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8. Adenosine stimulates the basolateral 50 pS K channels in the thick ascending limb of the rat kidney

Author

Gu, Ruimin, Wang, Jing, Zhang, Yunhong, Li, Wennan, Xu, Ying, Shan, Hongli, Wang, Wen-Hui, and Yang, Baofeng

Subjects
Sodium channels -- Research, Kidney tubules -- Research, Epithelial cells -- Research, Cellular control mechanisms -- Research, Cyclic adenylic acid -- Research, Protein kinases -- Research, Biological sciences
Abstract

We used the patch-clamp technique to examine the effect of adenosine on the basolateral K channels in the thick ascending limb (TAL) of the rat kidney. A 50-pS inwardly rectifying K channel was detected in the basolateral membrane, and the channel activity was decreased by hyperpolarization. Application of adenosine (10 [micro]M) increased the activity of basolateral 50 pS K channels, defined by [NP.sub.o], from 0.21 to 0.41. The effect of adenosine on the 50 pS K channels was mimicked by cyclohexyladenosine (CHA), which increased channel activity by a dose-dependent manner. However, inhibition of the A1 adenosine receptor with 8-cyclopentyl-1, 3-dipropylxanthine (DPCPX) failed to block the effect of CHA. In contrast, application of 8-(3-chlorostyryl) caffeine (CSC), an A2 adenosine antagonist, abolished the stimulatory effect of CHA. The possibility that the effect of adenosine and adenosine analog on the basolateral 50 pS K channel was the result of activation of the A2 adenosine receptor was also suggested by the observation that application of CGS-21680, a selected [A.sub.2]A adenosine receptor agonist, increased the channel activity. Also, inhibition of PKA with N-[2-(methylamino)ethyl]-5-isoquinoline sulfonamide-2HCl abolished the stimulatory effect of CHA on the basolateral 50 pS K channel. Moreover, addition of the membrane-permeable cAMP analog increases the activity of 50 pS K channels. We conclude that adenosine activates the 50 pS K channel in the basolateral membrane of the TAL and the stimulatory effect is mainly mediated by a PKA-dependent pathway via the A2 adenosine receptor in the TAL. adenosine receptor; protein kinase A; renal K channel; epithelial transport doi:10.1152/ajprenal.00008.2007

Published
2007

9. Dual effect of insulin-like growth factor on the apical 70-pS K channel in the thick ascending limb of rat kidney

Author

Wei, Yuan, Chen, Yu-Jung, Li, Dimin, Gu, Ruimin, and Wang, Wen-Hui

Subjects
Insulin-like growth factor 1 -- Research, Biological sciences
Abstract

Dual effect of insulin-like growth factor on the apical 70-pS K channel in the thick ascending limb of rat kidney. Am J Physiol Cell Physiol 286: C1258-C1263, 2004; 10.1152/ajpcell.00441.2003.--We used the patch-clamp technique to study the effect of insulin-like growth factor I (IGF-I) on the apical 70-pS K channel in the isolated thick ascending limb (TAL) of the rat kidney. The isolated TAL was cut open to gain access to the apical membrane. Addition of 25 nM IGF-I stimulates the apical 70-pS K channel and increases channel activity, defined by the product of channel open probability and channel number, from 0.31 to 1.21. The stimulatory effect of IGF-I is not mediated by nitric oxide- or protein tyrosine phosphatase-dependent mechanisms, because inhibition of nitric oxide synthase or blocking protein tyrosine phosphatase did not abolish the stimulatory effect of IGF-I on the 70-pS K channel. In contrast, inhibition of mitogen-activated protein (MAP) kinase with PD-98059 or U0126 abolished the stimulatory effect of IGF-I. This suggests that MAP kinase is responsible for mediating the effect of IGF-I on the apical K channels. Moreover, the effect of IGF-I on the apical 70-pS K channel is biphasic because high concentrations (>200 nM) inhibit apical 70-pS K channels. Application of 400 nM IGF-I decreased channel activity from 1.45 to 0.2. The inhibitory effect of IGF-I is not blocked by calphostin C (an inhibitor of PKC), but inhibition of protein tyrosine kinase with herbimycin A abolished the IGF-induced inhibition. We conclude that IGF-I has a dual effect on the apical 70-pS K channel in the TAL: low concentrations of IGF-I stimulate, whereas high concentrations inhibit the channel activity. The stimulatory effect of IGF-I is mediated by a MAP kinase-dependent pathway, whereas the inhibitory effect is the result of stimulation of protein tyrosine kinase. mitogen-activated protein kinase; protein tyrosine kinase; protein tyrosine phosphatase; potassium recycling

Published
2004

12. AT2R-mediated regulation of Na-Cl cotransporter (NCC) and renal K excretion depends on the K channel, Kir4.1

Author

Wu, Peng, Gao, Zhong-Xiuzi, Duan, Xin-Peng, Su, Xiao-Tong, Wang, Ming-Xiao, Lin, Dao-Hong, Gu, Ruimin, and Wang, Wen-Hui

Subjects
Sodium, Potassium, Solute Carrier Family 12, Member 3, Receptor, Angiotensin, Type 2, Article, Receptor, Angiotensin, Type 1
Abstract

