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161.
Bagorda A Guerra L Di Sole F Hemle-Kolb C Cardone RA Fanelli T Reshkin SJ Gisler SM Murer H Casavola V 《The Journal of biological chemistry》2002,277(24):21480-21488
Although Cystic fibrosis transmembrane conductance regulator (CFTR) has been shown to regulate the activity of NHE3, the potential reciprocal interaction of NHE3 to modulate the protein kinase A (PKA)-dependent regulation of CFTR in epithelial cells is still unknown. In the present work, we describe experiments to define the interactions between CFTR and NHE3 with the regulatory, scaffolding protein, NHERF that organize their PKA-dependent regulation in a renal epithelial cell line that expresses endogenous CFTR. The expression of rat NHE3 significantly decreased PKA-dependent activation of CFTR without altering CFTR expression, and this decrease was prevented by mutation of either of the two rat NHE3 PKA target serines to alanine (S552A or S605A). Inhibition of CFTR expression by antisense treatment resulted in an acute decrease in PKA-dependent regulation of NHE3 activity. CFTR, NHE3, and ezrin were recognized by NHERF-2 but not NHERF-1 in glutathione S-transferase pull-down experiments. Ezrin may function as a protein kinase A anchoring protein (AKAP) in this signaling complex, because blocking the binding of PKA to an AKAP by incubation with the S-Ht31 peptide inhibited the PKA-dependent regulation of CFTR in the absence of NHE3. In the A6-NHE3 cells S-Ht31 blocked the PKA regulation of NHE3 whereas it now failed to affect the regulation of CFTR. We conclude that CFTR and NHE3 reciprocally interact via a shared regulatory complex comprised of NHERF-2, ezrin, and PKA. 相似文献
162.
Na+-dependent phosphate transporters in the murine osteoclast: cellular distribution and protein interactions 总被引:1,自引:0,他引:1
Khadeer MA Tang Z Tenenhouse HS Eiden MV Murer H Hernando N Weinman EJ Chellaiah MA Gupta A 《American journal of physiology. Cell physiology》2003,284(6):C1633-C1644
Wepreviously demonstrated that inhibition of Na-dependent phosphate(Pi) transport in osteoclasts led to reduced ATP levels anddiminished bone resorption. These findings suggested that Na/Pi cotransporters in the osteoclast plasma membraneprovide Pi for ATP synthesis and that the osteoclast mayutilize part of the Pi released from bone resorption forthis purpose. The present study was undertaken to define the cellularlocalization of Na/Pi cotransporters in the mouseosteoclast and to identify the proteins with which they interact. Usingglutathione S-transferase (GST) fusion constructs, wedemonstrate that the type IIa Na/Pi cotransporter (Npt2a)in osteoclast lysates interacts with the Na/H exchanger regulatoryfactor, NHERF-1, a PDZ protein that is essential for the regulation ofvarious membrane transporters. In addition, NHERF-1 in osteoclastlysates interacts with Npt2a in spite of deletion of a putativePDZ-binding domain within the carboxy terminus of Npt2a. In contrast,deletion of the carboxy-terminal TRL amino acid motif of Npt2asignificantly reduced its interaction with NHERF-1 in kidney lysates.Studies in osteoclasts transfected with green fluorescent protein-Npt2aconstructs indicated that Npt2a colocalizes with NHERF-1 and actin ator near the plasma membrane of the osteoclast and associates withezrin, a linker protein associated with the actin cytoskeleton, likelyvia NHERF-1. Furthermore, we demonstrate by RT/PCR of osteoclast RNAand in situ hybridization that the type III Na/Picotransporter, PiT-1, is also expressed in mouse osteoclasts. Toexamine the cellular distribution of PiT-1, we infected mouseosteoclasts with a retroviral vector encoding PiT-1 fused to an epitopetag. PiT-1 colocalizes with actin and is present on the basolateralmembrane of the polarized osteoclast, similar to that previouslyreported for Npt2a. Taken together, our data suggest that associationof Npt2a with NHERF-1, ezrin, and actin, and of PiT-1 with actin, maybe responsible for membrane sorting and regulation of theseNa/Pi cotransporters in the osteoclast. 相似文献
163.
