Dataset Information

Adenosine stimulates the basolateral 50 pS K⁺ channel in renal proximal tubule via adenosine-A1 receptor.

ABSTRACT: Background: The basolateral potassium channels play an important role in maintaining the membrane transport in the renal proximal tubules (PT) and adenosine receptors have been shown to regulate the trans-epithelial Na⁺ absorption in the PT. The aim of the present study is to explore whether adenosine also regulates the basolateral K⁺ channel of the PT and to determine the adenosine receptor type and the signaling pathway which mediates the effect of adenosine on the K⁺ channel. Methods: We have used the single channel recording to examine the basolateral K⁺ channel activity in the proximal tubules of the mouse kidney. All experiments were performed in cell-attached patches. Results: Single channel recording has detected a 50 pS inwardly-rectifying K⁺ channel with high channel open probability and this 50 pS K⁺ channel is a predominant type K⁺ channel in the basolateral membrane of the mouse PT. Adding adenosine increased 50 pS K⁺ channel activity in cell-attached patches, defined by NP_o (a product of channel Numbers and Open Probability). The adenosine-induced stimulation of the 50 pS K⁺ channel was absent in the PT pretreated with DPCPX, a selective inhibitor of adenosine A1 receptor. In contrast, adenosine was still able to stimulate the 50 pS K⁺ channel in the PT pretreated with CP-66713, a selective adenosine A2 receptor antagonist. This suggests that the stimulatory effect of adenosine on the 50 pS K⁺ channel of the PT was mediated by adenosine-A1 receptor. Moreover, the effect of adenosine on the 50 pS K⁺ channel was blocked in the PT pretreated with U-73122 or Calphostin C, suggesting that adenosine-induced stimulation of the 50 pS K⁺ channels of the PT was due to the activation of phospholipase C (PLC) and protein kinase C (PKC) pathway. In contrast, the inhibition of phospholipase A2 (PLA2) with AACOCF3 or inhibition of protein kinase A (PKA) with H8 failed to block the adenosine-induced stimulation of the 50 pS K⁺ channel of the PT. Conclusion: We conclude that adenosine activates the 50 pS K⁺ channels in the basolateral membrane of PT via adenosine-A1 receptor. Furthermore, the effect of adenosine on the 50 pS K⁺ channel is mediated by PLC-PKC signaling pathway.

SUBMITTER: Liu H

PROVIDER: S-EPMC10493268 | biostudies-literature | 2023

REPOSITORIES: biostudies-literature

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Adenosine stimulates the basolateral 50 pS K+ channel in renal proximal tubule via adenosine-A1 receptor.

Liu Hao H Sun Qi Q Ding Zheng Z Shi Wensen W Wang Wen-Hui WH Zhang Chengbiao C

Frontiers in physiology 20230828

Background: The basolateral potassium channels play an important role in maintaining the membrane transport in the renal proximal tubules (PT) and adenosine receptors have been shown to regulate the trans-epithelial Na+ absorption in the PT. The aim of the present study is to explore whether adenosine also regulates the basolateral K+ channel of the PT and to determine the adenosine receptor type and the signaling pathway which mediates the effect of adenosine on the ...[more]

PMID: 37700760

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Project description:Circadian variability in kidney function is well recognized but is often ignored as a potential confounding variable in physiological experiments. Here, we have created a data resource consisting of expression levels for mRNA transcripts in microdissected proximal tubule segments from mice as a function of the time of day. Small-sample RNA sequencing was applied to microdissected S1 proximal convoluted tubules and S2 proximal straight tubules. After stringent filtering, the data were analyzed using JTK-Cycle to detect periodicity. The data set is provided as a user-friendly webpage at https://esbl.nhlbi.nih.gov/Databases/Circadian-Prox2/. In proximal convoluted tubules, 234 transcripts varied in a circadian manner (4.0% of the total). In proximal straight tubules, 334 transcripts varied in a circadian manner (5.3%). Transcripts previously known to be associated with corticosteroid action and with increased flow were found to be overrepresented among circadian transcripts peaking during the "dark" portion of the day [zeitgeber time (ZT)14-22], corresponding to peak levels of corticosterone and glomerular filtration rate in mice. To ask whether there is a time-of-day dependence of protein abundances in the kidney, we carried out LC-MS/MS-based proteomics in whole mouse kidneys at ZT12 and ZT0. The full data set (n = 6,546 proteins) is available at https://esbl.nhlbi.nih.gov/Databases/Circadian-Proteome/. Overall, 293 proteins were differentially expressed between ZT12 and ZT0 (197 proteins greater at ZT12 and 96 proteins greater at ZT0). Among the regulated proteins, only nine proteins were found to be periodic in the RNA-sequencing analysis, suggesting a high level of posttranscriptional regulation of protein abundances.NEW & NOTEWORTHY Circadian variation in gene expression can be an important determinant in the regulation of kidney function. The authors used RNA-sequencing transcriptomics and LC-MS/MS-based proteomics to identify gene products expressed in a periodic manner. The data were used to construct user-friendly web resources.

Dataset Information

Adenosine stimulates the basolateral 50 pS K⁺ channel in renal proximal tubule via adenosine-A1 receptor.

Publications

Adenosine stimulates the basolateral 50 pS K<sup>+</sup> channel in renal proximal tubule via adenosine-A1 receptor.

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