Angiotensin II (AngII) type 2 receptor (AT2R) is expressed in the distal nephrons. The aim of the present study is to examine whether AT2R regulates Na-Cl cotransporter (NCC) and Kir4.1 of the distal convoluted tubule (DCT). AngII inhibited the basolateral 40 pS K channel (a Kir4.1/5.1 heterotetramer) in the DCT treated with losartan but not with PD123319. AT2R agonist also inhibits the K channel, indicating that AT2R was involved in tonic regulation of Kir4.1. The infusion of PD123319 stimulated the expression of total NCC (tNCC) and phosphorylated NCC (pNCC) (Thr(53)) by a time-dependent way with the peak at 4 days. PD123319 treatment (4 days) stimulated the basolateral 40 pS K channel activity, augmented the basolateral K conductance and increased the negativity of DCT membrane. The stimulation of Kir4.1 was essential for PD123319-induced increase in NCC since inhibiting AT2R increased the expression of tNCC and pNCC only in WT but not in the kidney-specific Kir4.1 knockout (KS-Kir4.1 KO) mice. Renal clearance study showed that thiazide-induced natriuretic effect was larger in PD123319 treated mice for 4 days than untreated mice. However, this effect was absent in KS-Kir4.1 KO mice which were also Na wasting under basal conditions. Finally, application of AT2R antagonist decreased the renal ability of K excretion and caused hyperkalemia in WT but not in KS-Kir4.1 KO mice. We conclude that AT2R dependent regulation of NCC requires Kir4.1 in the DCT and that AT2R plays a role in stimulating K excretion by inhibiting Kir4.1 and NCC.

Published
2018

15. Bradykinin Stimulates Renal Na + and K + Excretion by Inhibiting the K + Channel (Kir4.1) in the Distal Convoluted Tubule

Author

Zhang, Dan-Dan, primary, Gao, Zhong-Xiuzi, additional, Vio, Carlos P., additional, Xiao, Yu, additional, Wu, Peng, additional, Zhang, Hao, additional, Guo, Xi-Wen, additional, Meng, Xin-Xin, additional, Gu, Li, additional, Wang, Jun-Lin, additional, Duan, Xin-Peng, additional, Lin, Dao-Hong, additional, Wang, Wen-Hui, additional, and Gu, Ruimin, additional

Published
2018
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18. PGF2αstimulates the 10-pS Cl−channel and thiazide-sensitive Na+-Cl−cotransporter in the distal convoluted tubule

Author

Wang, Li-Jun, Xiao, Yu, Fang, Jing, Wang, Jun-Lin, Zhang, Hao, Meng, Xin-Xin, Gong, Rui-Lan, and Gu, Ruimin

Abstract

We used patch-clamp and Western blot analysis to test whether PGF2αstimulates the basolateral 10-pS Cl−channel and thiazide-sensitive Na+-Cl−cotransporter (NCC) in the distal convoluted tubule (DCT) via a prostaglandin F receptor (FP-R). Single channel and whole cell recordings demonstrated that PGF2αstimulated the 10-pS Cl−channel in the DCT. The stimulatory effect of PGF2αon the Cl−channel was mimicked by a FP-R agonist, latanoprost, but was abrogated by blocking FP-R with AL8810. Also, the effect of PGF2αon the Cl−channel in the DCT was recapitulated by stimulating PKC but was blocked by inhibiting PKC. Furthermore, inhibition of p38 MAPK but not ERK blocked the effect of PGF2αon the 10-pS Cl−channel. Inhibition of NADPH oxidase also abrogated the stimulatory effect of PGF2αon the 10-pS Cl−channel, while the addition of 10 μM H2O2mimicked the stimulatory effect of PGF2αon the 10-pS Cl−channel. Moreover, superoxide-related species may mediate the stimulatory effect of PGF2αon the 10-pS Cl−channel because the stimulatory effect of PGF2αand H2O2was not additive. Western blot analysis showed that infusion of PGF2αin vivo not only increased the expression of FP-R but also increased the expression of total NCC and phosphorylated NCC. We conclude that PGF2αstimulates the basolateral 10-pS Cl−channel in the DCT by activating FP-R through PKC/p38 MAPK and NADPH oxidase-dependent pathways. The stimulatory effects of PGF2αon the Cl−channel and NCC may contribute to PGF2α-induced increases in NaCl reabsorption in the DCT.

Published
2020
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19. Effect of dietary K intake on apical small-conductance K channel in CCD: role of protein tyrosine kinase

Author

WEI, YUAN, BLOOM, PETER, LIN, DAOHONG, GU, RUIMIN, and WANG, WEN HUI

Subjects
Potassium -- Physiological aspects, Protein tyrosine kinase -- Physiological aspects, Phosphatases -- Physiological aspects, Kidneys -- Physiological aspects, Biological sciences
Abstract

We have used Western blot to examine the expression of cSrc protein tyrosine kinase (PTK) and protein tyrosine phosphatase (PTP)-1D in the renal cortex, and the patch-clamp technique to determine the role of PTK in mediating the effect of dietary K intake on the small-conductance K (SK) channel in the cortical collecting duct (CCD). When rats were on a K-deficient (KD) diet for 1, 3, 5, and 7 days, the expression of cSrc increased by 40, 90, 140, and 135%, respectively. In contrast, the expression of cSrc in the renal cortex from rats on a high-K (HK) diet for 1, 2, and 3 days decreased by 40, 60, and 75%, respectively. However, the protein level of PTP-1D was not significantly changed by dietary K intake. The addition of 1 [micro]M herbimycin A increased N[P.sub.o], a product of channel number (N) and open probability ([P.sub.o]) in the CCD from rats on a normal diet or on a KD diet. The increase in N[P.sub.o] was 0.30 (normal), 0.45 (1-day KD), 0.65 (3-day KD), 1.55 (5-day KD), and 1.85 (7-day KD), respectively. Treatment of the CCD with herbimycin A from rats on a KD diet increased N[P.sub.o] per patch from the control value (0.7) to 1.4 (1-day KD), 1.6 (3-day KD), 2.6 (5-day KD), and 3.5 (7-day KD), respectively. In contrast, HK intake for as short as I day abolished the effect of herbimycin A. Furthermore, the expression of ROMK channels in the renal cortex was the same between rats on a KD diet or on a HK diet. Moreover, treatment with herbimycin A did not further increase N[P.sub.o] in the CCDs from rats on a HK diet. We conclude that dietary K intake plays a key role in regulating the activity of the SK channels and that PTK is involved in mediating the effect of the K intake on channel activity in the CCD. hyperkalemia; hypokalemia; protein tyrosine phosphatase 1D; renal potassium secretion; cortical collecting duct