Cytosolic glutathione (GSH) transferases (GSTs) exist as stable homo- and heterodimers. Interactions at the subunit interface serve an important role in stabilizing the subunit tertiary structures of all GSH transferases. In addition, the dimer is required to maintain functional conformations at the active site on each subunit and the nonsubstrate ligand binding site at the dimer interface [Dirr, H. W. (2001) Chem.-Biol. Interact. 133, 19-23]. In this study, we report on the contribution of a specific intersubunit hydrophobic motif in rGSTM1-1 to dimer stability and protein function. The motif consists of the side chain of F56 from one subunit intercalated between helices 4 and 5 of the second subunit. Replacement of F56 with the hydrophilic side chains of serine, arginine, and glutamate results in a change in the structure of the active site, a marked diminution in catalytic efficiency, and alterations in the ability to bind nonsubstrate ligands. The mutations also affect the ability of the enzyme to bind GSH and the substrate analogue glutathione sulfonate. The functionality of rGSTM1-1 was disrupted to the greatest extent for the F56E mutant. Though mutations at this position do not alter the three-state equilibrium folding process for rGSTM1-1 (i.e., N(2) <--> 2I <--> 2U), destabilizing mutations at position 56 shift the equilibrium between the folded dimer (N(2)) and the monomeric intermediate (I) toward the latter conformational state. The transition to the unfolded state (U) is not significantly affected. The folded monomeric intermediate is also observed by electrospray ionization mass spectrometry. The amount of the intermediate is dependent on protein concentration and the residue at position 56. Mutations at position 56 have little impact on the secondary structure and stability of the monomeric folding intermediate. The dimerization process is proposed to induce a conformational change in the loop containing F56, resulting in improved stability and increased affinity between the M1 subunits. 相似文献
164.
Impact of domain interchange on conformational stability and equilibrium folding of chimeric class micro glutathione transferases
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Luo JK Hornby JA Wallace LA Chen J Armstrong RN Dirr HW 《Protein science : a publication of the Protein Society》2002,11(9):2208-2217
Rat micro class glutathione transferases M1-1 and M2-2 are homodimers that share a 78% sequence identity but display differences in stability. M1-1 is more stable at the secondary and tertiary structural levels, whereas its quaternary structure is less stable. Each subunit in these proteins consists of two structurally distinct domains with intersubunit contacts occurring between domain 1 of one subunit and domain 2 of the other subunit. The chimeric subunit variants M(12), which has domain 1 of M1 and domain 2 of M2, and its complement M(21), were used to investigate the conformational stability of the chimeric homodimers M(12)-(12) and M(21)-(21) to determine the contribution of each domain toward stability. Exchanging entire domains between class micro GSTs is accommodated by the GST fold. Urea-induced equilibrium unfolding data indicate that whereas the class micro equilibrium unfolding mechanism (i.e., N(2) <--> 2I <--> 2U) is not altered, domain exchanges impact significantly on the conformational stability of the native dimers and monomeric folding intermediates. Data for the wild-type and chimeric proteins indicate that the order of stability for the native dimer (N(2)) is M2-2 > M(12)-(12) M1-1 approximately M(21)-(21), and that the order of stability of the monomeric intermediate (I) is M1 > M2 approximately M(12) > M(21). Interactions involving Arg 77, which is topologically conserved in GSTs, appear to play an important role in the stability of both the native dimeric and folding monomeric structures. 相似文献
165.
Murer H Köhler K Lambert G Stange G Biber J Forster I 《Cell biochemistry and biophysics》2002,36(2-3):215-220
The type IIa Na/Pi cotransporter mediates proximal tubular brush-border membrane secondary active phosphate (Pi) flux. It is rate limiting in tubular Pi reabsorption and, thus, a final target in many physiological and pathophysiological situations of altered renal Pi handling (1–4). In the present short review, we will briefly summarize our current knowledge about the transport mechanism (cycle) as well
as particular regions of the transporter protein (“molecular domains”) that potentially determine transport characteristics. 相似文献
166.
