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Query: EC:2.7.11.13 (
protein kinase C
)
49,245
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recently, it was observed that the acetylcholine analogue carbachol induces a transient stimulation of an apical Cl(-) conductance in basolaterally depolarized rat distal colonic epithelium (Schultheiss et al., 2003). The further characterization of this conductance was the aim of the present study. All experiments were performed at basolaterally depolarized tissues (111.5 mmol.l(-1) KCl buffer at the serosal side); in the absence of a K(+) gradient, a Cl(-) current was driven across the apical membrane (107 mmol.l(-1) K gluconate/4.5 mmol.l(-1) KCl buffer on the mucosal side). Under these conditions, carbachol evoked an atropine-sensitive biphasic change in short-circuit current (I(SC)), consisting of a transient increase followed by a long-lasting decrease, suggesting a stimulation of apical Cl(-) conductance followed by an inhibition. This conductance was inhibited by SITS, but was resistant against glibenclamide, a blocker of
CFTR
. The carbachol-induced I(SC) was dependent on the presence of mucosal Ca(2+). Ionomycin, a Ca(2+) ionophore, mimicked the effect of carbachol. An antibody against bovine Ca(2+)-activated Cl(-) channel ClCa 1 stained rat colonic epithelial cells both at the cell membrane as well as intracellularly, suggesting that the action of Ca(2+) may be caused by a stimulation of a ClC a-type anion channel. The activation of apical Cl(-) conductance by carbachol was resistant against any blockers of the phospholipase C/IP3/
protein kinase C
pathway tested (e.g., U-73122, 2-ABP, Li(+), staurosporine), but was inhibited by the NO-synthase blocker L: -NNA. Vice versa, NO-donating compounds such as GEA 3162 or sodium nitroprusside evoked a transient increase of I(SC). Consequently, NO seems to be involved in the transient stimulation of apical Ca(2+)-dependent Cl(-) conductance after muscarinic receptor stimulation.
...
PMID:Muscarinic receptor stimulation activates a Ca(2+)-dependent Cl(-) conductance in rat distal colon. 1624 34
P2Y receptor regulation of anion secretion was investigated in porcine endometrial gland (PEG) epithelial cells. P2Y2, P2Y4, and P2Y6 receptors were detected in monolayers of PEG cells and immunocytochemistry indicated that P2Y4 receptors were located in the apical membrane. Apical membrane current measurements showed that Ca2+-dependent and
PKC
-dependent Cl- channels were activated following treatment with uridine triphosphate (UTP) (5 microM). Current-voltage relationships comparing calcium-dependent and
PKC
-dependent UTP responses under biionic conditions showed significant differences in selectivity between Cl-)and I- for the
PKC
-dependent conductance (P(I)/P(Cl) = 0.76), but not for Ca2+-dependent conductance (PI/P(Cl) = 1.02). The I-/Cl- permeability ratio for the
PKC
-dependent conductance was identical to that measured for 8-cpt cAMP. Furthermore,
PKC
stimulation using phorbol 12-myristate 13-acetate (PMA) activated an apical membrane Cl- conductance that was blocked by the
CFTR
selective inhibitor, CFTRinh-172.
CFTR
silencing, accomplished by stable expression of small hairpin RNAs (shRNA), blocked the
PKC
-activated conductance associated with UTP stimulation and provided definitive evidence of a role for
CFTR
in anion secretion.
CFTR
activation increased the initial magnitude of Cl- secretion, and provided a more sustained secretory response compared to conditions where only Ca2+-activated Cl- channels were activated by UTP. Measurements of [cAMP]i following UTP and PMA stimulation were not significantly different than untreated controls. Thus, these results demonstrate that UTP and PMA activation of
CFTR
occurs independently of increases in intracellular cAMP and extend the findings of earlier studies of
CFTR
regulation by
PKC
in Xenopus oocytes to a mammalian anion secreting epithelium.
...