Published
2001

20. Role of 20-HETE in mediating the effect of dietary K intake on the apical K channels in the mTAL

Author

GU, RUIMIN, WEI, YUAN, JIANG, HOULI, BALAZY, MICHAEL, and WANG, WENHUI

Subjects
Potassium in the body -- Physiological aspects, Cytochrome P-450 -- Physiological aspects, Arachidonic acid -- Physiological aspects, Hypokalemia -- Physiological aspects, Hyperkalemia -- Physiological aspects, Mass spectrometry -- Usage, Biological sciences
Abstract

Role of 20-HETE in mediating the effect of dietary K intake on the apical K channels in the mTAL. Am J Physiol Renal Physiol 280: F223-F230, 2001.--We have used the patch-clamp technique to study the effect of dietary K intake on the apical K channels in the medullary thick ascending limb (mTAL) of rat kidneys. The channel activity, defined by the number of channels in a patch and the open probability ([NP.sub.o]), of the 30- and 70-pS K channels, was 0.18 and 0.11, respectively, in the mTAL from rats on a K-deficient diet. In contrast, [NP.sub.o] of the 30- and 70-pS K channels increased to 0.60 and 0.80, respectively, in the tubules from animals on a high-K diet. The concentration of 20-hydroxyeicosatetraenoic acid (20-HETE) measured with gas chromatography-mass spectrometry was 0.8 pg/[micro]g protein in the mTAL from rats on a high-K diet and increased significantly to 4.6 pg/[micro]g protein in the tubules from rats on a K-deficient diet. Addition of N-methylsulfonyl-12,12-dibromododec-11-enamide (DDMS) or 17-octadecynoic acid (17-ODYA), agents that inhibit the formation of 20-HETE, had no significant effect on the activity of the 30-pS K channels. However, DDMS/17-ODYA significantly increased the activity of the apical 70-pS K channel from 0.11 to 0.91 in the mTAL from rats on a K-deficient diet. In contrast, inhibition of the cytochrome P-450 metabolism of arachidonic acid increased [NP.sub.o] from 0.64 to 0.81 in the tubules from animals on a high-K diet. Furthermore, the sensitivity of the 70-pS K channel to 20-HETE was the same between rats on a high-K diet and on a K-deficient diet. Finally, the pretreatment of the tubules with DDMS increased [NP.sub.o] of the 70-pS K channels in the mTAL from rats on a K-deficient diet to 0.76. We conclude that an increase in 20-HETE production is involved in reducing the activity of the apical 70-pS K channels in the mTAL from rats on a K-deficient diet. cytochrome P-450; arachidonic acid; hypokalemia; hyperkalemia; medullary thick ascending limb; 20-hydroxyeicosatetraenoic acid

Published
2001

23. Vasopressin-induced stimulation of the Na+-activated K+ channels is responsible for maintaining the basolateral K+ conductance of the thick ascending limb (TAL) in EAST/SeSAME syndrome

Author

Fan, Lili, primary, Wang, Xiaoyan, additional, Zhang, Dandan, additional, Duan, Xinpeng, additional, Zhao, Chunlei, additional, Zu, Mingxue, additional, Meng, Xinxin, additional, Zhang, Chengbiao, additional, Su, Xiao-Tong, additional, Wang, Ming-Xiao, additional, Wang, Wen-Hui, additional, and Gu, Ruimin, additional

Published
2015
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24. ADH-induced Stimulation of Na-activated K Channels is Responsible for Maintaining Basolateral K Conductance of the Thick Ascending Limb (TAL) in EAST/Sesame Syndrome

Author

Wang, Mingxiao, primary, Fan, Lili, additional, Wang, Xiaoyan, additional, Zhang, Dandan, additional, Duan, Xinpeng, additional, Zhao, Chunlei, additional, Zu, Mingxue, additional, Meng, Xinxin, additional, Su, Xiaotong, additional, Zhang, Chengbiao, additional, Wang, Wenhui, additional, and Gu, Ruimin, additional

Published
2015
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25. Bradykinin Stimulates Renal Na+ and K+ Excretion by Inhibiting the K+ Channel (Kir4.1) in the Distal Convoluted Tubule.

