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Silvia A. Arredondo Tiffany F. Chen Austen F. Riggs Hiram F. Gilbert George Georgiou 《The Journal of biological chemistry》2009,284(36):23972-23979
The bacterial protein-disulfide isomerase DsbC is a homodimeric V-shaped enzyme that consists of a dimerization domain, two α-helical linkers, and two opposing thioredoxin fold catalytic domains. The functional significance of the two catalytic domains of DsbC is not well understood yet. We have engineered heterodimer-like DsbC derivatives covalently linked via (Gly3-Ser) flexible linkers. We either inactivated one of the catalytic sites (CGYC), or entirely removed one of the catalytic domains while maintaining the putative binding area intact. Variants having a single active catalytic site display significant levels of isomerase activity. Furthermore, mDsbC[H45D]-dim[D53H], a DsbC variant lacking an entire catalytic domain but with an intact dimerization domain, also showed isomerase activity, albeit at lower levels. In addition, the absence of the catalytic domain allowed this protein to catalyze in vivo oxidation. Our results reveal that two catalytic domains in DsbC are not essential for disulfide bond isomerization and that a determining feature in isomerization is the availability of a substrate binding domain.Disulfide bonds are critical for the proper folding and structural stability of many exocytoplasmic proteins. The Dsb family of thiol:disulfide oxidoreductase enzymes catalyzes oxidative protein folding in the periplasm of Escherichia coli by means of two independent pathways (1–3). In the DsbA-DsbB oxidation pathway, DsbA, a very strong oxidant, catalyzes the formation of disulfide bonds on newly translocated proteins (4). The DsbA disulfide is rapidly recycled by DsbB, a membrane protein that transfers electrons from DsbA onto quinones (5–7). In the DsbC-DsbD isomerization pathway, non-native disulfides are reduced or rearranged by DsbC. DsbC is maintained in a reduced, catalytically active state via the transfer of electrons from the inner membrane protein DsbD that in turn accepts electrons from thioredoxin 1 and ultimately from NADPH (via thioredoxin reductase) within the cytoplasm (8, 9). Large kinetic barriers keep the oxidation and isomerization pathways isolated, preventing the establishment of a futile cycle of electron transfer. Accordingly, reactions between enzymes of the two pathways, for example the oxidation of DsbC by DsbB or the reduction of DsbA by DsbD, are 103–107-fold slower than the physiologically relevant DsbA-DsbB and DsbC-DsbD reactions (10). Nonetheless, the kinetic barrier between DsbB and DsbC can be breached by introducing mutations that result in structural changes in DsbC (11, 12).DsbC is a homodimer with each monomer comprising an N-terminal dimerization domain and a C-terminal thioredoxin-like catalytic domain fused by an α-helical linker. The crystal structure of DsbC reveals that the two monomers come together to form a V-shaped protein. The inner surface of the resulting cleft is patched with uncharged and hydrophobic residues suggesting an important role in the binding of substrate proteins. The active sites comprising the sequence Cys98-Gly99-Tyr100-Cys101 in each of the monomeric subunits are located in the arms of the “V” facing each other (13). Isomerization involves an attack onto a substrate disulfide by Cys98 resulting in the formation of a mixed disulfide, which then is resolved by either another cysteine from the substrate or by Cys101 from DsbC (14, 15). Besides its isomerase activity, DsbC is also known to display chaperone activity preventing protein aggregation during refolding (16). In E. coli, disulfide bond isomerization is the limiting step in the oxidative folding of many heterologous proteins that contain multiple cysteines. Overexpression of DsbC has been shown to enhance the yield of proteins such as human nerve growth factor, human tissue plasminogen activator (tPA)2 and immunoglobulins (17–19).DsbC is topologically analogous to the eukaryotic protein-disulfide isomerase (PDI). The structural similarities between the two enzymes may have resulted from convergent evolution by thioredoxin-like domain replication in the case of PDI and domain recruitment in DsbC (20, 21). PDI comprises two thioredoxin-like catalytic domains (a and a′) separated by two non-catalytic domains (b and b′), in addition to a c domain (22). In PDI, the catalytic domains are different and functionally nonequivalent (23). Substrate binding is mediated primarily by the b′ domain; the two catalytic domains, a and a′, can catalyze oxidation of small model peptides indicating that they must also have low substrate binding affinity (24).The DsbC monomer is essentially devoid of RNase A isomerase activity (25). Sun and Wang (44) reported that DsbC with one catalytic site impaired by carboxymethylation is also essentially inactive but, in separate studies, Zapun et al. (26) did not detect cooperativity between the two catalytic sites indicating that they function independently of each other (26). Moreover, unlike PDI, the significance of the putative peptide binding cleft of DsbC on disulfide isomerization has not been ascertained. However, while DsbA or TrxA with a PDI active site dipeptide (CGHC) display very little isomerase activity in vitro and in vivo (27–29), we recently showed that upon fusion to a dimerization region that provides a putative substrate binding surface (the E. coli peptidyl proline isomerase FkpA) they acquire the ability to assist the folding of periplasmically expressed multidisulfide heterologous proteins (30).In the present work, we engineered heterodimer-like covalently linked DsbC derivatives in which one of the catalytic sites has been inactivated (Fig. 1A) or one of the catalytic domains has been entirely removed while maintaining the intact peptide binding cleft (which is normally formed by association of the N-terminal domains of the two monomers) (Fig. 3A). We show that DsbC forced monomers with one functional active site, or with one thioredoxin domain only, display significant isomerization activity. Interestingly, the latter variant is partially reduced in vivo indicating that the presence of both thioredoxin domains is important for the avoidance of protein oxidation by DsbB.Open in a separate windowFIGURE 1.A, protein structure of DsbC, and molecular models of mDsbC-mDsbC and the single active site covalently linked mutants. Dimerization domains are shown in gray, thioredoxin domains in black, and the active sites in white. B, gel filtration FPLC of DsbC and linked variants. Purified proteins were run on a SuperdexTM 200 column in PBS, 10% glycerol buffer.Open in a separate windowFIGURE 3.A, molecular model of mDsbC-dim. Dimerization domains are shown in gray, thioredoxin domain in black, and catalytic site in white. B, gel filtration FPLC of mDsbC-dim as compared with DsbC. Purified proteins were run on a SuperdexTM 200 column in PBS, 10% glycerol buffer. C, MALS measurement of the molar masses of the components of mDsbC-dim together with their hydrodynamic radii. The data show monomeric, dimeric, and tetrameric states. The relative concentrations were determined by the refractive index differences. 相似文献
14.
