Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P41181 (collecting duct)
5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proto-oncogene c-ros codes for a receptor-type protein tyrosine kinase (PTK) sharing high homology with the Drosophila sevenless protein. Recent studies of c-ros expression in mouse by in situ hybridization showed that c-ros was expressed specifically and transiently in the epithelial cells of late embryonic kidney collecting duct and intestine villi. Those investigators suggested that c-ros may play a role in the development of those organelles. In the present study, we have examined the expression profile of c-ros in chicken by RNAase protection and in situ hybridization with riboprobes. Our results showed that in addition to kidney and intestine, low levels of c-ros mRNA could also be detected in lung, testis, thymus and bursa. Expression of c-ros commences during middle to late embryonic stages in those organs and persists into the adult life. In situ hybridization revealed that expression of c-ros was restricted to the epithelial cells of all the tissues examined including kidney, intestine, bursa, thymus and testis. In kidney c-ros was detected in all the epithelial cells of the collecting ducts, in intestine it was detected in the epithelial cells of villi and the underneath crypts. Our finding of c-ros expression in chicken differs from those in mouse in (1) instead of transient expression during the embryonic stage, expression of c-ros in chicken kidney and intestine persists into the adult life and (2) expression of c-ros in renal collecting ducts is not restricted to its growing tips, instead it is expressed in the entire epithelial layer of the ducts. Our results suggest that c-ros may play a role not only in the initial induction events in the organogenesis, but also in the mature function of those organs.
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PMID:Tissue and epithelial cell-specific expression of chicken proto-oncogene c-ros in several organs suggests that it may play roles in their development and mature functions. 810 19

The apical small conductance (SK) channel plays a key role in K secretion in the cortical collecting duct (CCD). A high-K intake stimulates renal K secretion and involves a significant increase in the number of SK channels in the apical membrane of the CCD. We used the patch-clamp technique to examine the role of protein tyrosine kinase (PTK) in regulating the activity of SK channels in the CCD. The application of 100 microM genistein stimulated SK channels in 11 of 12 patches in CCDs from rats on a K-deficient diet, and the mean increase in NP(o), a product of channel number (N) and open probability (P(o)), was 2.5. In contrast, inhibition of PTK had no effect in tubules from animals on a high-K diet in all 10 experiments. Western blot analysis further shows that the level of cSrc, a nonreceptor type of PTK, is 261% higher in the kidneys from rats on a K-deficient diet than those on a high-K diet. However, the effect of cSrc was not the result of direct inhibition of channel itself, because addition of exogenous cSrc had no effect on SK channels in inside-out patches. In cell-attached patches, application of herbimycin A increased channel activity in 14 of 16 patches, and the mean increase in NP(o) was 2.4 in tubules from rats on a K-deficient diet. In contrast, herbimycin A had no effect on channel activity in any of 15 tubules from rats on a high-K diet. Furthermore, herbimycin A pretreatment increased NP(o) per patch from the control value (0.4) to 2.25 in CCDs from rats on a K-deficient diet, whereas herbimycin failed to increase channel activity (NP(o): control, 3.10; herbimycin A, 3.25) in the CCDs from animals on a high-K diet. We conclude that PTK is involved in regulating the number of apical SK channels in the kidney.
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PMID:Protein tyrosine kinase regulates the number of renal secretory K channels. 1064 68

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 microM herbimycin A increased NP(o), a product of channel number (N) and open probability (P(o)) in the CCD from rats on a normal diet or on a KD diet. The increase in NP(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 NP(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 1 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 NP(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.
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PMID:Effect of dietary K intake on apical small-conductance K channel in CCD: role of protein tyrosine kinase. 1145 12

