Localization of the Nitric Oxide/cGMP Signaling Pathway–Related Genes and Influences of Morpholino Knock-Down of Soluble Guanylyl Cyclase on Medaka Fish Embryogenesis

In Dictyostelium chemoattractants induce a fast cGMP response that mediates myosin filament formation in the rear of the cell. The major cGMP signaling pathway consists of a soluble guanylyl cyclase sGC, a cGMP-stimulated cGMP-specific phosphodiesterase and the cGMP-target protein GbpC. Here we combine published experiments with many unpublished experiments performed in the past 45 years on the regulation and function of the cGMP signaling pathway. The chemoattractants stimulate heterotrimeric Gαβγ and monomeric Ras proteins. A fraction of the soluble guanylyl cyclase sGC binds with high affinity to a limited number of membrane binding site, which is essential for sGC to become activated by Ras and Gα proteins. sGC can also bind to F-actin; binding to branched F-actin in pseudopods enhances basal sGC activity, whereas binding to parallel F-actin in the cortex reduces sGC activity. The cGMP pathway mediates cell polarity by inhibiting the rear: in unstimulated cells by sGC activity in the branched F-actin of pseudopods, in a shallow gradient by stimulated cGMP formation in pseudopods at the leading edge, and during cAMP oscillation to erase the previous polarity and establish a new polarity axis that aligns with the direction of the passing cAMP wave.

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Role of the nitric oxide (NO)/cGMP signaling in the relaxations of mouse corpus cavernosum (CC) induced by the soluble guanylyl cyclase stimulator (sGC) BAY 41‐2272.

The FASEB Journal ◽

10.1096/fasebj.20.5.a1126-b ◽

2006 ◽

Vol 20 (5) ◽

Author(s):

Cleber Evandro Teixeira ◽

Fernanda Bruschi Marinho Priviero ◽

R. Clinton Webb

Keyword(s):

Nitric Oxide ◽

Guanylyl Cyclase ◽

Corpus Cavernosum ◽

Soluble Guanylyl Cyclase ◽

Cgmp Signaling ◽

Mouse Corpus Cavernosum

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Facilitation of Corticostriatal Transmission following Pharmacological Inhibition of Striatal Phosphodiesterase 10A: Role of Nitric Oxide-Soluble Guanylyl Cyclase-cGMP Signaling Pathways

Journal of Neuroscience ◽

10.1523/jneurosci.1238-14.2015 ◽

2015 ◽

Vol 35 (14) ◽

pp. 5781-5791 ◽

Cited By ~ 30

Author(s):

F. E. Padovan-Neto ◽

S. Sammut ◽

S. Chakroborty ◽

A. M. Dec ◽

S. Threlfell ◽

...

Keyword(s):

Nitric Oxide ◽

Signaling Pathways ◽

Guanylyl Cyclase ◽

Soluble Guanylyl Cyclase ◽

Pharmacological Inhibition ◽

Cgmp Signaling ◽

Phosphodiesterase 10A

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Gene Expression of Brain Nitric Oxide Synthase and Soluble Guanylyl Cyclase in Hypothalamus and Medulla of Two-Kidney, One Clip Hypertensive Rats

Hypertension ◽

10.1161/01.hyp.26.1.171 ◽

1995 ◽

Vol 26 (1) ◽

pp. 171-176 ◽

Cited By ~ 34

Author(s):

Teresa L. Krukoff ◽

Frank Gehlen ◽

Detlev Ganten ◽

Jürgen Wagner

Keyword(s):

Gene Expression ◽

Nitric Oxide ◽

Nitric Oxide Synthase ◽

Guanylyl Cyclase ◽

Soluble Guanylyl Cyclase ◽

Hypertensive Rats ◽

Oxide Synthase ◽

Brain Nitric Oxide

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Cyclic Guanosine Monophosphate Modulates Locomotor Acceleration Induced by Nitric Oxide but not Serotonin in Clione limacina Central Pattern Generator Swim Interneurons

Integrative Organismal Biology ◽

10.1093/iob/obaa045 ◽

2020 ◽

Author(s):

Thomas J Pirtle ◽

Richard A Satterlie

Keyword(s):

Nitric Oxide ◽

Central Pattern Generator ◽

Guanylyl Cyclase ◽

Signal Transduction Pathway ◽

Soluble Guanylyl Cyclase ◽

Cyclic Guanosine Monophosphate ◽

Pattern Generator ◽

Guanosine Monophosphate ◽

Cellular Changes ◽

Clione Limacina

Abstract Typically, the marine mollusk, Clione limacina, exhibits a slow, hovering locomotor gait to maintain its position in the water column. However, the animal exhibits behaviorally relevant locomotor swim acceleration during escape response and feeding behavior. Both nitric oxide and serotonin mediate this behavioral swim acceleration. In this study, we examine the role that the second messenger, cGMP, plays in mediating nitric oxide and serotonin-induced swim acceleration. We observed that the application of an analog of cGMP or an activator of soluble guanylyl cyclase increased fictive locomotor speed recorded from Pd-7 interneurons of the animal’s locomotor central pattern generator. Moreover, inhibition of soluble guanylyl cyclase decreased fictive locomotor speed. These results suggest that basal levels of cGMP are important for slow swimming and that increased production of cGMP mediates swim acceleration in Clione. Because nitric oxide has its effect through cGMP signaling and because we show herein that cGMP produces cellular changes in Clione swim interneurons that are consistent with cellular changes produced by serotonin application, we hypothesize that both nitric oxide and serotonin function via a common signal transduction pathway that involves cGMP. Our results show that cGMP mediates nitric oxide-induced but not serotonin-induced swim acceleration in Clione.

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