PMID:Stable knockdown of CFTR establishes a role for the channel in P2Y receptor-stimulated anion secretion. 1624 6
We investigated the effects of chronically applied
PKC
-stimulating phorbol esters on subcellular
CFTR
expression and localization in polarized HT-29 Cl.19A monolayers. Modulation of
PKC
activity with the PKC-beta-specific agonist 12-deoxyphorbol 13-phenylacetate 20-acetate (DOPPA) or nonisoform-selective PMA altered monolayer
CFTR
immunofluorescence. A decrease in the
CFTR
signal within the luminal cellular pole was noted with both phorbol esters. Volumetric analysis of the intracellular
CFTR
signal revealed that both compounds promoted
CFTR
accumulation into punctate vesicle-like structures found adjacent to the cellular tight junction [labeled with zona occludens (ZO)-1 antibody], extending basally (DOPPA) into the cell. Puncta were more frequent with DOPPA and larger in size with PMA. DOPPA also promoted ZO-1 accumulation at tricellular corners associated with enhanced
CFTR
puncta number. The observed loss of
CFTR
immunofluorescence signal induced by low-dose PMA was related to
CFTR
sequestration into fewer cytoplasmic puncta and correlated with larger increases in
PKC
substrate phosphorylation. Both phorbol esters downregulated steady-state cellular
CFTR
mRNA levels by 70%. However, the effects of DOPPA and PMA were largely independent of
CFTR
biosynthesis: expression levels were 80-85% of control, and the glycosylation status of immunoprecipitated protein remained largely unchanged. Thus changes in cellular
CFTR
localization correlated with our companion study showing that PMA-induced inhibition of transcellular cAMP-dependent short-circuit current (ISC) was accompanied by cytoplasmic
PKC
-beta2 accumulation and modest activation of
PKC
-beta1 and
PKC
-epsilon. The inhibitory effect of DOPPA on ISC was related solely to increased cytoplasmic
PKC
-beta2 levels. Thus
PKC
-beta2 is hypothesized to participate in the regulation of
CFTR
apical plasma membrane targeting within the constitutive cellular biosynthetic pathway.
...
PMID:Chronic PKC-beta2 activation in HT-29 Cl.19a colonocytes prevents cAMP-mediated ion secretion by inhibiting apical membrane CFTR targeting. 1657 92
Regulation of the
CFTR
Cl channel function involves a protein complex of activated
protein kinase Cepsilon
(
PKCepsilon
) bound to RACK1, a receptor for activated C kinase, and RACK1 bound to the human Na(+)/H(+) exchanger regulatory factor (NHERF1) in human airway epithelial cells. Binding of NHERF1 to RACK1 is mediated via a NHERF1-PDZ1 domain. The goal of this study was to identify the binding motif for human NHERF1 on RACK1. We examined the site of binding of NHERF1 on RACK1 using peptides encoding the seven WD40 repeat units of human RACK1. One WD repeat peptide, WD5, directly binds NHERF1 and the PDZ1 domain with similar EC(50) values, blocks binding of recombinant RACK1 and NHERF1, and pulls down endogenous RACK1 from Calu-3 cell lysate in a dose-dependent manner. The remaining WD repeat peptides did not block RACK1-NHERF1 binding. An 11-amino acid peptide encoding a site on the PDZ1 domain blocks binding of the WD5 repeat peptide with the PDZ1 domain. An N-terminal 12-amino acid segment of the WD5 repeat peptide, which comprises the first of four antiparallel beta-strands, dose-dependently binds to the PDZ1 domain of NHERF1 and blocks binding of the PDZ1 domain to RACK1. These results suggest that the binding site might form a beta-turn with topology sufficient for binding of NHERF1. Our results also demonstrate binding of NHERF to RACK1 at the WD5 repeat, which is distinct from the
PKCepsilon
binding site on the WD6 repeat of RACK1.
...
PMID:The N-terminus of the WD5 repeat of human RACK1 binds to airway epithelial NHERF1. 1692 2
SLC26 anion exchangers (probably SLC26A3 and SLC26A6) are expressed on the apical membrane of pancreatic duct cells and play a key role in HCO3- secretion; a process that is inhibited by the neuropeptide, substance P (SP). SP had no effect on basolateral HCO3- transporters in the duct cell or on
CFTR
Cl- channels, but inhibited a Cl- -dependent HCO3- efflux step on the apical membrane. In microperfused ducts, luminal H2DIDS (0.5mM) caused intracellular pH to alkalinize (consistent with inhibition of HCO3- efflux) and, like SP, inhibited HCO3- secretion. SP did not reduce HCO3- secretion further when H2DIDS was applied to the duct lumen, suggesting that SP and H2DIDS inhibit the same transporter on the apical membrane. As SLC26A6 is DIDS-sensitive, this isoform is the likely target for SP. The inhibitory effect of SP was mimicked by phorbol 12,13-dibutyrate (PDBu), an activator of
protein kinase C
(
PKC
). Moreover, bisindolylmaleimide, a blocker of
PKC
, relieved the inhibitory effect of both SP and PDBu on HCO3- secretion. Western blot analysis revealed that guinea pig pancreatic ducts express the alpha, beta1, delta, epsilon, eta, theta, zeta and mu isoforms o f
PKC
. We conclude that
PKC
is a negative regulator of SLC26 activity in pancreatic duct cells.
...