Rogelio de J. Treviño-Rangel Byron A. Bodden-Mendoza Alexandra M. Montoya Hiram Villanueva-Lozano Mariana Elizondo-Zertuche Efrén Robledo-Leal Gloria M. González 《Revista iberoamericana de micología》2018,35(1):17-21
Background
Candida tropicalis is an increasingly important human pathogen which usually affects neutropenic oncology patients with common hematogenous seeding to peripheral organs and high mortality rates. Candida pathogenicity is facilitated by several virulence attributes, including secretion of hydrolytic enzymes; however, little is known regarding the C. tropicalis ability to secrete them and their role in the disease.Aims
To confirm by molecular means the identification of 187 clinical isolates (127 from blood, 52 from urine, and 8 from diverse clinical origins) phenotypically identified as C. tropicalis, and to investigate their in vitro aspartyl proteinase, phospholipase, esterase, hemolysin, DNase and coagulase activities.Methods
The molecular confirmation was performed by ITS sequencing, and the enzymatic determinations were conducted using plate assays with specific substrates, with the exception of coagulase, which was determined by the classical tube test.Results
The majority of the strains exhibited a very strong or strong activity of aspartyl proteinase, phospholipase and esterase. A 4.7% of the bloodstream isolates were hemolysin producers, and all were negative for the coagulase and DNase assays.Conclusions
Very strong activities of aspartyl proteinase, phospholipase and esterase profiles were detected, and a statistical association between phospholipase production and blood and urine isolates was found. 相似文献15.
Guadalupe de la Rosa Hiram Castillo-Michel Gustavo Cruz-Jiménez Jesús Bernal-Alvarado Teodoro Córdova-Fraga Laura López-Moreno 《International journal of phytoremediation》2014,16(11):1073-1086
In order to gain knowledge on the potential use of Helianthus annuus L. for the remediation of Cr(VI) polluted waters, hydroponics experiments were set up to determine Cr uptake and tolerance in different Cr(VI)-sulfate conditions, and Cr biotransformations. Results indicated that Cr(VI) promoted seed germination, and plant tolerance was higher at younger plant stages. Cr uptake was dependent on sulfate concentrations. The highest Cr levels in roots and shoots (13,700 and 2,500 mg kg–1dry weight (DW), respectively) were obtained in 1 mM sulfate. The lowest Cr uptake in roots (10,600 mg kg–1DW) was observed in seedlings treated with no sulfate. In shoots, Cr concentration was of 1,500 mg kg–1DW for the 1 mM sulfate treatment, indicating a different level of interaction between chromate and sulfate in both tissues. For the first time, using micro X-ray florescence (μXRF), we demonstrated Cr reaches the root stele and is located in the walls of xylem vessels. Bulk and micro X-ray Absorption Near-Edge Structure (μXANES) results showed that Cr in the roots is mostly in the form of Cr(III) phosphate (80%), with the remainder complexed to organic acids. Our results suggest this plant species may serve for Cr(VI) rhizofiltration purposes. 相似文献
16.
Temperature effects in the stimulus-secretion process from isolated chromaffin cells 总被引:1,自引:0,他引:1 下载免费PDF全文
Temperature effects on the stimulus-secretion coupling process was studied by inducing release of catecholamines (CA) from isolated chromaffin cells of the bovine adrenal medulla. Use was made of three different secretagogues: acetylcholine (ACH), high potassium concentration, and the calcium ionophore A23187, at various incubation temperatures. The latter two agents induced a monotonic increase in secretion with rise in temperature, suggesting different regions of the dependence of total release on temperature. The ACH-induced secretion was, however, markedly different and exhibited a maximal release at 30 degrees C. Kinetic experiments using ACH stimulus revealed that this maximum is produced by different temperature dependence in the stages of activation and desensitization. A proposed model for the total release process yields temperature-dependent parameters that can be divided into three regions of initial rates of secretory activity corresponding to the above independent findings using high K+ concentration and the calcium ionophore. The transitions between the various regions indicate possible transitions in the physical properties of the plasma and secretory granule membranes. Elucidation of the interaction between the membranes is of primary importance in the determining mechanism of CA secretion from the isolated adrenal medulla cell. 相似文献
17.
