KCNK3 Antibody

1. TASK-1 channels displayed strong cardiac expression in mice. Dysregulation of atrial TASK-1 expression in murine atrial fibrillation and heart failure models suggests potential relevance of TASK-1 currents in arrhythmogenesis. PMID: 29881975
2. studies demonstrate that TASK channels can limit ischemia-reperfusion damage in the cortex, and postconditioning with volatile anesthetics provides neuroprotective actions that depend, in part, on activation of TASK currents in cortical neurons. PMID: 28276488
3. Whereas adult female TASK-1-/- mice had a virtually normal respiratory phenotype, except for an increased relaxation time, adult male TASK-1-/- mice exhibited enhanced ventilation that was mainly due to an increased tidal volume. Respiratory responses to hypercapnia and hypoxia were largely preserved. In neonatal TASK-1-/- mice, respiratory drive appeared reduced and knockout animals were more prone to experience apnea. PMID: 27838333
4. Acute hypercapnia (5% CO2) stimulated ventilation in TASK-1/3(-/-) and wild-type mice to a similar extent; however, at higher CO2 concentrations the stimulation of ventilation was more pronounced in TASK-1/3(-/-) mice. At hyperoxia (100% O2), TASK-1(-/-), TASK-3(-/-) and wild-type mice showed the physiological small decrease of ventilation. TASK-1/3(-/-) mice exhibited an abnormal increase of ventilation under hyperoxia. PMID: 28673876
5. Our results have uncovered a previously unknown role of c-Src tyrosine kinase in regulating interneuron function in the brain and identified a novel mechanism by which TASK-1 channels are activated in neurons. PMID: 28714121
6. Adipose-specific Kcnk3 knockout mice display increased energy expenditure and are resistant to hypothermia and obesity. PMID: 28988768
7. While there is compelling evidence that TASK-1 is involved in the pathogenesis of pulmonary arterial hypertension in humans, the mouse does not appear to serve as a suitable model to study the underlying molecular mechanisms PMID: 28301582
8. the K(+) channel TASK1 controls the thermogenic activity in brown adipocytes through modulation of beta-adrenergic receptor signaling. PMID: 26527067
9. KCNK3 channels are not involved in hearing. PMID: 26549439
10. An important role for TASK-1 channels in limiting pancreatic alpha-cell excitability and glucagon secretion during glucose stimulation. PMID: 25849724
11. This study showed TASK channels on cholinergic neurons contribute to endogenous EEG oscillations (including gamma activity) and the electrocortical response to histamine at the basal forebrain in vivo. PMID: 26446210
12. Downregulation of TASK_1 increased proliferation rates of N2A cells. PMID: 24848104
13. A glucose-dependent role for beta-cell TASK-1 channels of limiting glucose-stimulated Deltapsip depolarization and insulin secretion, which modulates glucose homeostasis. PMID: 24932805
14. Oxygen and mitochondrial inhibitors modulate both monomeric and heteromeric TASK-1 and TASK-3 channels in mouse carotid body type-1 cells. PMID: 24042502
15. This study demonstrated for the first time that oligodendrocytes express functional TASK-1 channels and provide compelling evidence they contribute to oligodendrocyte damage in hypoxia. PMID: 23567653
16. TASK-1 deficiency does neither alter key electrophysiological parameters nor increases atrial/ventricular vulnerability after electrical stimulation. PMID: 22813543
17. No difference is found between the pulmonary artery (PA) of wild-type and TASK-1/3-deficient mice; TASK-1 does not form a functional channel in pulmonary artery smooth muscle cells. PMID: 21486782
18. TASK-1 is important for the conduction of cardiac excitation and for the ventricular erpolarization under resting conditions of the heart. PMID: 21865850
19. TASK channels are not required for the stimulation of aldosterone production by protons but their inhibition by physiological acidosis may contribute to full expression of the steroidogenic response. PMID: 21111026
20. Our findings imply that TASK channels regulateFast-spiking neocortex cell rhythmogenesis PMID: 20705896
21. TASK-1 plays a functional role in the repolarization of the cardiac action potential in vivo and contributes to the maintenance of heart rate variability. PMID: 20978771
22. We have characterized the mouse carotid body with special attention to nicotinic, purinergic and dopaminergic receptors as well as the TASK-1 K(+)-channel PMID: 20452469
23. A consequence of having TASK-1 channels expressed (in various non-neuronal tissues and organs) is that neuronal damage is lessened when stroke occurs. PMID: 20167264
24. The data of this study indicated that TASK channels in cholinergic neurons are molecular substrates for select actions of inhaled anesthetics PMID: 20519544
25. Activation and inhibition of protein kinase G respectively upregulates and downregulates recombinant TASK1 channels heterologously expressed in PKG-loaded human embryonic kidney cells. PMID: 20410120
26. Although significantly reducing its pH sensitivity, mutation of H98 in TASK-1 did not abolish pH sensitivity. H98 is not only residue or domain involved in pH sensing of TASK-1. PMID: 12634929
27. activation of protein kinase c epsilon is both necessary and sufficient to regulate murine TASK-1 potassium channel current in a heterologous expression system and to induce repolarization abnormalities in isolated myocytes PMID: 15184378
28. Expression of TASK-1 in mouse is restricted to the developing conduction system PMID: 16145663
29. TASK-1 channels contribute to the properties of potassium leak conductance in adult cerebellar granule neurons PMID: 16339039
30. TASK-like conductances are more prevalent in inhibitory interneurons than previously supposed. PMID: 16837582
31. Residues in the outer pore mouth contribute to selectivity in TASK-1. Mutations resulting in loss of selectivity were associated with slowing of the response of channels to depolarisation. PMID: 17541788
32. Striking changes in adrenocortical architecture in task1-knockout mice are the first demonstration of the causative role of a potassium channel in development/differentiation. PMID: 18034154
33. A strict requirement is ruled out for TASK channels or raphe neurons in central respiratory chemosensation. PMID: 18094244
34. studies establish an animal model of nontumorigenic primary hyperaldosteronism and identify TASK channels as a possible therapeutic target for primary hyperaldosteronism PMID: 18250325
35. TASK-1 channels play a key role in the control of ventilation by peripheral chemoreceptors. PMID: 18753386
36. data provide evidence for an important role of functional TASK channels in limiting tissue damage during cerebral ischemia PMID: 18930826
37. In the isolated, perfused, and ventilated mouse lung model, anandamide and ET-1 have an additive effect on TASK-1 inhibition and resultant vasoconstriction. PMID: 19188660
38. Our results support a novel role for TASK genes in enhancing neuronal excitability and promoting high-frequency firing, but suggest that TASK1/3 subunits are not essential for orexin cell responses to glucose and pH. PMID: 19508695

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KEGG: mmu:16527

STRING: 10090.ENSMUSP00000098987

UniGene: Mm.439936