We have previously demonstrated that inhibiting protein tyrosine kinase (PTK) and stimulating protein kinase A (PKA) increase the activity of the small-conductance K (SK) channel in the cortical collecting duct (CCD) of rat kidneys (Cassola AC, Giebisch G, and Wang WH. Am J Physiol Renal Fluid Electrolyte Physiol 264: F502-F509, 1993; Wang WH, Lerea KM, Chan M, and Giebisch G. Am J Physiol Renal Physiol 278: F165-F171, 2000). In the present study, we used the patch-clamp technique to study the role of the cytoskeleton in mediating the effect of herbimycin A, an inhibitor of PTK, and vasopressin on the SK channels in the CCD. The addition of colchicine, an inhibitor of microtubule assembly, or taxol, an agent that blocks microtubule reconstruction, had no significant effect on channel activity. However, colchicine and taxol treatment completely abolished the stimulatory effect of herbimycin A on the SK channels in the CCD. Removal of the microtubule inhibitors restored the stimulatory effect of herbimycin A. In contrast, treatment of the tubules with either taxol or colchicine did not block the stimulatory effect of vasopressin on the SK channels. Moreover, the effect of herbimycin A on the SK channels was also absent in the CCDs treated with either cytochalasin D or phalloidin. In contrast, the stimulatory effect of vasopressin was still observed in the tubules treated with phalloidin. However, cytochalasin D treatment abolished the effect of vasopressin on the SK channels. Finally, the effects of vasopressin and herbimycin A are additive because inhibiting PTK can still increase the channel activity in CCD that has been challenged by vasopressin. We conclude that an intact cytoskeleton is required for the effect on the SK channels of inhibiting PTK and that the SK channels that are activated by inhibiting PTK were differently regulated from those stimulated by vasopressin.
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PMID:Role of the cytoskeleton in mediating effect of vasopressin and herbimycin A on secretory K channels in CCD. 1188 Mar 29

Renal outer medulla K (ROMK) channels play an important role in K recycling in the thick ascending limb and in K secretion in the cortical collecting duct. ROMK1, a member of the ROMK family, has been shown to be a substrate for protein tyrosine kinase (PTK). The tyrosine phosphorylation of ROMK channels increases with low dietary K intake and decreases with high dietary K intake. Moreover, the stimulation of tyrosine phosphorylation of ROMK1 channels decreases the number of K channels by facilitating endocytosis. In contrast, the stimulation of tyrosine dephosphorylation increases the number of ROMK1 channels in the cell membrane by enhancing membrane insertion. PTK and tyrosine phosphatase-induced regulation of ROMK1 channels play a key role in mediating the effect of the dietary K intake on renal K secretion.
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PMID:Regulation of ROMK channels by protein tyrosine kinase and tyrosine phosphatase. 1200 40

Extracellular K must be kept within a narrow concentration range for the normal function of neurons, skeletal muscle, and cardiac myocytes. Maintenance of normal plasma K is achieved by a dual mechanism that includes extrarenal factors such as insulin and beta-adrenergic agonists, which stimulate the movement of K from extracellular to intracellular fluid and modulate renal K excretion. Dietary K intake is an important factor for the regulation of K secretion: An increase in K intake stimulates secretion, whereas a decrease inhibits K secretion and enhances absorption. This effect of changes in dietary K intake on tubule K transport is mediated by aldosterone-dependent and -independent mechanisms. Recently, it has been demonstrated that the protein tyrosine kinase (PTK)-dependent signal transduction pathway is an important aldosterone-independent regulatory mechanism that mediates the effect of altered K intake on K secretion. A low-K intake stimulates PTK activity, which leads to increase in phosphorylation of cloned inwardly rectifying renal K (ROMK) channels, whereas a high-K intake has the opposite effect. Stimulation of tyrosine phosphorylation also suppresses K secretion in principal cell by facilitating the internalization of apical K channels in the collecting duct.
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PMID:Regulation of renal K transport by dietary K intake. 1497 13

We have used Western blot analysis and immunocytochemistry to determine the effect of dietary K intake on the expression of protein kinase C (PKC) isoforms in the kidney. Western blot has demonstrated that conventional PKC isoforms (alpha and beta), novel PKC isoforms (delta, epsilon, and eta), and atypical PKC isoforms (zeta) are expressed in the renal cortex and outer medulla. Moreover, a low K intake significantly increases the expression of PKC-epsilon in the renal cortex and outer medulla but does not change the expression of PKC-alpha, PKC-beta, PKC-delta, PKC-eta, and PKC-zeta. Also, immunocytochemistry shows that PKC-epsilon isoform is expressed in the cortical collecting duct (CCD) and outer medullary collecting duct (OMCD) and that the intensity of PKC-epsilon staining is higher in the kidney from rats on a K-deficient diet than those on a control diet. Also, we used the patch-clamp technique to study the role of PKC in mediating internalization of ROMK (Kir 1.1)-like small-conductance K (SK) channels induced by phenylarsine oxide (PAO), an agent that inhibits protein tyrosine phosphatase and has been shown to stimulate the internalization of the SK channel in the CCD (Sterling H, Lin DH, Qu RM, Dong K, Herbert SC, and Wang WH. J Biol Chem 277: 4317-4323, 2002). Inhibition of PKC with calphostin C and GF-109203x had no significant effect on channel activity but abolished the inhibitory effect of PAO on SK channels. In conclusion, a low K intake increases the expression of PKC-epsilon isoform in the renal cortex and outer medulla, and PKC is involved in mediating the internalization of SK channels in the CCD induced by stimulation of protein tyrosine kinase activity.
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PMID:PKC expression is regulated by dietary K intake and mediates internalization of SK channels in the CCD. 1513 Aug 98