Author

Zhang, Dan-Dan, Gao, Zhong-Xiuzi, Vio, Carlos P., Xiao, Yu, Wu, Peng, Zhang, Hao, Guo, Xi-Wen, Meng, Xin-Xin, Gu, Li, Wang, Jun-Lin, Duan, Xin-Peng, Lin, Dao-Hong, Wang, Wen-Hui, and Gu, Ruimin

Abstract

Stimulation of BK2R (bradykinin [BK] B2 receptor) has been shown to increase renal Na+ excretion. The aim of the present study is to explore the role of BK2R in regulating Kir4.1 and NCC (NaCl cotransporter) in the distal convoluted tubule (DCT). Immunohistochemical studies demonstrated that BK2R was highly expressed in both apical and lateral membrane of Kir4.1-positive tubules, such as DCT. Patch-clamp experiments demonstrated that BK inhibited the basolateral 40-pS K+ channel (a Kir4.1/5.1 heterotetramer) in the DCT, and this effect was blocked by BK2R antagonist but not by BK1R (BK B1 receptor) antagonist. Whole-cell recordings also demonstrated that BK decreased the basolateral K+ conductance of the DCT and depolarized the membrane. Renal clearance experiments showed that BK increased urinary Na+ and K+ excretion. However, the BK-induced natriuretic effect was completely abolished in KS-Kir4.1 KO (kidney-specific conditional Kir4.1 knockout) mice, suggesting that Kir4.1 activity is required for BK-induced natriuresis. The continuous infusion of BK with osmotic pump for 3 days decreased the basolateral K+ conductance and the negativity of the DCT membrane. Western blot showed that infusion of BK decreased the expression of total NCC and phosphorylated NCC. Renal clearance experiments demonstrated that thiazide-induced natriuresis was blunted in the mice receiving BK infusion, suggesting that BK inhibited NCC function. Consequently, mice receiving BK infusion for 3 days were hypokalemic. We conclude that stimulation of BK2R inhibits NCC activity, increases urinary K+ excretion, and causes mice hypokalemia and that Kir4.1 is required for BK2R-mediated stimulation of urinary Na+ and K+ excretion. [ABSTRACT FROM AUTHOR]

Published
2018
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26. AT2R (Angiotensin II Type 2 Receptor)-Mediated Regulation of NCC (Na-Cl Cotransporter) and Renal K Excretion Depends on the K Channel, Kir4.1.

Author

Peng Wu, Zhong-Xiuzi Gao, Xin-Peng Duan, Xiao-Tong Su, Ming-Xiao Wang, Dao-Hong Lin, Ruimin Gu, Wen-Hui Wang, Wu, Peng, Gao, Zhong-Xiuzi, Duan, Xin-Peng, Su, Xiao-Tong, Wang, Ming-Xiao, Lin, Dao-Hong, Gu, Ruimin, and Wang, Wen-Hui

Abstract

AT2R (AngII [angiotensin II] type 2 receptor) is expressed in the distal nephrons. The aim of the present study is to examine whether AT2R regulates NCC (Na-Cl cotransporter) and Kir4.1 of the distal convoluted tubule. AngII inhibited the basolateral 40 pS K channel (a Kir4.1/5.1 heterotetramer) in the distal convoluted tubule treated with losartan but not with PD123319. AT2R agonist also inhibits the K channel, indicating that AT2R was involved in tonic regulation of Kir4.1. The infusion of PD123319 stimulated the expression of tNCC (total NCC) and pNCC (phosphorylated NCC; Thr53) by a time-dependent way with the peak at 4 days. PD123319 treatment (4 days) stimulated the basolateral 40 pS K channel activity, augmented the basolateral K conductance, and increased the negativity of distal convoluted tubule membrane. The stimulation of Kir4.1 was essential for PD123319-induced increase in NCC because inhibiting AT2R increased the expression of tNCC and pNCC only in wild-type but not in the kidney-specific Kir4.1 knockout mice. Renal clearance study showed that thiazide-induced natriuretic effect was larger in PD123319-treated mice for 4 days than untreated mice. However, this effect was absent in kidney-specific Kir4.1 knockout mice which were also Na wasting under basal conditions. Finally, application of AT2R antagonist decreased the renal ability of K excretion and caused hyperkalemia in wild-type but not in kidney-specific Kir4.1 knockout mice. We conclude that AT2R-dependent regulation of NCC requires Kir4.1 in the distal convoluted tubule and that AT2R plays a role in stimulating K excretion by inhibiting Kir4.1 and NCC. [ABSTRACT FROM AUTHOR]

Published
2018
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39. PGE2 inhibits basolateral 50 pS potassium channels in the thick ascending limb of the rat kidney.

Author

Gu, Ruimin, Jin, Yan, Zhai, Yuanyuan, Yang, Lei, Zhang, Chengbiao, Li, Wennan, Wang, lijun, Kong, Shumin, Zhang, Yunhong, Yang, Baofeng, and Wang, Wen-Hui

Subjects
*KIDNEY diseases, *RATS, *POTASSIUM channels, *EXTREMITIES (Anatomy), *MITOGEN-activated protein kinases
Abstract

To study the inhibition of the inwardly rectifying basolateral 50 pS potassium channels by PGE2 we performed patch-clamp studies on the basolateral membrane of the rat kidney thick ascending limb. PGE2's effect was mimicked by the selective EP1- and EP3-receptor agonist, sulprostone, but was prevented by inhibiting protein kinase-C with calphostin-C. The mitogen-activated protein kinase inhibitor PD98059 (ERK) or SB203580 (p38) increased basal channel activity; however, while neither alone prevented the inhibitory effect of PGE2, but using both of them together completely abolished PGE2's effect on channel activity. Treatment with PGE2 stimulated phosphorylation of both p38 and ERK in primary cultures of medullary thick ascending limb cells. The PGE2-mediated mitogen-activated protein kinase activation was not affected by indomethacin, but was completely blocked by calphostin-C. These studies show that inhibition of basolateral 50 pS potassium channels by PGE2 is mediated by protein kinase-C, which in turn stimulates mitogen-activated protein kinases in the thick ascending limb of the rat kidney.Kidney International (2008) 74, 478–485; doi:10.1038/ki.2008.198; published online 21 May 2008 [ABSTRACT FROM AUTHOR]

