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Query: EC:2.7.11.1 (
protein kinase
)
81,284
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To explore the relationship between structure and function in the
cystic fibrosis transmembrane conductance regulator
(
CFTR
) Cl- channel, we studied Xenopus
CFTR
. We found that the anion permeability sequence of cAMP-activated Cl- currents in the apical membrane of Xenopus A6 epithelia differed from that of cAMP-activated Cl- currents in human epithelia expressing
CFTR
. To understand the molecular basis for this difference and to learn whether
CFTR
from another species would have properties similar to human
CFTR
, we assembled a full-length Xenopus
CFTR
cDNA from A6 cells. Expression of Xenopus
CFTR
in HeLa cells generated cAMP-activated whole-cell currents and
cAMP-dependent protein kinase
-activated single channels that resembled those of human
CFTR
with the exception that the anion permeability sequence was different (Br- = I- > Cl- in Xenopus
CFTR
and Br- = Cl- > I- in human). In addition, the single-channel conductance of Xenopus
CFTR
was increased. To investigate protein regions that account for these differences, we constructed chimeric proteins by replacing either the first or second membrane-spanning domain of human
CFTR
with the equivalent region of Xenopus
CFTR
(hX1-6 and hX7-12, respectively) and examined their function in HeLa cells. We found that the anion permeability sequence (Br- = I- > Cl-) and single-channel conductance of hX1-6 resembled that of Xenopus
CFTR
expressed in HeLa cells, whereas hX7-12 had properties like those of human
CFTR
. However, the gating of hX1-6 showed a flickery behavior. The altered gating of hX1-6 was attributed to residues in the first extracellular loop of Xenopus
CFTR
because mutation of residues in that region to the corresponding residues of human
CFTR
produced gating behavior similar to that of human
CFTR
. These data suggest that sequence differences in the first membrane-spanning domains are responsible for the differences in the permeation properties of human and Xenopus
CFTR
and that the first extracellular loop influences channel gating.
...
PMID:Function of Xenopus cystic fibrosis transmembrane conductance regulator (CFTR) Cl channels and use of human-Xenopus chimeras to investigate the pore properties of CFTR. 881 Feb 76
HPLC-electrospray mass spectrometry was used to identify the phosphorylated sites on a bacterially expressed
cystic fibrosis transmembrane conductance regulator
(
CFTR
) fragment containing the first nucleotide binding domain (NBD1) and the regulatory domain (R). Tryptic digests of NBD1-R (
CFTR
residues 404-830) were analyzed after
protein kinase A
(
PKA
) treatment for all possible peptides and phosphopeptides (a total of 118 species) containing Ser residues within "high-probability"
PKA
consensus sequences: R-R/K-X-S/T, R-X-X-S/T, and R-X-S/T. Three criteria were used to assign phosphorylated sites: (1) an 80-Da increase in the predicted average molecular weight of the tryptic peptides; (2) co-elution with the PO3- ion induced by stepped energy collision; and (3) the relative elution positions of the phosphorylated and unmodified peptides. Ser residues within the eight dibasic sites in the NBD1 and R domains (positions 422, 660, 700, 712, 737, 768, 795, and 813) were phosphorylated, a pattern similar to that observed for full-length
CFTR
. The serine at position 753, which in
CFTR
is phosphorylated in vivo, was not phosphorylated. The remaining potential
PKA
sites, Ser489, Ser519, Ser557, Ser670, and Thr788, were not phosphorylated. The "low-probability"
PKA
sites (those not containing an Arg residue) were not phosphorylated. The results suggest that isolated domains of
CFTR
developed useful models for investigating the biochemical and structural effects of phosphorylation within
CFTR
. The mass spectrometry approach in this study should prove useful for defining phosphorylation sites of
CFTR
in vitro and in vivo.
...
