1. H3K9me2 and G9a are sensitive to epileptic seizure activity during the acute phase of epilepsy and can affect the transcriptional regulation of the Kcnj10 (Kir4.1) channel. PMID: 29115470
2. studies suggest that AGE-modification of laminin is detrimental to Kir4.1 channels. By studying the role of AGEs in Kir4.1 channels we have identified a novel mechanism of Muller cell dysfunction and its subsequent involvement in Diabetic retinopathy. PMID: 29474462
3. IL-1beta promotes the proliferation of cultured astrocytes by influencing the expression of Kir4.1. PMID: 28395711
4. Kir4.1 channels possess a diurnal rhythm, and this rhythm is dampened with diabetes, thereby suggesting that the increase in TNF-alpha is detrimental to normal Kir4.1 rhythm and expression. PMID: 28460049
5. This study demonstrated changes in Kir4.1 expression in an animal model of PTS in the acute and chronic stages of the condition. PMID: 26768400
6. This study demonstrated that Kir4.1 developmental expression both in the cortex and hippocampus and support the glial role of Kir4.1 in K(+) spatial buffering. PMID: 26427731
7. data suggest that G83V, L166Q, and Q212R residues play a pivotal role in controlling Kir4.1 channel function. PMID: 26867573
8. Data suggest that lipopolysaccharide (LPS)-induced downregulation of inwardly rectifying K(+) channel Kir4.1 mRNA in cultured astrocytes might be related with the inflammatory cytokine IL-1beta. PMID: 26927380
9. Over-activation of NMDA receptors is a primary cause of the reduction of Kir4.1 expression in CNS disorders associated with increased exposure to glutamate. PMID: 25451797
10. Ependymal cells and tanycytes differentially operate Kir4.1 and AQP4 actively to control the property of fluids at local areas in the brain. PMID: 25380566
11. This study demonistrated that the epigenetic regulation of Kir4.1, a glial-specific K+ channel, known to be essential for normal CNS development. PMID: 24415225
12. The present results suggest that reduced activity of astrocytic Kir4.1 channels in the amygdala is involved in limbic hyperexcitability in NERs. PMID: 23603404
13. Decreased expression of Kir4.1 is observed in the brainstem and cortex from rats in an amyotrophic lateral sclerosis model. PMID: 22987392
14. An uncoupling expression of AQP4 and Kir4.1 on astrocytic end feet is partly responsible for mediation of cytotoxic edema following subarachnoid hemorrhage. PMID: 22420318
15. Kir4.1 channels in satellite glial cells are suppressed during trigeminal inflammatory pain. PMID: 21680091
16. Pigment epithelium-derived factor acts as an antioxidative agent against the decrease in Kir4.1 expression in retinal Muller cells in diabetic conditions. PMID: 22266516
17. down-regulation of Kir4.1 may mediate distinct aspects of Glutamine-induced astrocytic dysfunction in hepatic encephalopathy. PMID: 21538466
18. Astrocytes in the CA1 region of the hippocampus are progressively depolarized following cerebral ischemia coinciding with decreased potassium channel Kir4.1 protein expression in glial cells. PMID: 20833221
19. Heteromeric Kir4.1-Kir5.1 channels confer pH sensitivity to retrotrapezoid nucleus astrocytes. PMID: 20926613
20. Data show that all Kir4.1 mutations compromised channel function, but the underlying mechanisms were different. PMID: 20807765
21. CaR decreases cell surface expression of Kir4.1 channels via a mechanism that involves Galpha(q) and caveolin. PMID: 21084311
22. These results indicate the differential loss of KIR4.1 channel function among SeSAME syndrome mutations. PMID: 20678478
23. In adult rats, Kir4.1 expression is reduced by nearly 80% following crush spinal cord injury. PMID: 20375134
24. data suggest the signals on the COOH terminus of Kir4.1 potassium channel determine the intracellular localization of Kir5.1 potassium channel/Kir4.1 heteromer in distal tubules PMID: 15292049
25. Results demonstrate that variations (T262S and R271C) in the gene encoding Kir4.1 do not produce any observable changes in channel function or in predicted channel structure. PMID: 15936844
26. disruption of the carboxyl-terminal PDZ-binding motif induced mostly clustered distribution but did not reduce whole-cell channel activity PMID: 16033858
27. Kir4.1 channels are primarily responsible for significant hyperpolarization of cortical astrocytes and are likely to play a major role in potassium buffering. Significant inhibition of glutamate clearance in astrocytes with knock-down of Kir4.1 occurs. PMID: 17091490
28. Modulation of the Kcnj10 channel by multiple neuotransmitters via Galphaq-coupled receptors is reported. PMID: 17559083
29. Regional differences in astrocytic expression of Kir4.1 channels result in marked changes in potassium clearance rates in these two regions of the spinal cord. PMID: 17581847
30. While confirming similar properties of glial Kir and recombinant Kir4.1, the results also suggest mechanisms underlying K+ buffering in glial cells. PMID: 18293411
31. These results demonstrate that the phosphorylation-dependent scaffolding of the basolateral K(+) channels by MAGI-1a-long participates in the renal regulation of the fluid and electrolyte homeostasis. PMID: 18303016
32. Silencing Kir4.1 in the trigeminal ganglion using RNA interference (RNAi) results in a reversible change in nociceptive threshold and nociceptive-related behavior. PMID: 18417695

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KEGG: rno:29718

STRING: 10116.ENSRNOP00000010146

UniGene: Rn.10196