Family studies have demonstrated striking differences between individuals in their ability to produce IL-10 following lipopolysaccharide (LPS) stimulation of whole blood cultures in vitro, suggesting that differences in IL-10 production involve a considerable hereditary component. The first aim of this study was to analyse the possible effect of IL-10 genotypes and haplotypes on IL-10 plasma levels in a healthy Finnish population. As previous reports have demonstrated that endogenously produced IL-1 induces LPS-stimulated IL-10 production and that IL-10 inhibits synthesis of IL-1 in human monocytes, it is apparent that these two cytokines form an autoregulatory feedback loop. Secondly, we were interested whether any relationship could be found between IL-10 and IL-1beta in vivo. To examine this, the influence of IL-1alpha -889, IL-1beta -511 and IL-1Ra VNTR genotypes and IL-10 genotypes/haplotypes (ACC, GCC and ATA) on IL-10 plasma levels, and a putative correlation between IL-10 and IL-1alpha plasma levels were analysed. Four hundred adult blood samples were obtained from the Finnish Red Cross Blood Transfusion Centre, Tampere. The IL-10, IL-1alpha, IL-1beta and IL-1Ra gene polymorphisms were analysed using PCR. IL-1beta and IL-10 plasma levels were measured using an ELISA method. Our results indicated that increased IL-10 plasma levels were associated with the ATA haplotype (p = 0.03) and, surprisingly, with the IL-1alpha allele 2 carrier status (p = 0.02) in healthy individuals. This IL-1alpha 2+/ATA+ combination was found in 93 subjects out of 400 analysed (23%) and was associated with significantly high IL-10 plasma levels (p = 0.002). When individuals were classified into three groups, with no detectable IL-10 plasma levels (n = 145), with moderate levels (n = 152) and with high levels (n = 100) of IL-10, the IL-1alpha2+/ATA+ combination was more likely present among those with high levels than among those with undetectable levels of IL-10 (OR = 3.3, 95% CI 1.8 - 6.0, p < 0.001) or those with moderate levels of IL-10 (OR = 2.0, 95% CI 1.2 - 3.6, p = 0.012). Besides the observed association between IL-1alpha genotype and IL-10 levels, a moderate correlation was found between IL-10 and IL-1beta levels (r = 0.6, p = 0.01) among IL-10 producers (n = 252). The present findings suggest that the genotype combination of IL-1alpha 2+/ATA+ has a regulatory effect on basal IL-10 levels and that among individuals with measurable IL-10 plasma levels, IL-1beta and IL-10 basal levels correlate. Until now, data on the feedback loop between IL-1 and IL-10 cytokines have been based on studies in vitro, but now our results suggest that this relationship may also exist in vivo. 相似文献
167.
Deciphering PiT transport kinetics and substrate specificity using electrophysiology and flux measurements 总被引:2,自引:0,他引:2
Ravera S Virkki LV Murer H Forster IC 《American journal of physiology. Cell physiology》2007,293(2):C606-C620
Members of the SLC20 family or type III Na+-coupled Pi cotransporters (PiT-1, PiT-2) are ubiquitously expressed in mammalian tissue and are thought to perform a housekeeping function for intracellular Pi homeostasis. Previous studies have shown that PiT-1 and PiT-2 mediate electrogenic Pi cotransport when expressed in Xenopus oocytes, but only limited kinetic characterizations were made. To address this shortcoming, we performed a detailed analysis of SLC20 transport function. Three SLC20 clones (Xenopus PiT-1, human PiT-1, and human PiT-2) were expressed in Xenopus oocytes. Each clone gave robust Na+-dependent 32Pi uptake, but only Xenopus PiT-1 showed sufficient activity for complete kinetic characterization by using two-electrode voltage clamp and radionuclide uptake. Transport activity was also documented with Li+ substituted for Na+. The dependence of the Pi-induced current on Pi concentration was Michaelian, and the dependence on Na+ concentration indicated weak cooperativity. The dependence on external pH was unique: the apparent Pi affinity constant showed a minimum in the pH range 6.2–6.8 of 0.05 mM and increased to 0.2 mM at pH 5.0 and pH 8.0. Xenopus PiT-1 stoichiometry was determined by dual 22Na-32Pi uptake and suggested a 2:1 Na+:Pi stoichiometry. A correlation of 32Pi uptake and net charge movement indicated one charge translocation per Pi. Changes in oocyte surface pH were consistent with transport of monovalent Pi. On the basis of the kinetics of substrate interdependence, we propose an ordered binding scheme of Na+:H2PO4–:Na+. Significantly, in contrast to type II Na+-Pi cotransporters, the transport inhibitor phosphonoformic acid did not inhibit PiT-1 or PiT-2 activity. Na+-Pi cotransport; two-electrode voltage clamp; surface pH electrode; SLC20; retroviral receptor 相似文献
168.