PMID:Identification of protein kinase A phosphorylation sites on NBD1 and R domains of CFTR using electrospray mass spectrometry with selective phosphate ion monitoring. 888 Sep 10
A dominant negative inhibitor of the
cAMP-dependent protein kinase
has been shown to inhibit the basal expression of the
cystic fibrosis transmembrane conductance regulator
(
CFTR
) gene in the human colon carcinoma cell line, T84. A functional cAMP response element (CRE) was localized at -48 in the
CFTR
promoter, and we have analyzed the interactions of this regulatory region with transcription factors. An adjacent inverted CCAAT element (Y box) at position -60 was also investigated. Mutation of the CRE or the Y box decreases the activity of the promoter in transient transfections of T84 or JEG-3 cells. Electrophoretic mobility shift assays demonstrate that CRE-binding protein (CREB) binds to the
CFTR
CRE with high affinity and independently of the adjacent Y box and that the
CFTR
CRE binds CREB and activating transcription factor-1 in nuclear extracts of T84 and CaLu-3 cells. In transient transfections of JEG-3 cells, activation of the
CFTR
promoter is blocked by a dominant negative CREB mutant. The
CFTR
CRE will also drive cAMP-mediated expression when placed upstream of a heterologous basal promoter. These results demonstrate that
CFTR
is a bona fide CRE-dependent gene, and we suggest that
CFTR
expression levels in vivo may be responsive to hormones or drugs that activate the
cAMP-dependent protein kinase
system.
...
PMID:Characterization of the cAMP response element of the cystic fibrosis transmembrane conductance regulator gene promoter. 894 30
Dysfunction of the
cystic fibrosis transmembrane conductance regulator
(
CFTR
) in humans is frequently associated with progressive liver disease, which appears to result from obstruction of biliary ducts with mucous material.
CFTR
in the liver is expressed in the biliary epithelium. With the use of a mouse model for cystic fibrosis (CF) we have studied the relationship between
CFTR
expression and glycoprotein secretion in primary culture of mouse gallbladder epithelial cells (MGBC) MGBC in culture maintain a well-differentiated phenotype as shown by microscopy. The cells produce
CFTR
mRNA to levels comparable to the intact tissue. With patch-clamp analysis we could frequently observe a linear
protein kinase A
-regulated Cl- channel that shows all the major characteristics of human
CFTR
, although its conductance is lower (5 pS compared with 8 pS). MGBC in culture produce and secrete high molecular weight glycoproteins (HMG) in a time-dependent and temperature-sensitive manner. Secretion of HMG was not stimulated significantly by either adenosine 3',5'-cyclic monophosphate (cAMP), Ca2+, or protein kinase C agonists in this system. High concentrations (3 mM) of extracellular ATP stimulated secretion threefold, but low concentrations (0.3 mM) had no effect. Approximately one-third of the HMG produced and secreted consisted of mucin. Cultured MGBC from
CFTR
-deficient mice produced and secreted mucin to a similar extent as normal cells. We conclude that cultured mouse gallbladder cells are a convenient model to study both
CFTR
function and mucin secretion. In this system, we found no evidence for a direct link between mucin secretion and
CFTR
activity, as has been suggested for other cell types.
...
PMID:CFTR expression and mucin secretion in cultured mouse gallbladder epithelial cells. 899 52
The
cystic fibrosis transmembrane conductance regulator
gene (CFTR) encodes a transmembrane protein (CFTR) which functions in part as a cyclic adenosine monophosphate (cAMP)-regulated chloride channel. CFTR expression is controlled temporally and cell specifically by mechanisms that are poorly understood. Insight into CFTR regulation could be facilitated by the successful introduction of the entire 230 kb human CFTR and adjacent sequences into mammalian cells. To this end, we have introduced two different CFTR-containing yeast artificial chromosomes (YACs) (320 and 620 kb) into Chinese hamster ovary-K1 (CHO) cells. Clonal cell lines containing human CFTR were identified by PCR, and the genetic and functional analyses of one clone containing each YAC are described. Integration of the human CFTR-containing YACs into the CHO genome at a unique site in each cell line was demonstrated by fluorescence in situ hybridization (FISH). Southern blot analysis suggested that on the order of one copy of human CFTR was integrated per CHO cell genome. Fiber-FISH and restriction analysis suggested that CFTR remained grossly intact. Northern analysis showed full-length, human CFTR mRNA. Immunoprecipitation followed by phosphorylation with
protein kinase
demonstrated mature, glycosylated CFTR. Finally, chloride secretion in response to cAMP indicated the functional nature of the human CFTR. This study provides several novel results including: (i) functional human CFTR can be expressed from these YACs; (ii) CHO cells are a permissive environment for expression of human CFTR; (iii) the level of human CFTR expression in CHO cells is unexpectedly high given the lack of endogenous CFTR production; and (iv) the suggestion by Fiber-FISH of CFTR integrity correlates with functional gene expression. These YACs and the cell lines derived from them should be useful tools for the study of CFTR expression.
