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Query: EC:4.6.1.2 (
guanylate cyclase
)
8,497
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Using a selective cloning approach we previously isolated a number of cDNAs of transcripts that are newly expressed during terminal differentiation of the chicken optic tectum. Here, we have characterized one of these cDNAs (OZ1) by Northern analysis and in situ hybridization. The OZ1 cDNA hybridizes to two transcripts of 1.6 kb and 2.9 kb which are widely expressed in the brain but not detectable in liver, heart or skeletal muscle. Cloning of overlapping cDNAs revealed that both transcripts encode the same open reading frame for a polypeptide of 191 amino acids. The deduced protein contains 4 EF-hand consensus motifs characteristic of calmodulin-like Ca(2+)-binding proteins. It displays 40% and 46% sequence identity with the retinal photoreceptor-specific Ca(2+)-binding proteins visinin and recoverin, respectively, and was termed
VILIP
(visinin-like protein).
VILIP
transcripts are also expressed in the retina. However, the expression pattern does not overlap with that of visinin or recoverin. The possible functional implications of the similarity to recoverin, which regulates
guanylate cyclase
activity of retinal rod cells in a Ca(2+)-dependent manner, are discussed.
...
PMID:VILIP, a cognate protein of the retinal calcium binding proteins visinin and recoverin, is expressed in the developing chicken brain. 135 72
The family of neuronal Ca2+ sensor (NCS) proteins is known to influence a variety of physiological and pathological processes by affecting signalling of different receptors and ion channels. Recently, it has been shown that the NCS protein
VILIP-1
influences the activity of the receptor
guanylyl cyclase
GC-B. In transfected cell lines,
VILIP-1
performs a Ca2+-dependent membrane association, the reversible Ca2+-myristoyl switch of
VILIP-1
, which leads to an increase in natriuretic peptide-stimulated cGMP levels. In this study, we have investigated the effect of
VILIP-1
on cGMP signalling in C6 cells and in primary hippocampal neurons, where
VILIP-1
and GC-B are co-expressed in many but not all neurons and partially co-localize in the soma and in dendrites. Our data indicate that
VILIP-1
modulates GC-B activity by influencing clathrin-dependent receptor recycling. These data support a general physiological role for
VILIP-1
in membrane trafficking in the intact hippocampus, where the NCS protein may affect processes, such as neuronal differentiation and synaptic plasticity e.g. by influencing cGMP-signalling.
...
PMID:Neuronal Ca2+ sensor protein VILIP-1 affects cGMP signalling of guanylyl cyclase B by regulating clathrin-dependent receptor recycling in hippocampal neurons. 1592 62
Size exclusion chromatographic analyses showed that Ca(2+)-free
VILIP-1
contained both monomeric and dimeric forms, while no appreciable dimerization was noted with Ca(2+)-free VILIP-3. Swapping of EF-hands 3 and 4 of
VILIP-1
with those of VILIP-3 caused the inability of the resulting chimeric protein to form dimeric protein. Nonreducing SDS-PAGE analyses revealed that most of the dimeric
VILIP-1
was noncovalently bound together. Reduced glutathione (GSH)/oxidized glutathione (GSSG) treatment notably enhanced the formation of disulfide-linked
VILIP-1
dimer, while Ca(2+) and Mg(2+) enhanced disulfide dimerization of
VILIP-1
marginally in the presence of thiol compounds. Cys-187 at the C-terminus of
VILIP-1
contributed greatly to form S-S-crosslinked dimer as revealed by mutagenesis studies. The ability of GSH/GSSG-treated
VILIP-1
to activate
guanylyl cyclase
B was reduced by substituting Cys-187 with Ala. Together with disulfide dimer of
VILIP-1
detected in rat brain extracts, our data may imply the functional contribution of disulfide dimer to the interaction of
VILIP-1
with its physiological target(s).
...
PMID:Regulatory elements and functional implication for the formation of dimeric visinin-like protein-1. 1906 2
VILIP-1
(visinin-like protein 1) is downregulated in various human squamous cell carcinoma (SCC). In a mouse skin SCC model
VILIP-1
expression is reduced in aggressive tumor cells, accompanied by reduced cAMP levels. Overexpression of
VILIP-1
in aggressive SCC cells led to enhanced cAMP production, in turn causing a reduction in invasive properties. Moreover, in primary neurons and neuronal tumor lines
VILIP-1
enhanced cGMP signaling. Here, we set out to determine whether and how cAMP and cGMP signaling contribute to the
VILIP-1
effect on enhanced SCC model cell migration, and thus most likely invasiveness in vivo. We found stronger increase in cGMP levels in aggressive,
VILIP-1
-negative SCC cells following stimulation of guanylyl cyclases NPR-A and -B with the natriuretic peptides ANP and CNP, respectively. Incubation with ANP or 8Br-cGMP to increase cGMP levels further enhanced the migration capacity of aggressive cells, whereas cell adhesion was unaffected. Increased cGMP was caused by elevated expression levels of NPR-A and -B. However, the expression level of
VILIP-1
did not affect cGMP signaling and
guanylyl cyclase
expression in SCC. In contrast,
VILIP-1
led to reduced migration of aggressive SCC cells depending on cAMP levels as shown by use of adenylyl cyclase (AC) inhibitor 2',3'-dideoxyadenosine. Involvement of cAMP-effectors PKA and EPAC play a role downstream of AC activation.
VILIP-1
-positive and -negative cells did not differ in mRNA expression of ACs, but an effect on enhanced protein expression and membrane localization of ACs was shown to underlie enhancement of cAMP production and, thus, reduction in cell migration by
VILIP-1
.
...
PMID:Involvement of VILIP-1 (visinin-like protein) and opposite roles of cyclic AMP and GMP signaling in in vitro cell migration of murine skin squamous cell carcinoma. 2148 Mar 86
The neuronal calcium sensor proteins Visinin-like Proteins 1 (VILIP-1) and 3 (VILIP-3) are effectors of
guanylyl cyclase
and acetyl choline receptors, and transduce calcium signals in the brain. The "calcium-myristoyl" switch, which involves a post-translationally added myristoyl moiety and calcium binding, is thought to regulate their membrane binding capacity and therefore, play a critical role in their mechanism of action. In the present study, we investigated the effect of membrane composition and solvent conditions on the membrane binding mechanisms of both VILIPs using lipid monolayers at the air/buffer interface. Results based on comparison of the adsorption kinetics of the myristoylated and non-myristoylated proteins confirm the pivotal role of calcium and the exposed myristol moiety for sustaining the membrane-bound state of both VILIPs. However, we also observed binding of both
VILIP
proteins in the absence of calcium and/or myristoyl conjugation. We propose a two-stage membrane binding mechanism for VILIP-1 and VILIP-3 whereby the proteins are initially attracted to the membrane surface by electrostatic interactions and possibly by specific interactions with highly negatively charged lipids head groups. The extrusion of the conjugated myristoyl group, and the subsequent anchoring in the membrane constitutes the second stage of the binding mechanism, and ensures the sustained membrane-bound form of these proteins.
...
PMID:Comparison of VILIP-1 and VILIP-3 binding to phospholipid monolayers. 2469 24