Published
2008
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40. In SituAssay of Interfacial Interaction between ZnO Nanoparticles and Live Cell Disturbed by Surfactants

Author

Xie, Qiting, Gu, Ruimin, Lin, Daohui, Liu, Na, Qu, Ruohua, and Ge, Fei

Abstract

The interfacial interaction between pollutants and organisms is a critical process in controlling the environmental fates of pollutants; however, in situassay of the interaction is still a great challenge. Here, in situdetermination of dissociation constants (Kd) for ZnO nanoparticles (ZnO NPs) from live algal cells disturbed by different-charged surfactants was established using microscale thermophoresis (MST). Moreover, in situmeasurement of the adhesion force between the ZnO NPs probe and live single cell was performed using an atomic force microscope (AFM). Results showed that the cationic cetyltrimethylammonium chloride (CTAC) and anionic sodium dodecylbenzenesulfonate (SDBS) increased but nonionic Triton X-100 (TX-100) decreased the adhesion of ZnO NPs on cells. However, the force signature exhibited a smooth single retracted peak at short distances in the SDBS- and TX-100-treated groups, distinguished from the “see-saw” pattern peak in the CTAC-treated groups. The extended Derjaguin–Landau–Verway–Overbeek (XDLVO) calculation further confirmed that SDBS and TX-100 mainly disturbed the short-range hydration on the NP–cell interface, while CTAC reduced the long-range electrostatic repulsion. Furthermore, an excellent linear correlation between Zn bioaccumulation and two parameters (Kdand adhesion force) indicated that NP–cell interfacial interactions affected Zn bioaccumulation. Thus, in situassay provides a quantitative basis for the pollutant–organism interfacial interaction to evaluate the environmental fate and ecological risk of pollutants.

Published
2022
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41. Stimulation of A2aadenosine receptor abolishes the inhibitory effect of arachidonic acid on the basolateral 50-pS K channel in the thick ascending limb

Author

Wang, Mingxiao, Sui, Hongyu, Li, Wennan, Wang, Jing, Liu, Yujie, Gu, Li, Wang, Wen-Hui, and Gu, Ruimin

Abstract

The basolateral 50-pS K channels are stimulated by a cAMP-dependent pathway and inhibited by cytochrome P-450-omega-hydroxylase-dependent metabolism of arachidonic acid (AA) in the rat thick ascending limb (TAL). We now used the patch-clamp technique to examine whether stimulation of adenosine A2areceptor modulates the inhibitory effect of AA on the basolateral 50-pS K channels in the medullary TAL. Stimulation of adenosine A2areceptor with CGS-21680 or inhibition of phospholipase A2(PLA2) with AACOCF3 increased the 50-pS K channel activity in the TAL. Western blot demonstrated that application of CGS-21680 decreased the phosphorylation of PLA2at serine residue 505, an indication of inhibiting PLA2activity. In the presence of CGS-21680, inhibition of PLA2had no further effect on the basolateral 50-pS K channels. The possibility that CGS-21680-induced stimulation of the basolateral 50-pS K channels was partially achieved by inhibition of PLA2in the TAL was also supported by the observation that CGS-21680 had no additional effect in the presence of AACOCF3. Moreover, stimulation of adenosine A2areceptor with CGS-21680 also abolished the inhibitory effect of AA and 20-hydroxyeicosatetraenoic acid (20-HETE) on the 50-pS K channels. The effect of CGS-21680 on AA and 20-HETE-mediated inhibition of the 50-pS K channels was mediated by cAMP because application of membrane-permeable cAMP analog, dibutyryl-cAMP, not only increased the 50-pS K channel activity but also abolished the inhibitory effect of AA and 20-HETE. We conclude that stimulation of adenosine A2areceptor increased the 50-pS K channel activity in the TAL, an effect that is achieved by suppression of PLA2activity and 20-HETE-induced inhibition.

Published
2011
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42. Protein-tyrosine Phosphatase Reduces the Number of Apical Small Conductance K+Channels in the Rat Cortical Collecting Duct*

Author

Wei, Yuan, Bloom, Peter, Gu, RuiMin, and Wang, WenHui

Abstract

Previous studies have demonstrated that an increase in the activity of protein-tyrosine kinase (PTK) is involved in the down-regulation of the activity of apical small conductance K+(SK) channels in the cortical collecting duct (CCD) from rats on a K+-deficient diet (1). We used the patch clamp technique to investigate the role of protein-tyrosine phosphatase (PTP) in the regulation of the activity of SK channels in the CCD from rats on a high K+diet. Western blot analysis indicated that PTP-1D is expressed in the renal cortex. Application of 1 μmphenylarsine oxide (PAO) or 1 mmbenzylphosphonic acid, agents that inhibit PTP, reversibly reduced channel activity by 95%. Pretreatment of CCDs with PAO for 30 min decreased the mean NPoreversibly from control value 3.20 to 0.40. Addition of 1 μmherbimycin A, an inhibitor of PTK, had no significant effect on channel activity in the CCDs from rats on a high K+diet. However, herbimycin A abolished the inhibitory effect of PAO, indicating that the effect of PAO is the result of interaction between PTK and PTP. Addition of brefeldin A, an agent that blocks protein trafficking from Golgi complex to the membrane, had no effect on channel activity. Moreover, application of colchicine, a microtubule inhibitor, or paclitaxel, a microtubule stabilizer, had no effect on channel activity. In contrast, PAO still reduced channel activity in the presence of brefeldin A, colchicine, or paclitaxel. Furthermore, the effect of PAO on channel activity was absent when the tubules were bathed in 16% sucrose-containing bath solution or treated with concanavalin A. We conclude that PTP is involved in the regulation of the activity of SK channels and that inhibition of PTP may facilitate the internalization of the SK channels.