...
PMID:Functional human CFTR produced by stable Chinese hamster ovary cell lines derived using yeast artificial chromosomes. 900 71
The ATP binding cassette transporter ABC1 is a 220-kDa glycoprotein expressed by macrophages and required for engulfment of cells undergoing programmed cell death. Since members of this family of proteins such as P-glycoprotein and
cystic fibrosis transmembrane conductance regulator
share the ability to transport anions, we have investigated the transport capability of ABC1 expressed in Xenopus oocytes using iodide efflux and voltage-clamp techniques. We report here that ABC1 generates an anion flux sensitive to glibenclamide, sulfobromophthalein, and blockers of anion transporters. The anion flux generated by ABC1 is up-regulated by orthovanadate, cAMP,
protein kinase A
, and okadaic acid. In other ABC transporters, mutating the conserved lysine in the nucleotide binding folds was found to severely reduce or abolish hydrolysis of ATP, which in turn altered the activity of the transporter. In ABC1, replacement of the conserved lysine 1892 in the Walker A motif of the second nucleotide binding fold increased the basal ionic flux, did not alter the pharmacological inhibitory profile, but abolished the response to orthovanadate and cAMP agonists. Therefore, we conclude that ABC1 is a cAMP-dependent and sulfonylurea-sensitive anion transporter.
...
PMID:ABC1, an ATP binding cassette transporter required for phagocytosis of apoptotic cells, generates a regulated anion flux after expression in Xenopus laevis oocytes. 900 6
In order to investigate the involvement of
cGMP-dependent protein kinase
(cGK) type II in cGMP-provoked intestinal Cl- secretion, cGMP-dependent activation and phosphorylation of
cystic fibrosis transmembrane conductance regulator
(
CFTR
) Cl- channels was analyzed after expression of cGK II or cGK Ibeta in intact cells. An intestinal cell line which stably expresses
CFTR
(IEC-CF7) but contains no detectable endogenous cGK II was infected with a recombinant adenoviral vector containing the cGK II coding region (Ad-cGK II) resulting in co-expression of active cGK II. In these cells,
CFTR
was activated by membrane-permeant analogs of cGMP or by the cGMP-elevating hormone atrial natriuretic peptide as measured by 125I- efflux assays and whole-cell patch clamp analysis. In contrast, infection with recombinant adenoviruses expressing cGK Ibeta or luciferase did not convey cGMP sensitivity to
CFTR
in IEC-CF7 cells. Concordant with the activation of
CFTR
by only cGK II, infection with Ad-cGK II but not Ad-cGK Ibeta enabled cGMP analogs to increase
CFTR
phosphorylation in intact cells. These and other data provide evidence that endogenous cGK II is a key mediator of cGMP-provoked activation of
CFTR
in cells where both proteins are co-localized, e. g. intestinal epithelial cells. Furthermore, they demonstrate that neither the soluble cGK Ibeta nor
cAMP-dependent protein kinase
are able to substitute for cGK II in this cGMP-regulated function.
...