PMID:SLC26 transporters and the inhibitory control of pancreatic ductal bicarbonate secretion. 1712 Jul 67
This review focuses on using the knowledge on volume-sensitive transport systems in Ehrlich ascites tumour cells and NIH-3T3 cells to elucidate osmotic regulation of salt transport in epithelia. Using the intestine of the European eel (Anguilla anguilla) (an absorptive epithelium of the type described in the renal cortex thick ascending limb (cTAL)) we have focused on the role of swelling-activated K+- and anion-conductive pathways in response to hypotonicity, and on the role of the apical (luminal) Na+-K+-2Cl- cotransporter (NKCC2) in the response to hypertonicity. The shrinkage-induced activation of NKCC2 involves an interaction between the cytoskeleton and protein phosphorylation events via
PKC
and myosin light chain kinase (MLCK). Killifish (Fundulus heteroclitus) opercular epithelium is a Cl(-)-secreting epithelium of the type described in exocrine glands, having a
CFTR
channel on the apical side and the Na+/K+ ATPase, NKCC1 and a K+ channel on the basolateral side. Osmotic control of Cl- secretion across the operculum epithelium includes: (i) hyperosmotic shrinkage activation of NKCC1 via
PKC
, MLCK, p38, OSR1 and SPAK; (ii) deactivation of NKCC by hypotonic cell swelling and a protein phosphatase, and (iii) a protein tyrosine kinase acting on the focal adhesion kinase (FAK) to set levels of NKCC activity.
...
PMID:The role of volume-sensitive ion transport systems in regulation of epithelial transport. 1728 11
The cystic fibrosis transmembrane conductance regulator
CFTR
gene is found on chromosome 7 [Kerem, B., Rommens, J.M., Buchanan, J.A., Markiewicz, D., Cox, T.K., Chakravarti, A., Buchwald, M., Tsui, L.C., 1989. Identification of the cystic fibrosis gene: genetic analysis. Science 245, 1073-1080; Riordan, J.R., Rommens, J.M., Kerem, B., Alon, N., Rozmahel, R., Grzelczak, Z., Zielenski, J., Lok, S., Plavsic, N., Chou, J.L., et al., 1989. Identification of the cystic fibrosis gene: cloning and characterization of complementary DNA. Science 245, 1066-1073] and encodes for a 1480 amino acid protein which is present in the plasma membrane of epithelial cells [Anderson, M.P., Sheppard, D.N., Berger, H.A., Welsh, M.J., 1992. Chloride channels in the apical membrane of normal and cystic fibrosis airway and intestinal epithelia. Am. J. Physiol. 263, L1-L14]. This protein appears to have many functions, but a unifying theme is that it acts as a
protein kinase C
- and cyclic AMP-regulated Cl(-) channel [Winpenny, J.P., McAlroy, H.L., Gray, M.A., Argent, B.E., 1995. Protein kinase C regulates the magnitude and stability of
CFTR
currents in pancreatic duct cells. Am. J. Physiol. 268, C823-C828; Jia, Y., Mathews, C.J., Hanrahan, J.W., 1997. Phosphorylation by
protein kinase C
is required for acute activation of cystic fibrosis transmembrane conductance regulator by protein kinase A. J. Biol. Chem. 272, 4978-4984]. In the superficial epithelium of the conducting airways,
CFTR
is involved in Cl(-) secretion [Boucher, R.C., 2003. Regulation of airway surface liquid volume by human airway epithelia. Pflugers Arch. 445, 495-498] and also acts as a regulator of the epithelial Na(+) channel (ENaC) and hence Na(+) absorption [Boucher, R.C., Stutts, M.J., Knowles, M.R., Cantley, L., Gatzy, J.T., 1986. Na(+) transport in cystic fibrosis respiratory epithelia. Abnormal basal rate and response to adenylate cyclase activation. J. Clin. Invest. 78, 1245-1252; Stutts, M.J., Canessa, C.M., Olsen, J.C., Hamrick, M., Cohn, J.A., Rossier, B.C., Boucher, R.C., 1995.
CFTR
as a cAMP-dependent regulator of sodium channels. Science 269, 847-850]. In this chapter, we will discuss the regulation of these two ion channels, and how they can influence liquid movement across the superficial airway epithelium.
...