Published
2000
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43. Stimulation of Ca2+-sensing receptor inhibits the basolateral 50-pS K channels in the thick ascending limb of rat kidney

Author

Kong, Shumin, Zhang, Chengbiao, Li, Wennan, Wang, Lijun, Luan, Haiyan, Wang, Wen-Hui, and Gu, Ruimin

Subjects
*CALCIUM, *POTASSIUM channels, *LABORATORY rats, *PHOSPHOLIPASE A2, *CYTOCHROME P-450, *ARACHIDONIC acid, *METABOLISM, *KIDNEY physiology
Abstract

Abstract: We used the patch-clamp technique to study the effect of changing the external Ca2+ on the basolateral 50-pS K channel in the thick ascending limb (TAL) of rat kidney. Increasing the external Ca2+ concentration from 1mM to 2 or 3mM inhibited the basolateral 50-pS K channels while decreasing external Ca2+ to 10μM increased the 50-pS K channel activity. The effect of the external Ca2+ on the 50-pS K channels was observed only in cell-attached patches but not in excised patches. Moreover, the inhibitory effect of increasing external Ca2+ on the 50-pS K channels was absent in the presence of NPS2390, an antagonist of Ca2+-sensing receptor (CaSR), suggesting that the inhibitory effect of the external Ca2+ was the result of stimulation of the CaSR. Application of the membrane-permeable cAMP analog increased the 50-pS K channel activity but did not block the effect of raising the external Ca2+ on the K channels. Neither inhibition of phospholipase A2 (PLA2) nor suppression of cytochrome P450-ω-hydroxylation-dependent metabolism of arachidonic acid was able to abolish the effect of raising the external Ca2+ on the 50-pS K channels. In contrast, inhibition of phospholipase C (PLC) or blocking protein kinase C (PKC) completely abolished the inhibition of the basolateral 50-pS K channels induced by raising the external Ca2+. We conclude that the external Ca2+ concentration plays an important role in the regulation of the basolateral K channel activity in the TAL and that the effect of the external Ca2+ is mediated by the CaSR which stimulates PLC–PKC pathways. The regulation of the basolateral K channels by the CaSR may be the mechanism by which extracellular Ca2+ level modulates the reabsorption of divalent cations. [Copyright &y& Elsevier]

Published
2012
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44. PGE2 inhibits basolateral 50 pS potassium channels in the thick ascending limb of the rat kidney.

Author

Gu R, Jin Y, Zhai Y, Yang L, Zhang C, Li W, Wang L, Kong S, Zhang Y, Yang B, Wang W, Gu, Ruimin, Jin, Yan, Zhai, Yuanyuan, Yang, Lei, Zhang, Chengbiao, Li, Wennan, Wang, Lijun, Kong, Shumin, and Zhang, Yunhong

Abstract

To study the inhibition of the inwardly rectifying basolateral 50 pS potassium channels by PGE(2) we performed patch-clamp studies on the basolateral membrane of the rat kidney thick ascending limb. PGE(2)'s effect was mimicked by the selective EP1- and EP3-receptor agonist, sulprostone, but was prevented by inhibiting protein kinase-C with calphostin-C. The mitogen-activated protein kinase inhibitor PD98059 (ERK) or SB203580 (p38) increased basal channel activity; however, while neither alone prevented the inhibitory effect of PGE(2), but using both of them together completely abolished PGE(2)'s effect on channel activity. Treatment with PGE(2) stimulated phosphorylation of both p38 and ERK in primary cultures of medullary thick ascending limb cells. The PGE(2)-mediated mitogen-activated protein kinase activation was not affected by indomethacin, but was completely blocked by calphostin-C. These studies show that inhibition of basolateral 50 pS potassium channels by PGE(2) is mediated by protein kinase-C, which in turn stimulates mitogen-activated protein kinases in the thick ascending limb of the rat kidney. [ABSTRACT FROM AUTHOR]

Published
2008
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45. Role of Kir4.1/Kir5.1 in mediating Angiotensin-II (Ang-II)-induced stimulation of thiazide-sensitive Na-Cl cotransporter.

