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Target Concepts:
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Query: EC:2.7.11.12 (
PKG
)
2,515
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chloride channels at the apical membrane of intestinal epithelial cells are involved in the excessive fluid secretion in diarrhea and diminished secretion in
cystic fibrosis
(CF). Diarrhea induced by heat-stable toxin from Escherichia coli is associated with elevated guanosine 3',5'-cyclic monophosphate (cGMP) in intestinal epithelial cells, but it is unknown whether chloride secretion is regulated by cGMP directly or via
cGMP-dependent protein kinase
(
PKG
). Single-channel recordings (inside-out excised patches) from the apical membrane of T84 cells reveal a 10-pS chloride channel with a linear current-voltage relationship, which is opened when an endogenous membrane-bound
PKG
is activated with ATP (1 mM) and cGMP (100 microM). Soluble
PKG
(200 nM) isolated from bovine lung, added to the intracellular face of patches, also opens this channel. No activation occurs with Ringer solution alone or only ATP or cGMP. Addition of nonhydrolyzable forms of ATP (AMP-PNP, 1 mM) or a combination of ATP, cGMP, plus H-8 (5 microM), an inhibitor of
PKG
, also does not stimulate the channel. The catalytic subunit of adenosine 3',5'-cyclic mono-phosphate-dependent protein kinase (PKA, 200 nM, with 1 mM ATP) activates a channel with similar characteristics. The 10 pS channel has a PNa/PCl ratio of 0.06, an anion selectivity of Br- (1.2) greater than Cl- (1.0) greater than I- (0.8) greater than F- (0.4), and a low affinity for the chloride channel blockers, 4,4-dinitrostilbene-2,2-disulfonic acid and 5-nitro-2-(3-phenylpropylamino)benzoic acid.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:cGMP-dependent protein kinase regulation of a chloride channel in T84 cells. 131 6
Intestinal chloride (Cl-) secretion can be induced by the heat-stable enterotoxin (STa) from Escherichia coli via generation of cGMP. We investigated the regulatory pathway responsible for cGMP-mediated Cl- secretion in the human colonic carcinoma cell line Caco-2 using whole-cell voltage clamp techniques. Cyclic GMP or cAMP induced a 5-fold increase in Cl- conductance (gCl) in the presence of intracellular ATP and 3-isobutyl-1-methylxanthine. Current activation by cGMP persisted in the presence of the type I
cGMP-dependent protein kinase
(
PKG
) inhibitor, KT5823, but was inhibited by the specific peptide inhibitor of the cAMP-dependent protein kinase A (PKA), PKI5-24. The stimulatory effects of cGMP and cAMP on gCl were not additive. The cystic fibrosis transmembrane conductance regulator (CFTR) is a Cl- channel that is regulated by intracellular ATP and by cAMP-dependent phosphorylation. In order to determine whether CFTR was involved in the cGMP-dependent increase in gCl, we tested the effect of intracellularly injected anti-CFTR505-511 antibodies previously shown to inhibit CFTR function. Antibodies introduced into individual cells via the patch pipette completely inhibited cGMP-dependent current activation. Cyclic GMP also failed to activate gCl in
cystic fibrosis
cells. Taken together, these studies demonstrate that activation of the CFTR via PKA-dependent phosphorylation accounts for the cGMP-mediated increase in Cl- secretion in Caco-2 cells.
...
PMID:Activation of the cystic fibrosis transmembrane conductance regulator by cGMP in the human colonic cancer cell line, Caco-2. 750 58
For the type I cGMP-dependent protein kinases (cGKIalpha and cGKIbeta), a high affinity interaction exists between the C2 amino group of cGMP and the hydroxyl side chain of a threonine conserved in most cGMP binding sites. To examine the effect of this interaction on ligand binding and kinase activation in the type II isozyme of
cGMP-dependent protein kinase
(cGKII), alanine was substituted for the conserved threonine or serine. cGKII was found to require the C2 amino group of cGMP and its cognate serine or threonine hydroxyl for efficient cGMP activation. Of the two binding sites, disruption of cGMP-specific binding in the NH(2)-terminal binding site had the greatest effect on cGMP-dependent kinase activation, like cGKI. However, ligand dissociation studies showed that the location of the rapid and slow dissociation sites of cGKII was reversed relative to cGKI. Another set of mutations that prevented cyclic nucleotide binding demonstrated the necessity of the NH(2)-terminal, rapid dissociation binding site for cyclic nucleotide-dependent activation of cGKII. These findings suggest distinct mechanisms of activation for cGKII and cGKI isoforms. Because cGKII mediates the effects of heat-stable enterotoxins via the
cystic fibrosis
transmembrane regulator Cl(-) channel, these findings define a structural target for drug design.
...
PMID:The amino-terminal cyclic nucleotide binding site of the type II cGMP-dependent protein kinase is essential for full cyclic nucleotide-dependent activation. 1086 32
The striking similarities between microvillus inclusions (MIs) in enterocytes in microvillus inclusion disease (MID) and vacuolar apical compartment in tissue culture epithelial cells, led us to analyze endoscopic biopsies of duodenal mucosa of a patient after the samples were used for diagnostic procedures. Samples from another patient with an unrelated disease were used as controls. The MID enterocytes showed a decrease in the thickness of the apical F-actin layer, and normal microtubules. The immunofluorescence analysis of the distribution of five apical membrane markers (sucrase isomaltase, alkaline phosphatase, NHE-3 Na+/H+ exchanger,
cGMP-dependent protein kinase
, and
cystic fibrosis
trans-membrane conductance regulator), showed low levels of these proteins in their standard localization at the apical membrane as compared with normal duodenal epithelium processed in parallel. Instead, four of these markers were found in a diffuse distribution in the apical cytoplasm, below the terminal web (as indicated by co-localization with F-actin and cytokeratin 19), and in MIs as well. The basolateral protein Na(+)-K+ATPase, in contrast, was normally localized. These results support the hypothesis that MID may represent the first genetic defect affecting apical membrane traffic, possibly in a late step of apical exocytosis.
...
PMID:Microvillus inclusion disease: a genetic defect affecting apical membrane protein traffic in intestinal epithelium. 1120 62
