropométriques différemment chez les souches congéniques. Objectifs : (1) Déterminer l’effet de la composante lipidique et sodique des diètes; (2) Évaluer l’influence de GCA sur la réponse physiologique des souches congéniques; (3) Expliquer les mécanismes physiologiques procurant une réduction de la pression artérielle chez la souche SM9. Méthodologie : Des modèles congéniques du rat Dahl (DSS) hypertendu, nourri avec une diète riche en gras (HF) ou normale (NF), ont été utilisés pour démontrer l’impact d’un segment chromosomique d’origine normotendue. Résultats : La souche SM9 a une prise de poids plus importante que SM12 et DSS sur diète HF malgré un apport alimentaire équivalent. La souche SM9 présente également un ratio masse adipeuse/masse maigre plus élevé que SM12 et DSS. Nous n’avons observé aucune augmentation de la pression artérielle en réponse à la diète HF pour les 3 souches malgré une augmentation du dommage rénal pour les 3 souches. Le dommage rénal est plus important chez DSS que pour les 2 congéniques. La réponse diurétique à l’ANP est plus élevée chez SM9 et est influencée par le contenu en sel dand la diète. La perte glomérulaire plus importante chez le rat DSS semble compensée par une augmentation de la réponse à l’ANP par les glomérules résiduels. Il y a une corrélation entre l’activité de GCA en réponse à l’ANP, les niveaux d’ARNm et le nombre de répétition du dinucléotide TA dans son promoteur. Le rat DSS présente une hypertrophie cardiaque plus importante que les deux souches congénique et ceci n’est pas modifié par la diète HF. Conclusion : Nos études ont permis de mettre en évidence un effet génétique impliquant le segment chromosomique normotendu contenant GCA dans la réponse à une diète HF chez le rat DSS. / Hypertension and obesity are two related components of the metabolic syndrome. The ANP receptor (GCA) and nitric oxide receptor (sGC) have diuretic, natriuretic, vasodilatory properties, and are linked to blood pressure control. Furthermore a recent study has demonstrated the implication of GCA and sGC in the development of obesity. Hypothesis: A genetic difference in GCA gene could contribute to physiological differences. The differencial lipid and/or sodium composition of the diet could influence the renal, cardiac and anthropometric values. Objectives: (1) To determine the effect of fat and sodium on the physiological parameters; (2) To evaluate the influence of GCA on the physiological response of the congenic rat; (3) To explain the mechanisms of the blood pressure reduction in SM9 rats. Methodology: Congenic model of DSS rat, fed with either high fat (HF) or normal (NF) diet, were used to demonstrate the impact of a chromosome segment from normotensive origin on physiological functions. C2SM9 contains GCA and sGC from normotensive origin while C2SM12 harbours only sGC from normotensive origin. Results: HF diet had negative feature on body composition, renal damage, creatinine clearance and inhibited the diuretic/natriuretic effect of ANP. The normotensive segment including GCA and sGC has reduced the blood pressure, improve the renal damage and increased the diuretic/natriuretic capacity of SM9 in response to ANP injection when compared to SM12 and DSS. GCA mRNA and the clearance receptor ratio were reduced in SM9 in the renal cortex and retroperitoneal fat. SM12 and SM9, containing the chromosomal segment that includes sGC, improve their lipid profile compared with DSS. Conclusion: Our results suggested a compensatory increase in the GCA levels for SM12 and DSS that is insufficient to improve their pathophysiologic status as observed in SM9. HF diet increases the metabolic syndrome in those rats.

Hypertension artérielle

Obésité

Guanylyl cyclase soluble

Oxyde nitrique

Sensibilité au sel

Syndrome métabolique

Nitric oxide

Obesity

Hypertension

Natriuretic peptide receptor

Salt sensitivity

Metabolic syndrome

soluble guanylyl cyclase

Le syndrome métabolique chez les congéniques du rat Dahl : influence de la diète et rôle du récepteur de l'ANP