Author

Duan XP, Meng XX, Xiao Y, Zhang CB, Gu R, Lin DH, and Wang WH

Abstract

Background: Angiotensin-II (Ang-II) perfusion stimulates Kir4.1/Kir5.1 in the distal-convoluted-tubule (DCT) and thiazide-sensitive Na-Cl-cotransporter (NCC). However, the role of Kir4.1/Kir5.1 in mediating the effect of Ang-II on NCC is not understood., Methods: We used immunoblotting and patch-clamp-experiments to examine whether Ang-II-induced stimulation of NCC is achieved by activation of Kir4.1/Kir5.1 of the DCT using kidney-renal-tubule-specific AT1aR-knockout (Ks-AT1aR-KO), Ks-Kir4.1-knockout and the corresponding wild-type mice., Results: Ang-II perfusion for 1, 3 and 7 days progressively increased phosphor-NCC (pNCC) and total-NCC (tNCC) expression and the effect of Ang-II-perfusion on pNCC and tNCC was abolished in Ks-AT1aR-KO. Ang-II perfusion for 1-day robustly stimulates Kir4.1/Kir5.1 in the late DCT (DCT2) and to a lesser degree in the early DCT (DCT1), an effect was absent in Ks-AT1aR-KO mice. However, Ang-II perfusion for 7-days did not further stimulate Kir4.1/Kir5.1 in the DCT2 and only modestly increased Kir4.1/Kir5.1-mediated K + currents in DCT1. Deletion of Kir4.1 not only significantly decreased the expression of pNCC and tNCC but also abolished the effect of 1-day Ang-II perfusion on the expression of phospho-with-no-lysine-kinase-4 (pWNK4), phosphor-ste-20-proline-alanine-rich-kinase (pSPAK), pNCC and tNCC. However, 7-days Ang-II perfusion was still able to significantly stimulate the expression of pSPAK, pWNK4, pNCC and tNCC, and increased thiazide-induced natriuresis in kidney-tubule-specific Kir4.1 knockout (Ks-Kir4.1 KO) mice without obvious changes in K + channel activity in the DCT., Conclusions: Short-term Ang-II induced stimulation of pWNK4, pSPAK and pNCC depends on Kir4.1/Kir5.1 activity. However, long-term Ang-II is able to directly stimulate pWNK4, pSPAK and pNCC by a Kir4.1/Kir5.1 independent mechanism.

Published
2024
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46. PGF 2α stimulates the 10-pS Cl - channel and thiazide-sensitive Na + -Cl - cotransporter in the distal convoluted tubule.

Author

Wang LJ, Xiao Y, Fang J, Wang JL, Zhang H, Meng XX, Gong RL, and Gu R

Subjects
Animals, Anion Transport Proteins genetics, Chloride Channels genetics, Female, Kidney Tubules, Distal drug effects, Male, Mice, Mice, Inbred C57BL, Oxytocics pharmacology, Patch-Clamp Techniques, Protein Kinase C genetics, Protein Kinase C metabolism, Receptors, Drug genetics, Sodium Chloride Symporters genetics, p38 Mitogen-Activated Protein Kinases genetics, p38 Mitogen-Activated Protein Kinases metabolism, Anion Transport Proteins metabolism, Chloride Channels metabolism, Dinoprost pharmacology, Gene Expression Regulation drug effects, Kidney Tubules, Distal metabolism, Receptors, Drug metabolism, Sodium Chloride Symporters metabolism
Abstract

We used patch-clamp and Western blot analysis to test whether PGF stimulates the basolateral 10-pS Cl - channel and thiazide-sensitive Na + -Cl - cotransporter (NCC) in the distal convoluted tubule (DCT) via a prostaglandin F receptor (FP-R). Single channel and whole cell recordings demonstrated that PGF stimulated the 10-pS Cl - channel in the DCT. The stimulatory effect of PGF on the Cl - channel was mimicked by a FP-R agonist, latanoprost, but was abrogated by blocking FP-R with AL8810. Also, the effect of PGF on the Cl - channel in the DCT was recapitulated by stimulating PKC but was blocked by inhibiting PKC. Furthermore, inhibition of p38 MAPK but not ERK blocked the effect of PGF on the 10-pS Cl - channel. Inhibition of NADPH oxidase also abrogated the stimulatory effect of PGF on the 10-pS Cl - channel, while the addition of 10 μM H 2 O 2 mimicked the stimulatory effect of PGF on the 10-pS Cl - channel. Moreover, superoxide-related species may mediate the stimulatory effect of PGF on the 10-pS Cl - channel because the stimulatory effect of PGF and H 2 O 2 was not additive. Western blot analysis showed that infusion of PGF in vivo not only increased the expression of FP-R but also increased the expression of total NCC and phosphorylated NCC. We conclude that PGF stimulates the basolateral 10-pS Cl - channel in the DCT by activating FP-R through PKC/p38 MAPK and NADPH oxidase-dependent pathways. The stimulatory effects of PGF on the Cl - channel and NCC may contribute to PGF -induced increases in NaCl reabsorption in the DCT.

Published
2020
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47. Disruption of KCNJ10 (Kir4.1) stimulates the expression of ENaC in the collecting duct.

Author

Su XT, Zhang C, Wang L, Gu R, Lin DH, and Wang WH

Subjects
Animals, Membrane Potentials, Mice, Up-Regulation, Epithelial Sodium Channels metabolism, Kidney Tubules, Collecting metabolism, Potassium Channels, Inwardly Rectifying metabolism
Abstract

Kcnj10 encodes the inwardly rectifying K(+) channel 4.1 (Kir4.1) and is expressed in the basolateral membrane of late thick ascending limb, distal convoluted tubule (DCT), connecting tubule (CNT), and cortical collecting duct (CCD). In the present study, we perform experiments in postneonatal day 9 Kcnj10(-/-) or wild-type mice to examine the role of Kir.4.1 in contributing to the basolateral K(+) conductance in the CNT and CCD, and to investigate whether the disruption of Kir4.1 upregulates the expression of the epithelial Na(+) channel (ENaC). Immunostaining shows that Kir4.1 is expressed in the basolateral membrane of CNT and CCD. Patch-clamp studies detect three types of K(+) channels (23, 40, and 60 pS) in the basolateral membrane of late CNT and initial CCD in wild-type (WT) mice. However, only 23- and 60-pS K(+) channels but not the 40-pS K(+) channel were detected in Kcnj10(-/-) mice, suggesting that Kir.4.1 is a key component of the 40-pS K(+) channel in the CNT/CCD. Moreover, the depletion of Kir.4.1 did not increase the probability of finding the 23- and 60-pS K(+) channel in the CNT/CCD. We next used the perforated whole cell recording to measure the K(+) reversal voltage in the CNT/CCD as an index of cell membrane potential. Under control conditions, the K(+) reversal potential was -69 mV in WT mice and -61 mV in Kcnj10(-/-) mice, suggesting that Kir4.1 partially participates in generating membrane potential in the CNT/CCD. Western blotting and immunostaining showed that the expression of ENaCβ and ENaCγ subunits from a renal medulla section of Kcnj10(-/-) mice was significantly increased compared with that of WT mice. Also, the disruption of Kir4.1 increased aquaporin 2 expression. We conclude that Kir4.1 is expressed in the CNT and CCD and partially participates in generating the cell membrane potential. Also, increased ENaC expression in medullary CD of Kcnj10(-/-) mice is a compensatory action in response to the impaired Na(+) transport in the DCT., (Copyright © 2016 the American Physiological Society.)