PMID:Liquid movement across the surface epithelium of large airways. 1769 78
Activity of the
CFTR
channel is regulated by phosphorylation of its regulatory domain (RD). In a previous study, we developed a bicistronic construct called DeltaR-Split
CFTR
, which encodes the front and back halves of
CFTR
as separate polypeptides without the RD. These fragments assemble to form a constitutively active
CFTR
channel. Coexpression of the third fragment corresponding to the missing RD restores regulation by PKA, and this is associated with dramatically enhanced binding of the phosphorylated RD. In the present study, we examined the effect of
PKC
phosphorylation on this PKA-induced interaction. We report here that
PKC
alone enhanced association of the RD with DeltaR-Split
CFTR
and that binding was further enhanced when the RD was phosphorylated by both kinases. Mutation of all seven
PKC
consensus sequences on the RD (7CA-RD) did not affect its association under basal (unphosphorylated) conditions but abolished phosphorylation-induced binding by both kinases. Iodide efflux responses provided further support for the essential role of RD binding in channel regulation. The basal activity of DeltaR-Split/7CA-RD channels was similar to that of DeltaR-Split/wild type (WT)-RD channels, whereas cAMP-stimulated iodide efflux was greatly diminished by removal of the
PKC
sites, indicating that 7CA-RD binding maintains channels in an inactive state that is unresponsive to PKA. These results suggest a novel mechanism for
CFTR
regulation in which
PKC
modulates PKA-induced domain-domain interactions.
...
PMID:PKC phosphorylation modulates PKA-dependent binding of the R domain to other domains of CFTR. 1879 55
The metabolic sensor AMP-activated protein kinase (AMPK) has emerged as an important link between cellular metabolic status and ion transport activity. We previously found that AMPK binds to and phosphorylates
CFTR
in vitro and inhibits PKA-dependent stimulation of
CFTR
channel gating in Calu-3 bronchial serous gland epithelial cells. To further characterize the mechanism of AMPK-dependent regulation of
CFTR
, whole cell patch-clamp measurements were performed with PKA activation in Calu-3 cells expressing either constitutively active or dominant-negative AMPK mutants (AMPK-CA or AMPK-DN). Baseline
CFTR
conductance in cells expressing AMPK-DN was substantially greater than controls, suggesting that tonic AMPK activity in these cells inhibits
CFTR
under basal conditions. Although baseline
CFTR
conductance in cells expressing AMPK-CA was comparable to that of controls, PKA stimulation of
CFTR
was completely blocked in AMPK-CA-expressing cells, suggesting that AMPK activation renders
CFTR
resistant to PKA activation in vivo. Phosphorylation studies of
CFTR
in human embryonic kidney-293 cells using tetracycline-inducible expression of AMPK-DN demonstrated AMPK-dependent phosphorylation of
CFTR
in vivo. However, AMPK activity modulation had no effect on
CFTR
in vivo phosphorylation in response to graded doses of PKA or
PKC
agonists. Thus, AMPK-dependent
CFTR
phosphorylation renders the channel resistant to activation by PKA and
PKC
without preventing phosphorylation by these kinases. We found that Ser768, a
CFTR
R domain residue considered to be an inhibitory PKA site, is the dominant site of AMPK phosphorylation in vitro. Ser-to-Ala mutation at this site enhanced baseline
CFTR
activity and rendered
CFTR
resistant to inhibition by AMPK, suggesting that AMPK phosphorylation at Ser768 is required for its inhibition of
CFTR
. In summary, our findings indicate that AMPK-dependent phosphorylation of
CFTR
inhibits
CFTR
activation by PKA, thereby tuning the PKA-responsiveness of
CFTR
to metabolic and other stresses in the cell.
...
PMID:AMP-activated protein kinase phosphorylation of the R domain inhibits PKA stimulation of CFTR. 1941 94
Barrier function and transepithelial transport are intimately linked and are sometimes disturbed in parallel. DRA (downregulated in adenoma) is an intestinal chloride/bicarbonate exchanger that is functionally coupled to
CFTR
(cystic fibrosis transmembrane regulator) in the upper gastrointestinal tract to mediate chloride and bicarbonate secretion and to NHE3 (Na/H exchanger- isoform 3) in the lower gastrointestinal tract to mediate electroneutral NaCl absorption. All three transport proteins possess PDZ domain binding motifs that facilitate binding to members of the NHERF (Na/H exchanger regulatory factor) family of adapter proteins [NHERF, E3KARP (NHE3 kinase A regulatory protein), PDZK1 (PDZ protein kidney 1) and IKEPP (intestinal and kidney enriched PDZ protein)]. Regulation of DRA appears to depend on the presence of a partner transport protein, and this may involve the assembly of different complexes of transporters, adapter proteins, and signaling molecules. We have established stable expression of DRA in HEK cells. In these cells, that do not express significant amounts of
CFTR
or NHE3, DRA is inhibited by intracellular calcium but not by
protein kinase C
or protein kinase A. At high calcium concentrations induced by 4Br-A23187 this inhibition is independent of the PDZ interaction of DRA. These data show that DRA can be individually regulated and may be confirmed in a more physiologically relevant expression system (i.e., Caco-2/BBE cells) using natural agonists of the intracellular calcium signal.
...
PMID:Regulation of the intestinal anion exchanger DRA (downregulated in adenoma). 1953 14
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