Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0848283 (
rundown
)
502
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Genistein and bromotetramisole (Br-t) strongly activate cystic fibrosis transmembrane conductance regulator (
CFTR
; ABCC7) chloride channels on Chinese hamster ovary cells and human airway epithelial cells. We have examined the possible role of phosphatases in stimulation by these drugs using patch-clamp and biochemical methods. Genistein inhibited the spontaneous
rundown
of channel activity that occurs after membrane patches are excised from cAMP-stimulated cells but had no effect on purified protein phosphatase type 1 (PP1), PP2A, PP2B, PP2C, or endogenous phosphatases when assayed as [(32)P]PO(4) release from prelabeled casein, recombinant GST-R domain fusion protein, or immunoprecipitated full-length
CFTR
. Br-t also slowed
rundown
of
CFTR
channels, but, in marked contrast to genistein, it did inhibit all four protein phosphatases tested. Half-maximal inhibition of PP2A and PP2C was observed with 0.5 and 1.5 mM Br-t, respectively. Protein phosphatases were also sensitive to (+)-p-Br-t, a stereoisomer of Br-t that does not inhibit alkaline phosphatases. Br-t appeared to act exclusively through phosphatases since it did not affect
CFTR
channels in patches that had low apparent endogenous phosphatase activity (i.e., those lacking spontaneous
rundown
). We conclude that genistein and Br-t act through different mechanisms. Genistein stimulates
CFTR
without inhibiting phosphatases, whereas Br-t acts by inhibiting a membrane-associated protein phosphatase (probably PP2C) that presumably allows basal phosphorylation to accumulate.
...
PMID:Role of protein phosphatases in the activation of CFTR (ABCC7) by genistein and bromotetramisole. 1089 22
The
CFTR
chloride channel is activated by phosphorylation of serine residues in the regulatory (R) domain and then gated by ATP binding and hydrolysis at the nucleotide binding domains (NBDs). Studies of the ATP-dependent gating process in excised inside-out patches are very often hampered by channel
rundown
partly caused by membrane-associated phosphatases. Since the severed DeltaR-
CFTR
, whose R domain is completely removed, can bypass the phosphorylation-dependent regulation, this mutant channel might be a useful tool to explore the gating mechanisms of
CFTR
. To this end, we investigated the regulation and gating of the DeltaR-
CFTR
expressed in Chinese hamster ovary cells. In the cell-attached mode, basal DeltaR-
CFTR
currents were always obtained in the absence of cAMP agonists. Application of cAMP agonists or PMA, a PKC activator, failed to affect the activity, indicating that the activity of DeltaR-
CFTR
channels is indeed phosphorylation independent. Consistent with this conclusion, in excised inside-out patches, application of the catalytic subunit of PKA did not affect ATP-induced currents. Similarities of ATP-dependent gating between wild type and DeltaR-
CFTR
make this phosphorylation-independent mutant a useful system to explore more extensively the gating mechanisms of
CFTR
. Using the DeltaR-
CFTR
construct, we studied the inhibitory effect of ADP on
CFTR
gating. The Ki for ADP increases as the [ATP] is increased, suggesting a competitive mechanism of inhibition. Single channel kinetic analysis reveals a new closed state in the presence of ADP, consistent with a kinetic mechanism by which ADP binds at the same site as ATP for channel opening. Moreover, we found that the open time of the channel is shortened by as much as 54% in the presence of ADP. This unexpected result suggests another ADP binding site that modulates channel closing.
...
PMID:CFTR gating I: Characterization of the ATP-dependent gating of a phosphorylation-independent CFTR channel (DeltaR-CFTR). 1576 95