Fillion-Forté, Valérie

03 1900

L’hypertension artérielle et l’obésité sont deux composantes conjointement reliées du syndrome métabolique. Les récepteurs de l’ANP (GCA) et de l’oxyde nitrique (GCs) ont des propriétés diurétiques, natriurétiques, vasodilatatrices et sont liés au contrôle de la pression. Des études récentes ont démontré leur implication dans l’obésité. Hypothèse : Une différence génétique au niveau du gène GCA pourrait contribuer à des différences physiologiques. La composante lipidique et/ou sodique de la diète pourrait influencer la fonction rénale, cardiaque et les valeurs anthropométriques différemment chez les souches congéniques. Objectifs : (1) Déterminer l’effet de la composante lipidique et sodique des diètes; (2) Évaluer l’influence de GCA sur la réponse physiologique des souches congéniques; (3) Expliquer les mécanismes physiologiques procurant une réduction de la pression artérielle chez la souche SM9. Méthodologie : Des modèles congéniques du rat Dahl (DSS) hypertendu, nourri avec une diète riche en gras (HF) ou normale (NF), ont été utilisés pour démontrer l’impact d’un segment chromosomique d’origine normotendue. Résultats : La souche SM9 a une prise de poids plus importante que SM12 et DSS sur diète HF malgré un apport alimentaire équivalent. La souche SM9 présente également un ratio masse adipeuse/masse maigre plus élevé que SM12 et DSS. Nous n’avons observé aucune augmentation de la pression artérielle en réponse à la diète HF pour les 3 souches malgré une augmentation du dommage rénal pour les 3 souches. Le dommage rénal est plus important chez DSS que pour les 2 congéniques. La réponse diurétique à l’ANP est plus élevée chez SM9 et est influencée par le contenu en sel dand la diète. La perte glomérulaire plus importante chez le rat DSS semble compensée par une augmentation de la réponse à l’ANP par les glomérules résiduels. Il y a une corrélation entre l’activité de GCA en réponse à l’ANP, les niveaux d’ARNm et le nombre de répétition du dinucléotide TA dans son promoteur. Le rat DSS présente une hypertrophie cardiaque plus importante que les deux souches congénique et ceci n’est pas modifié par la diète HF. Conclusion : Nos études ont permis de mettre en évidence un effet génétique impliquant le segment chromosomique normotendu contenant GCA dans la réponse à une diète HF chez le rat DSS. / Hypertension and obesity are two related components of the metabolic syndrome. The ANP receptor (GCA) and nitric oxide receptor (sGC) have diuretic, natriuretic, vasodilatory properties, and are linked to blood pressure control. Furthermore a recent study has demonstrated the implication of GCA and sGC in the development of obesity. Hypothesis: A genetic difference in GCA gene could contribute to physiological differences. The differencial lipid and/or sodium composition of the diet could influence the renal, cardiac and anthropometric values. Objectives: (1) To determine the effect of fat and sodium on the physiological parameters; (2) To evaluate the influence of GCA on the physiological response of the congenic rat; (3) To explain the mechanisms of the blood pressure reduction in SM9 rats. Methodology: Congenic model of DSS rat, fed with either high fat (HF) or normal (NF) diet, were used to demonstrate the impact of a chromosome segment from normotensive origin on physiological functions. C2SM9 contains GCA and sGC from normotensive origin while C2SM12 harbours only sGC from normotensive origin. Results: HF diet had negative feature on body composition, renal damage, creatinine clearance and inhibited the diuretic/natriuretic effect of ANP. The normotensive segment including GCA and sGC has reduced the blood pressure, improve the renal damage and increased the diuretic/natriuretic capacity of SM9 in response to ANP injection when compared to SM12 and DSS. GCA mRNA and the clearance receptor ratio were reduced in SM9 in the renal cortex and retroperitoneal fat. SM12 and SM9, containing the chromosomal segment that includes sGC, improve their lipid profile compared with DSS. Conclusion: Our results suggested a compensatory increase in the GCA levels for SM12 and DSS that is insufficient to improve their pathophysiologic status as observed in SM9. HF diet increases the metabolic syndrome in those rats.

Hypertension artérielle

Obésité

Guanylyl cyclase soluble

Oxyde nitrique

Sensibilité au sel

Syndrome métabolique

Nitric oxide

Obesity

Hypertension

Natriuretic peptide receptor

Salt sensitivity

Metabolic syndrome

soluble guanylyl cyclase