Yannicke Dauphin Hiram Castillo-Michel Christiane Denys Mohamed Abdeljalil El Hajraoui Roland Nespoulet Emmanuelle Stoetzel 《Pal?ontologische Zeitschrift》2018,92(1):163-177
Fossil teeth are used for palaeoenvironmental reconstructions. Among the criteria used, the geochemical composition is favoured, because it is said that the enamel is exempt from diagenetic changes. The combined microstructural and chemical analyses of rodent incisors from the cave of El Hahroura 2 (Morocco, Middle Palaeolithic–Neolithic) using scanning electron microscopy, an electron microprobe and FTIR spectroscopy show that all teeth were preserved in apatite. Nevertheless, the microstructure of both dentine and enamel is altered, as well as their chemical composition. Teeth excavated from the upper layers are already diagenetically modified despite being from the Neolithic. Teeth from three older stratigraphic layers are also altered but with a different pattern. Up to now, a direct correlation of the morphological and structural/compositional preservation has not been possible, showing that to use only one criterion to infer the quality of the preservation is not sufficient. Moreover, palaeoecological or palaeoenvironmental reconstructions based on geochemical data without control of the dental microstructure may be biased. 相似文献
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Hyperthermic isolated limb perfusion increases circulating levels of inflammatory cytokines 总被引:5,自引:0,他引:5
Terre D. Quinn Hiram C. Polk Jr. Michael J. Edwards 《Cancer immunology, immunotherapy : CII》1995,40(4):272-275
Hyperthermic isolated limb perfusion is an established method of treatment for regionally advanced melanoma. Recent studies suggest that exogenously administered cytokines potentiate tumor response in patients with in-transit melanoma. We hypothesized that isolated limb perfusion induces an immunogenic response characterized by increased circulating levels of cytokines in the pump circuit, potentially contributing to the antitumor effect. We obtained blood samples from the perfusion circuit and systemic circulation at various intervals from patients undergoing isolated chemotherapeutic perfusion for melanoma. Samples were analyzed for serum cytokine profiles by enzyme-linked immunosorbent assay. When compared with baseline values, significant increases in serum levels of interleukin-6 (IL-6), interleukin-8 (IL-8), and tumor necrosis factor (TNF) occurred within the perfusion circuit during isolated limb perfusion (P<0.05). In addition, there was a corresponding increase in IL-8 within the systemic circulation at the 60-min interval (P<0.05), suggesting some degree of leakage from the isolated circuit due to the extremely high levels of IL-8 in the perfusion circuit. A transient but insignificant decrease in circulating levels of neutrophils was also observed during the perfusion process, which may be attributed to margination. Increased levels of cytokines IL-6, IL-8, and TNF occurred within the isolated circuit during hyperthermic limb perfusion and may contribute to tumor response seen in patients treated with isolated limb perfusion.Presented at the Annual Meeting of the Society of Surgical Oncology, 17–20 March 1994 Houston, Texas 相似文献
20.
Conformational remodeling of proteasomal substrates by PA700, the 19 S regulatory complex of the 26 S proteasome 总被引:3,自引:0,他引:3
Liu CW Millen L Roman TB Xiong H Gilbert HF Noiva R DeMartino GN Thomas PJ 《The Journal of biological chemistry》2002,277(30):26815-26820
PA700, the 19 S regulatory complex of the 26 S proteasome, plays a central role in the recognition and efficient degradation of misfolded proteins. PA700 promotes degradation by recruiting proteasomal substrates utilizing polyubiquitin chains and chaperone-like binding activities and by opening the access to the core of the 20 S proteasome to promote degradation. Here we provide evidence that PA700 in addition to binding misfolded protein substrates also acts to remodel their conformation prior to proteolysis. Scrambled RNase A (scRNase A), a misfolded protein, only slowly refolds spontaneously into an active form because of the rate-limiting unfolding of misfolded disulfide isomers. Notably, PA700 accelerates the rate of reactivation of scRNase A, consistent with its ability to increase the exposure of these disulfide bonds to the solvent. In this regard, PA700 also exposes otherwise buried sites to digestion by exogenous chymotrypsin in a polyubiquitinated enzymatically active substrate, pentaubiquitinated dihydrofolate reductase, Ub(5)DHFR. The dihydrofolate reductase ligand methotrexate counters the ability of PA700 to promote digestion by chymotrypsin. Together, these results indicate that in addition to increasing substrate affinity and opening the access channel to the catalytic sites, PA700 activates proteasomal degradation by remodeling the conformation of protein substrates. 相似文献