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81.
Molecular requirements for the regulation of the renal outer medullary K(+) channel ROMK1 by the serum- and glucocorticoid-inducible kinase SGK1 总被引:3,自引:0,他引:3
Palmada M Embark HM Yun C Böhmer C Lang F 《Biochemical and biophysical research communications》2003,311(3):629-634
The serum- and glucocorticoid- inducible kinase SGK1 stimulates the renal outer medullary K(+) channel ROMK1 in the presence of the Na(+)/H(+) exchanger regulating factor NHERF2. SGK1/NHERF2 are effective through enhancement of ROMK1 abundance within the cell membrane. The present study aims to define the molecular requirements for the interaction of ROMK1 with SGK1/NHERF2. Pull down assays reveal that SGK1 interacts with NHERF2 through the second PDZ domain of NHERF2. According to chemiluminescence and electrophysiology, deletion of the second PDZ domain of NHERF2 or the putative PDZ binding motif on ROMK1 abrogates the stimulating effect of SGK1 on ROMK1 protein abundance in the plasma membrane and K(+) current. 相似文献
82.
Tatarkiewicz K López-Avalos MD Yoon KH Trivedi N Quickel RR Bonner-Weir S Weir GC 《Development, growth & differentiation》2003,45(1):39-50
To learn more about the potential of neonatal porcine pancreatic duct and islet cells for xenotransplantation, the development of these cells when cultured as monolayers was evaluated. Immunostaining for islet hormones and cytokeratin-7 revealed that day eight monolayers consisted of approximately 70% duct cells and less than 10% beta cells. Using Ki-67 immunostaining as a proliferation marker, the fraction of beta cells in the cell cycle was shown to decrease from 20% at day three to 10% at day eight, and for duct cells from 36 to 19%. Insulin secretion increased 2.4-fold upon glucose stimulation, and 38-fold when 10 mm theophylline was added, showing the responsiveness of the neonatal beta cells. Reaggregated monolayers consisted mostly of duct cells, but 4 weeks after transplantation, grafts contained predominantly endocrine cells, with duct cells being almost absent, suggesting in vivo differentiation of duct cells to endocrine cells. Monolayer susceptibility to retroviral transduction was also investigated using a Moloney Murine Leukemia Virus-based vector. Approximately 60% of duct cells but less than 5% of beta cells expressed the transgene, indicating that precursor duct cells are better targets for transgene expression. These results show that porcine neonatal pancreatic cells can be cultured as monolayers in preparation for transplantation. Furthermore, in such a culture setting, precursor duct cells have a high rate of proliferation and are more efficiently transduced with a retrovirus-based reporter gene than are beta cells. 相似文献
83.
Bile acids have been reported to produce relaxation of smooth muscle both in vitro and in vivo. The cellular mechanisms underlying bile acid-induced relaxation are largely unknown. Here we demonstrate, using patch-clamp techniques, that natural bile acids and synthetic analogues reversibly increase BK(Ca) channel activity in rabbit mesenteric artery smooth muscle cells. In excised inside-out patches bile acid-induced increases in channel activity are characterized by a parallel leftward shift in the activity-voltage relationship. This increase in BK(Ca) channel activity is not due to Ca(2+)-dependent mechanism(s) or changes in freely diffusible messengers, but to a direct action of the bile acid on the channel protein itself or some closely associated component in the cell membrane. For naturally occurring bile acids, the magnitude of bile acid-induced increase in BK(Ca) channel activity is inversely related to the number of hydroxyl groups in the bile acid molecule. By using synthetic analogues, we demonstrate that such increase in activity is not affected by several chemical modifications in the lateral chain of the molecule, but is markedly favored by polar groups in the side of the steroid rings opposite to the side where the methyl groups are located, which stresses the importance of the planar polarity of the molecule. Bile acid-induced increases in BK(Ca) channel activity are also observed in smooth muscle cells freshly dissociated from rabbit main pulmonary artery and gallbladder, raising the possibility that a direct activation of BK(Ca) channels by these planar steroids is a widespread phenomenon in many smooth muscle cell types. Bile acid concentrations that increase BK(Ca) channel activity in mesenteric artery smooth muscle cells are found in the systemic circulation under a variety of human pathophysiological conditions, and their ability to enhance BK(Ca) channel activity may explain their relaxing effect on smooth muscle. 相似文献
84.
85.
Bile acids are generated in vivo from cholesterol in the liver, and they undergo an enterohepatic circulation involving the small intestine, liver, and kidney. To understand the molecular mechanism of this transportation, it is essential to gain insight into the three-dimensional (3D) structures of proteins involved in the bile acid recycling in free and complexed form and to compare them with homologous members of this protein family. Here we report the solution structure of the human ileal lipid-binding protein (ILBP) in free form and in complex with cholyltaurine. Both structures are compared with a previously published structure of the porcine ILBP-cholylglycine complex and with related lipid-binding proteins. Protein structures were determined in solution by using two-dimensional (2D)- and 3D-homo and heteronuclear NMR techniques, leading to an almost complete resonance assignment and a significant number of distance constraints for distance geometry and restrained molecular dynamics simulations. The identification of several intermolecular distance constraints unambiguously determines the cholyltaurine-binding site. The bile acid is deeply buried within ILBP with its flexible side-chain situated close to the fatty acid portal as entry region into the inner ILBP core. This binding mode differs significantly from the orientation of cholylglycine in porcine ILBP. A detailed analysis using the GRID/CPCA strategy reveals differences in favorable interactions between protein-binding sites and potential ligands. This characterization will allow for the rational design of potential inhibitors for this relevant system. 相似文献
86.