Helppolainen SH Nurminen KP Määttä JA Halling KK Slotte JP Huhtala T Liimatainen T Ylä-Herttuala S Airenne KJ Närvänen A Jänis J Vainiotalo P Valjakka J Kulomaa MS Nordlund HR 《The Biochemical journal》2007,405(3):397-405
Rhizobium etli CFN42 is a symbiotic nitrogen-fixing bacterium of the common bean Phaseolus vulgaris. The symbiotic plasmid p42d of R. etli comprises a gene encoding a putative (strept)avidin-like protein, named rhizavidin. The amino acid sequence identity of rhizavidin in relation to other known avidin-like proteins is 20-30%. The amino acid residues involved in the (strept)avidin-biotin interaction are well conserved in rhizavidin. The structural and functional properties of rhizavidin were carefully studied, and we found that rhizavidin shares characteristics with bradavidin, streptavidin and avidin. However, we found that it is the first naturally occurring dimeric protein in the avidin protein family, in contrast with tetrameric (strept)avidin and bradavidin. Moreover, it possesses a proline residue after a flexible loop (GGSG) in a position close to Trp-110 in avidin, which is an important biotin-binding residue. [3H]Biotin dissociation and ITC (isothermal titration calorimetry) experiments showed dimeric rhizavidin to be a high-affinity biotin-binding protein. Its thermal stability was lower than that of avidin; although similar to streptavidin, it was insensitive to proteinase K. The immunological cross-reactivity of rhizavidin was tested with human serum samples obtained from cancer patients exposed to (strept)avidin. No significant cross-reactivity was observed. The biodistribution of the protein was studied by SPECT (single-photon emission computed tomography) imaging in rats. Similarly to avidin, rhizavidin was observed to accumulate rapidly, mainly in the liver. Evidently, rhizavidin could be used as a complement to (strept)avidin in (strept)avidin-biotin technology. 相似文献
169.
Many studies have characterized how changes to the stability and internal motions of a protein during activation can contribute to their catalytic function, even when structural changes cannot be observed. Here, unfolding studies and hydrogen–deuterium exchange (HX) mass spectrometry were used to investigate the changes to the stability and conformation/conformational dynamics of JNK1β1 induced by phosphorylative activation. Equivalent studies were also employed to determine the effects of nucleotide binding on both inactive and active JNK1β1 using the ATP analogue, 5?-adenylyl-imidodiphosphate (AMP-PNP). JNK1β1 phosphorylation alters HX in regions involved in catalysis and substrate binding, changes that can be ascribed to functional modifications in either structure and/or backbone flexibility. Increased HX in the hinge between the N- and C-terminal domains implied that it acquires enhanced flexibility upon phosphorylation that may be a prerequisite for interdomain closure. In combination with the finding that nucleotide binding destabilizes the kinase, the patterns of solvent protection by AMP-PNP were consistent with a novel mode of nucleotide binding to the C-terminal domain of a destabilized and open domain conformation of inactive JNK1β1. Solvent protection by AMP-PNP of both N- and C-terminal domains in active JNK1β1 revealed that the domains close around nucleotide upon phosphorylation, concomitantly stabilizing the kinase. This suggests that phosphorylation activates JNK1β1 in part by increasing hinge flexibility to facilitate interdomain closure and the creation of a functional active site. By uncovering the complex interplay that occurs between nucleotide binding and phosphorylation, we present new insight into the unique mechanisms by which JNK1β1 is regulated. 相似文献
170.