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Query: UMLS:C0847097 (
acidity
)
15,165
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Tandem pore domain K+ channels represent a new family of ion channels involved in the control of background membrane conductances. We report the structural and functional properties of a
TWIK-related acid-sensitive K+ channel
(rTASK), a new member of this family cloned from rat cerebellum. The salient features of the primary amino acid sequence include four putative transmembrane domains and, unlike other cloned tandem pore domain channels, a PDZ (postsynaptic density protein, disk-large, zo-1) binding sequence at the C terminal. rTASK has distant overall homology to a putative Caenorhabditis elegans K+ channel and to the mammalian clones TREK-1 and TWIK-1. rTASK expression is most abundant in rat heart, lung, and brain. When exogenously expressed in Xenopus oocytes, rTASK currents activate instantaneously, are noninactivating, and are not gated by voltage. Because rTASK currents satisfy the Goldman-Hodgkin-Katz current equation for an open channel, rTASK can be classified an open rectifier. Activation of protein kinase A produces inhibition of rTASK, whereas activation of protein kinase C has no effect. rTASK currents were inhibited by extracellular
acidity
. rTASK currents also were inhibited by Zn2+ (IC50 = 175 microM), the local anesthetic bupivacaine (IC50 = 68 microM), and the anti-convulsant phenytoin ( approximately 50% inhibition at 200 microM). By demonstrating open rectification and open probability independent of voltage, we have established that rTASK is a baseline potassium channel.
...
PMID:An open rectifier potassium channel with two pore domains in tandem cloned from rat cerebellum. 943 8
We examined the properties of a proton sensitive current in acutely dissociated, capsaicin insensitive nociceptive neurons from rat dorsal root ganglion (DRG). The current had features consistent with K(+) leak currents of the KCNK family (
TASK-1
, TASK-3; TWIK-related acid sensing K(+)).
Acidity
and alkalinity induced inward and outward shifts in the holding current accompanied by increased and decreased whole cell resistance consistent with a K(+) current. We used alkaline solutions to open the channel and examine its properties. Alkaline evoked currents (AECs; pH 10.0-10.75), reversed near the K(+) equilibrium potential (-74 mV), and were suppressed 85% in 0 mM K(+). AECs were insensitive to Cs(+) (1 mM) and anandamide (1 microM), but blocked by Ba(++) (1 mM), quinidine (100 microM) or Ruthenium Red (10 microM). This pharmacology was identical to that of rat TASK-3 and inconsistent with that of
TASK-1
or TASK-2. The
TASK
-like AEC was not modulated by PKA (forskolin, kappa opioid agonists U69593 and GR8696, somatostatin) but was inhibited by PKC activator phorbol-12-myristate-13 acetate (PMA). When acidic solutions were used, we were able to isolate a Ba(++) and Ruthenium Red insensitive current that was inhibited by Zn(++). This Zn(++) sensitive component of the proton sensitive current was consistent with
TASK-1
. In current clamp studies, acidic pH produced sensitive changes in resting membrane potential but did not influence excitability (pH 7.2-6.8). In contrast, Zn(++) produced substantial changes in excitability at physiological pH. Alkaline solutions produced hyperpolarization followed by proportional burst discharges (pH 10.75-11.5) and increased excitability (at pH 7.4). In conclusion, multiple
TASK
currents were present in a DRG nociceptor and differentially contributed to distinct discharge mechanisms.
...
PMID:Characterization and function of TWIK-related acid sensing K+ channels in a rat nociceptive cell. 1548 43
External
acidity
induces catecholamine secretion by inhibiting TASK1-like channels in rat adrenal medullary (AM) cells.
TASK
channels can function as a heteromer or homomer in the
TASK
subfamily. In this study, we elucidate the molecular identity of TASK1-like channels in mouse AM cells using gene knockout. Genetic deletion of TASK1, but not TASK3, abolished the depolarizing inward current and catecholamine secretion in response to
acidity
, whereas it did not affect the resting current level. Immunocytochemistry revealed that AM cells exhibited predominantly TASK1-like and little TASK3-like immunoreactivity. A proximity ligation assay showed that TASK1/3 heteromeric channels were not formed in AM cells or PC12 cells. However, the exogenous expression of p11 in PC12 cells resulted in the heteromeric formation of
TASK
isoforms, which were mainly located in the cytoplasm, and p11 was not expressed in rat adrenal medullae or PC12 cells. In AM cells, genetic deletion of TASK1 resulted in enhancement of the immunoreactivity of the TALK2 channel, but not TASK3. The results indicate that TASK1 homomeric channels function as
acidity
sensors in AM cells, and that function is facilitated by the lack of p11 expression.-Inoue, M., Matsuoka, H., Lesage, F., Harada, K. Lack of p11 expression facilitates
acidity
-sensing function of TASK1 channels in mouse adrenal medullary cells.
...
PMID:Lack of p11 expression facilitates acidity-sensing function of TASK1 channels in mouse adrenal medullary cells. 3000 Nov 68