We have used computer modeling to investigate how pancreatic duct cells can secrete a fluid containing near isotonic (∼140
mm) NaHCO3. Experimental data suggest that NaHCO3 secretion occurs in three steps: (i) accumulation of HCO−
3 across the basolateral membrane of the duct cell by Na(HCO3)
n
cotransporters, Na+/H+ exchangers and proton pumps; (ii) secretion of HCO−
3 across the luminal membrane on Cl−/HCO−
3 antiporters operating in parallel with Cl− channels; and (iii) diffusion of Na+ through the paracellular pathway. Programming the currently available experimental data into our computer model shows that
this mechanism for HCO−
3 secretion is deficient in one important respect. While it can produce a relatively large volume of a HCO−
3-rich fluid, it can only raise the luminal HCO−
3 concentration up to about 70 mm. To achieve secretion of 140 mm NaHCO3 by the model it is necessary to: (i) reduce the conductive Cl− permeability and increase the conductive HCO−
3 permeability of the luminal membrane of the duct cell, and (ii) reduce the activity of the luminal Cl−/HCO−
3 antiporters. Under these conditions most of the HCO−
3 is secreted via a conductive pathway. Based on our data, we propose that HCO−
3 secretion occurs mainly by the antiporter in duct segments near the acini (luminal HCO−
3 concentration up to ∼70 mm), but mainly via channels further down the ductal tree (raising luminal HCO−
3 to ∼140 mm).
Received: 15 November 1999/Revised: 29 March 2000 相似文献
87.
Terzyan S Wang CS Downs D Hunter B Zhang XC 《Protein science : a publication of the Protein Society》2000,9(9):1783-1790
Bile-salt activated lipase (BAL) is a pancreatic enzyme that digests a variety of lipids in the small intestine. A distinct property of BAL is its dependency on bile salts in hydrolyzing substrates of long acyl chains or bulky alcoholic motifs. A crystal structure of the catalytic domain of human BAL (residues 1-538) with two surface mutations (N186D and A298D), which were introduced in attempting to facilitate crystallization, has been determined at 2.3 A resolution. The crystal form belongs to space group P2(1)2(1)2(1) with one monomer per asymmetric unit, and the protein shows an alpha/beta hydrolase fold. In the absence of bound bile salt molecules, the protein possesses a preformed catalytic triad and a functional oxyanion hole. Several surface loops around the active site are mobile, including two loops potentially involved in substrate binding (residues 115-125 and 270-285). 相似文献
88.
Malcolm Alison 《Current opinion in cell biology》1998,10(6):710-715
Hepatocytes and biliary epithelia are phenotypically very dissimilar, but share a common ancestry. Hepatocytes regenerate very efficiently, and their division potential indicates that many of them are functional stem cells. When hepatocyte-damaging agents also impair the regenerative ability of surviving hepatocytes, a potential stem cell system of biliary origin is activated to generate new hepatocytes — a reversal of ontogeny. Now both bile duct derived cells and hepatocytes can be isolated from the liver, genetically modified in vitro and returned to their in vivo origins where, after considerable population expansion, they can function as hepatocytes — paving the way for ex vivo gene therapy. 相似文献
89.
Tak Yee Aw 《Free radical research》1998,28(6):637-646
It has long been recognized that hydroperoxides are agents of cytotoxicity. However, in recent years, it is increasingly apparent that lipid hydroperoxide may play an important role in mediating cellular and molecular events in degenerative pathophysiological processes that lead to intestinal disorders, such as cancer. Yet, surprisingly, little is known of the intestinal disposition of peroxidized lipids and of the metabolic factors that determine mucosal peroxide elimination. The present paper summarizes the evidence for the pivotal role of reductant (GSH and NADPH) availability in intestinal peroxide detoxication. This information will provide important insights into the relationship between luminal lipid hydroperoxides and intestinal GSH redox homeostasis, and is pertinent to understanding how dietary oxidants like lipid peroxides, can impact intestinal integrity with implications for genesis of gut pathology. 相似文献
90.
Satoru Fukiya Miki Arata Hiroko Kawashima Daisuke Yoshida Maki Kaneko Kimiko Minamida Jun Watanabe Yoshio Ogura Kiyohisa Uchida Kikuji Itoh Masaru Wada Susumu Ito & Atsushi Yokota 《FEMS microbiology letters》2009,293(2):263-270
Secondary bile acid-producing bacteria were isolated from human feces to improve our appreciation of the functional diversity and redundancy of the intestinal microbiota. In total, 619 bacterial colonies were isolated using a nutrient-poor agar medium and the level of secondary bile acid formation was examined in each by a liquid culture, followed by thin-layer chromatography. Of five strains analyzed by 16S rRNA gene sequencing and biochemical testing, one was identified as Bacteroides intestinalis AM-1, which was not previously recognized as a secondary bile-acid producer. GC-MS revealed that B. intestinalis AM-1 converts cholic acid (CA) and chenodeoxycholic acid into their 7-oxo derivatives, 7-oxo-deoxycholic acid (7-oxo-DCA) and 7-oxo-lithocholic acid, respectively. Thus, B. intestinalis AM-1 possesses 7α-hydroxysteroid dehydrogenase (7α-HSDH) activity. In liquid culture, B. intestinalis AM-1 showed a relatively higher productivity of 7-oxo-DCA than Escherichia coli HB101 and Bacteroides fragilis JCM11019T , which are known to possess 7α-HSDH activity. The level of 7α-HSDH activity was higher in B. intestinalis AM-1 than in the other two strains under the conditions tested. The 7α-HSDH activity in each of the three strains is not induced by CA; instead, it is regulated in a growth phase-dependent manner. 相似文献