PMID:cGMP stimulation of cystic fibrosis transmembrane conductance regulator Cl- channels co-expressed with cGMP-dependent protein kinase type II but not type Ibeta. 902 Jan 33
The objective of this study was to characterize the signaling mechanisms of the mu-opioid receptor in its coupling to the
cystic fibrosis transmembrane conductance regulator
(
CFTR
) when coexpressed in Xenopus oocytes. Because oocytes do not contain endogenous cAMP-regulated ion channels, the cAMP-modulated
CFTR
was coexpressed with receptors as a 'reporter' channel. Agonist treatment of oocytes coexpressing mu-opioid receptors, beta2-adrenergic receptors and
CFTR
produced Cl- currents in a dose-related manner and immunocytochemical analysis confirmed receptor expression. These data suggest that opioid agonists could activate adenylyl cyclase in this system to elevate cAMP levels. Heterotrimeric G protein betagamma-subunits acting on adenylyl cyclase type II would increase cAMP levels. The probable presence of adenylyl cyclase type II and other components of opioid signal transduction such as G(i alpha2), were demonstrated by RT-PCR. However, measurement of cAMP levels in individual oocytes by radioimmunoassay showed that opioid agonist application to oocytes expressing mu-opioid receptors, beta2-adrenergic receptors and
CFTR
did not increase cAMP levels, whereas application of the beta2-adrenergic agonist, isoproterenol, or IBMX alone did increase cAMP levels. Opioid-induced
CFTR
activation was not affected by either application of the broad spectrum kinase inhibitor, H7, nor by application of the specific
PKA
inhibitor, KT5720. Injection of free betagamma-subunits, which could activate the endogenous type II cyclase, was unable to produce measurable currents in oocytes expressing the
CFTR
. These studies indicate that opioid activation of the
CFTR
is not mediated through a cAMP/
PKA
pathway, by either betagamma-subunit activation of an adenylyl cyclase type II or promiscuous coupling to G(s alpha).
...
PMID:mu-opioid receptor regulates CFTR coexpressed in Xenopus oocytes in a cAMP independent manner. 903 Jun 98
The
cystic fibrosis transmembrane conductance regulator
(
CFTR
) is a transmembrane protein that is expressed in several epithelia, including kidney tubules. Mutations in
CFTR
(a
PKA
-chloride channel and/or regulator of other epithelial channels) give rise to the clinical manifestation of cystic fibrosis, and result in the synthesis of mutated proteins responsible for altering ion transport across secretory epithelia. The low abundance of endogenous
CFTR
makes a difficult to purify enough of the native protein to prepare anti-
CFTR
antibodies. We have used differential centrifugation to prepare cortical brush border membrane vesicles from pig kidney, cBBMV, and developed a method for the partial purification of
CFTR
. This is the first step in the isolation of native
CFTR
. The results show that
CFTR
is present in cBBMV. The purified protein will provide a clearer picture of the biophysical and biochemical properties of native
CFTR
.
...
PMID:Partial purification of the pig kidney cystic fibrosis transmembrane regulator protein. 903 46
The gene product affected in cystic fibrosis, the
cystic fibrosis transmembrane conductance regulator
(
CFTR
), is a chlorideselective ion channel that is regulated by
cAMP-dependent protein kinase
-mediated phosphorylation, ATP binding and ATP hydrolysis. Mutations in the
CFTR
gene may result in cystic fibrosis characterized by severe pathology (e.g. recurrent pulmonary infection, male infertility and pancreatic insufficiency) involving organs expressing the
CFTR
. Interestingly, in the kidney, where expression of the
CFTR
has been reported, impaired ion transport in patients suffering from cystic fibrosis could not be observed. To understand the role of the
CFTR
in chloride transport in the kidney, we attempted to identify an epithelial cell line that can serve as a model. We demonstrate that the
CFTR
is expressed constitutively in Madine-Darby canine kidney (MDCK) type I cells, which are thought to have originated from the distal tubule of the dog nephron. We show expression at the mRNA level, using reverse transcriptase-PCR, and at the protein level, using Western blot analysis with three different monoclonal antibodies. Iodide efflux measurements indicate that
CFTR
expression confers a plasma membrane anion conductance that is responsive to stimulation by cAMP. The cAMP-stimulated iodide release is sensitive to glybenclamide, diphenylamine carboxylic acid and 5-nitro-2-(3-phenylpropylamino)benzoic acid, but not to 4,4'-di-isothiocyanostilbene-2,2'-disulphonic acid, an inhibitor profile characteristic of the
CFTR
chloride channel. Finally, the polarized localization of the
CFTR
to the apical plasma membrane was established by iodide efflux measurements and cell-surface biotinylation on MDCK I monolayers. Interestingly, MDCK type II cells, which are thought to have originated from the proximal tubule of the kidney, lack
CFTR
protein expression and cAMP-stimulated chloride conductance. In conclusion, we propose that MDCK type I and II cells can serve as convenient model systems to study the physiological role and differential expression of
CFTR
in the distal and proximal tubule respectively.
...
PMID:Functional expression and apical localization of the cystic fibrosis transmembrane conductance regulator in MDCK I cells. 907 71
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