We previously demonstrated that low K intake stimulated the expression of c-Src and that stimulation of protein tyrosine kinase inhibited ROMK channel activity (Wei, Y., Bloom, P., Lin, D. H., Gu, R. M., and Wang, W. H. (2001) Am. J. Physiol. 281, F206-F212). Decreases in dietary K content significantly increased O(2)(-) levels and the phosphorylation of c-Jun, a transcription factor, in renal cortex and outer medulla. The role of O(2)(-) and related products such as H(2)O(2) in stimulating the expression of protein tyrosine kinase is suggested by the observation that addition of 50-200 microm H(2)O(2) increased the phosphorylation of c-Jun and the expression of c-Src in M1 cells, a mouse collecting duct principal cell line. The effect of H(2)O(2) on c-Src expression was completely abolished with cyclohexamide or actinomycin D. The treatment of animals on a K-deficient (KD) diet with tempol for 7 days significantly decreased the production of O(2)(-), c-Jun phosphorylation, and c-Src expression. Moreover, low K intake decreased the activity of ROMK-like small conductance channels from 1.37 (control K diet) to 0.5 in the cortical collecting duct and increased the tyrosine phosphorylation of ROMK in the renal cortex and outer medulla. In contrast, the tempol treatment not only increased channel activity to 1.1 in the cortical collecting duct but also decreased the tyrosine phosphorylation of ROMK from rats on a KD diet. Finally, suppressing O(2)(-) production with tempol significantly increased renal K excretion measured with metabolic cage and lowered the plasma K concentration in comparison with those on a KD diet alone without tempol. We conclude that O(2)(-) and related products play a role in mediating the effect of low K intake on c-Src expression and in suppressing ROMK channel activity and renal K secretion.
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PMID:Superoxide anions are involved in mediating the effect of low K intake on c-Src expression and renal K secretion in the cortical collecting duct. 1564 19

Dietary K intake plays an important role in the regulation of K secretion: a decrease stimulates and an increase suppresses kidney expression of protein tyrosine kinase (PTK), which plays a role in regulating Kir1.1 (ROMK), which is responsible for K secretion in the cortical collecting duct (CCD) and K recycling in the thick ascending limb. Tyrosine phosphorylation of ROMK channels increases with low dietary K and decreases with high dietary K. Moreover, stimulation of tyrosine phosphorylation of ROMK1 enhances ROMK1 internalization and reduces the K channel number in the cell surface in the CCD.
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PMID:The protein tyrosine kinase-dependent pathway mediates the effect of K intake on renal K secretion. 1577 3

We used Western blotting to examine the expression of phosphatidylinositol 3-kinase (PI3K) in the renal cortex and outer medulla and employed the patch-clamp technique to study the effect of PI3K on the ROMK-like small-conductance K (SK) channels in the cortical collecting duct (CCD). Low K intake increased the expression of the 110-kDa alpha-subunit (p110alpha) of PI3K compared with rats on a normal-K diet. Because low K intake increases superoxide levels (2), the possibility that increases in superoxide anions may be responsible for the effect of low K intake on the expression of PI3K is supported by finding that addition of H(2)O(2) stimulates the expression of p110alpha in M1 cells. Inhibition of PI3K with either wortmannin or LY-294002 significantly increased channel activity in the CCD from rats on a K-deficient (KD) diet or on a normal-K diet. The stimulatory effect of wortmannin on ROMK channel activity cannot be mimicked by inhibition of phospholipase C with U-73122. This suggests that the effect of inhibiting PI3K was not the result of increasing the phosphatidylinositol 4,5-bisphosphate level. Moreover, application of the exogenous phosphatidylinositol 3,4,5-trisphosphate analog had no effect on channel activity in excised patches. Because low K intake has been shown to increase the activity of protein tyrosine kinase (PTK), we explored the role of the interaction between PTK and PI3K in the regulation of the SK channel activity. Inhibition of PTK increased SK channel activity in the CCD from rats on a KD diet. However, addition of wortmannin did not further increase ROMK channel activity. Also, the effect of wortmannin was abolished by treatment of CCD with phalloidin. We conclude that PI3K is involved in mediating the effect of low K intake on ROMK channel activity in the CCD and that the effect of PI3K on SK channels requires the involvement of PTK and the cytoskeleton.
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PMID:Inhibition of phosphatidylinositol 3-kinase stimulates activity of the small-conductance K channel in the CCD. 1620 6


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