Published
2016
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48. Angiotensin II stimulates basolateral 50-pS K channels in the thick ascending limb.

Author

Wang M, Luan H, Wu P, Fan L, Wang L, Duan X, Zhang D, Wang WH, and Gu R

Subjects
Angiotensin II metabolism, Animals, NADPH Oxidases metabolism, Patch-Clamp Techniques methods, Protein Kinase C metabolism, Rats, Rats, Sprague-Dawley, Receptors, Angiotensin metabolism, Angiotensin II pharmacology, Extremities physiopathology, Potassium Channels metabolism
Abstract

We used the patch-clamp technique to examine the effect of angiotensin II (ANG II) on the basolateral K channels in the thick ascending limb (TAL) of the rat kidney. Application of ANG II increased the channel activity and the current amplitude of the basolateral 50-pS K channel. The stimulatory effect of ANG II on the K channels was completely abolished by losartan, an inhibitor of type 1 angiotensin receptor (AT1R), but not by PD123319, an AT2R antagonist. Moreover, inhibition of phospholipase C (PLC) and protein kinase C (PKC) also abrogated the stimulatory effect of ANG II on the basolateral K channels in the TAL. This suggests that the stimulatory effect of ANG II on the K channels was induced by activating PLC and PKC pathways. Western blotting demonstrated that ANG II increased the phosphorylation of c-Src at tyrosine residue 416, an indication of c-Src activation. This effect was mimicked by PKC stimulator but abolished by calphostin C. Moreover, inhibition of NADPH oxidase (NOX) also blocked the effect of ANG II on c-Src tyrosine phosphorylation. The role of Src-family protein tyrosine kinase (SFK) in mediating the effect of ANG II on the basolateral K channel was further suggested by the experiments in which inhibition of SFK abrogated the stimulatory effect of ANG II on the basolateral 50-pS K channel. We conclude that ANG II increases basolateral 50-pS K channel activity via AT1R and that activation of AT1R stimulates SFK by a PLC-PKC-NOX-dependent mechanism.

Published
2014
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49. Stimulation of A(₂a) adenosine receptor abolishes the inhibitory effect of arachidonic acid on the basolateral 50-pS K channel in the thick ascending limb.

Author

Wang M, Sui H, Li W, Wang J, Liu Y, Gu L, Wang WH, and Gu R

Subjects
Adenosine analogs & derivatives, Adenosine pharmacology, Adenosine A2 Receptor Agonists pharmacology, Animals, Arachidonic Acids pharmacology, Blotting, Western, Enzyme Inhibitors pharmacology, Female, Loop of Henle drug effects, Male, Membrane Potentials drug effects, Patch-Clamp Techniques, Phenethylamines pharmacology, Rats, Rats, Sprague-Dawley, Arachidonic Acid pharmacology, Loop of Henle metabolism, Potassium Channels metabolism, Receptor, Adenosine A2A metabolism
Abstract

The basolateral 50-pS K channels are stimulated by a cAMP-dependent pathway and inhibited by cytochrome P-450-omega-hydroxylase-dependent metabolism of arachidonic acid (AA) in the rat thick ascending limb (TAL). We now used the patch-clamp technique to examine whether stimulation of adenosine A(₂a) receptor modulates the inhibitory effect of AA on the basolateral 50-pS K channels in the medullary TAL. Stimulation of adenosine A(₂a) receptor with CGS-21680 or inhibition of phospholipase A₂ (PLA₂) with AACOCF3 increased the 50-pS K channel activity in the TAL. Western blot demonstrated that application of CGS-21680 decreased the phosphorylation of PLA(2) at serine residue 505, an indication of inhibiting PLA₂ activity. In the presence of CGS-21680, inhibition of PLA₂ had no further effect on the basolateral 50-pS K channels. The possibility that CGS-21680-induced stimulation of the basolateral 50-pS K channels was partially achieved by inhibition of PLA₂ in the TAL was also supported by the observation that CGS-21680 had no additional effect in the presence of AACOCF3. Moreover, stimulation of adenosine A(₂a) receptor with CGS-21680 also abolished the inhibitory effect of AA and 20-hydroxyeicosatetraenoic acid (20-HETE) on the 50-pS K channels. The effect of CGS-21680 on AA and 20-HETE-mediated inhibition of the 50-pS K channels was mediated by cAMP because application of membrane-permeable cAMP analog, dibutyryl-cAMP, not only increased the 50-pS K channel activity but also abolished the inhibitory effect of AA and 20-HETE. We conclude that stimulation of adenosine A(₂a) receptor increased the 50-pS K channel activity in the TAL, an effect that is achieved by suppression of PLA₂ activity and 20-HETE-induced inhibition.

Published
2011
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