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121.
Genetic analysis of the mode of interplay between an ATPase subunit and membrane subunits of the lipoprotein-releasing ATP-binding cassette transporter LolCDE 下载免费PDF全文
The LolCDE complex, an ATP-binding cassette (ABC) transporter, releases lipoproteins from the inner membrane, thereby initiating lipoprotein sorting to the outer membrane of Escherichia coli. The LolCDE complex is composed of two copies of an ATPase subunit, LolD, and one copy each of integral membrane subunits LolC and LolE. LolD hydrolyzes ATP on the cytoplasmic side of the inner membrane, while LolC and/or LolE recognize and release lipoproteins anchored to the periplasmic leaflet of the inner membrane. Thus, functional interaction between LolD and LolC/E is critically important for coupling of ATP hydrolysis to the lipoprotein release reaction. LolD contains a characteristic sequence called the LolD motif, which is highly conserved among LolD homologs but not other ABC transporters of E. coli. The LolD motif is suggested to be a region in contact with LolC/E, judging from the crystal structures of other ABC transporters. To determine the functions of the LolD motif, we mutagenized each of the 32 residues of the LolD motif and isolated 26 dominant-negative mutants, whose overexpression arrested growth despite the chromosomal lolD(+) background. We then selected suppressor mutations of the lolC and lolE genes that correct the growth defect caused by the LolD mutations. Mutations of the lolC suppressors were mainly located in the periplasmic loop, whereas ones of lolE suppressors were mainly located in the cytoplasmic loop, suggesting that the mode of interaction with LolD differs between LolC and LolE. Moreover, the LolD motif was found to be critical for functional interplay with LolC/E, since some LolD mutations lowered the ATPase activity of LolCDE without affecting that of LolD. 相似文献
122.
In this study we attempted to determine the specific roles of the numerous conformational changes that are observed in the bacterial chaperonin GroEL, by performing stopped-flow experiments on GroEL R231W in the presence of a refolding substrate protein. The apparent rate of one kinetic phase was decreased by approximately 25% in the presence of prebound unfolded malate dehydrogenase while another phase was suppressed completely under the same conditions, reflecting different effects of the unfolded protein on multiple structural transitions within GroEL. The addition of cochaperonin GroES counteracts the effect of the bound substrate protein in the former case, but had no effect on the latter, more extensive suppression. Using a chemically modified form of GroEL R231W which is incapable of releasing substrate proteins at low temperatures, we identified a conformational transition that is implicated in the release of substrate proteins. Parts of the actual process of substrate protein release were also observed through fluorescence resonance energy transfer experiments involving GroEL and labeled substrate protein. Analysis of the energy transfer data revealed an interesting relationship between substrate protein displacement and a specific structural transition in the GroEL apical domain. 相似文献
123.
Ohya M Nishitani C Sano H Yamada C Mitsuzawa H Shimizu T Saito T Smith K Crouch E Kuroki Y 《Biochemistry》2006,45(28):8657-8664
Pulmonary surfactant protein D (SP-D), a member of the collectin group of innate immune proteins, plays important roles in lipopolysaccharide (LPS) recognition. We have previously shown that surfactant protein A (SP-A), a homologous collectin, interacts with Toll-like receptor (TLR) 2, resulting in alteration of TLR2-mediated signaling. In this study, we found that natural and recombinant SP-Ds exhibited specific binding to the extracellular domains of soluble forms of recombinant TLR2 (sTLR2) and TLR4 (sTLR4). Binding was concentration- and Ca2+-dependent, and SP-D bound to N-glycosidase F-treated sTLRs on ligand blots. Anti-SP-D monoclonal antibody 7A10 blocked binding of SP-D to sTLR2 and sTLR4, but there was no inhibitory effect of monoclonal 7C6. Epitope mapping with recombinant proteins consisting of the carbohydrate recognition domain (CRD) and the neck domain plus CRD (NCRD) localized binding sites for 7A10 and 7C6 to sequential epitopes associated with the CRD and the neck domain, respectively. Interactions with 7A10 but not 7C6 were blocked by prior binding of the NCRD to sTLRs. Although antibody 7A10 significantly inhibited the binding of SP-D to its major surfactant-associated ligand, phosphatidylinositol (PI), and Escherichia coli Rc LPS, 7C6 enhanced binding to both molecules. An SP-D(E321Q, N323D) mutant with altered carbohydrate specificity exhibited attenuated PI binding but showed an increased level of binding to sTLRs. Thus, human SP-D binds the extracellular domains of TLR2 and TLR4 through its CRD by a mechanism different from its binding to PI and LPS. 相似文献
124.
Hongo K Hirai H Uemura C Ono S Tsunemi J Higurashi T Mizobata T Kawata Y 《FEBS letters》2006,580(1):34-40
A novel ATPase activity that was strongly activated in the presence of either cobalt or manganese ion was discovered in the chaperonin from hyperthermophilic Pyrococcus furiosus (Pfu-cpn). Surprisingly, a significant ADPase activity was also detected under the same conditions. A more extensive search revealed similar nucleotide hydrolysis activities in other thermostable chaperonins. Chaperonin activity, i.e., thermal stabilization and refolding of malate dehydrogenase from the guanidine-hydrochloride unfolded state were also detected for Pfu-cpn under the same conditions. We propose that the novel cobalt/manganese-dependent ATP/ADPase activity may be a common trait of various thermostable chaperonins. 相似文献
125.
Nagao S Murao K Imachi H Cao WM Yu X Li J Matsumoto K Nishiuchi T Ahmed RA Wong NC Ueda K Ishida T 《FEBS letters》2006,580(18):4371-4376
The ATP-binding cassette transporter A1 (ABCA1) regulates lipid efflux from peripheral cells to High-density lipoprotein. The platelet-derived growth factor (PDGF) is a potent mitogen that enables vascular smooth muscle cells to participate in atherosclerosis. In this report, we showed that PDGF suppressed endogenous expression of ABCA1 in cultured vascular smooth muscle cells. Exposure of CRL-208 cells to PDGF elicited a rapid phosphorylation of a kinase downstream from PI3-K, Akt. The constitutively active form of both p110, a subunit of PI3-K, and Akt inhibited activity of the ABCA1 promoter. In conclusion, PI3-K-Akt pathways participate in PDGF-suppression of ABCA1 expression. 相似文献
126.
Live imaging of lymphatic development in the zebrafish 总被引:8,自引:0,他引:8
The lymphatic system has become the subject of great interest in recent years because of its important role in normal and pathological processes. Progress in understanding the origins and early development of this system, however, has been hampered by difficulties in observing lymphatic cells in vivo and in performing defined genetic and experimental manipulation of the lymphatic system in currently available model organisms. Here, we show that the optically clear developing zebrafish provides a useful model for imaging and studying lymphatic development, with a lymphatic system that shares many of the morphological, molecular and functional characteristics of the lymphatic vessels found in other vertebrates. Using two-photon time-lapse imaging of transgenic zebrafish, we trace the migration and lineage of individual cells incorporating into the lymphatic endothelium. Our results show lymphatic endothelial cells of the thoracic duct arise from primitive veins through a novel and unexpected pathway. 相似文献
127.
Kashihara T Nakada T Shimojo H Horiuchi-Hirose M Gomi S Shibazaki T Sheng X Hirose M Hongo M Yamada M 《American journal of physiology. Heart and circulatory physiology》2012,302(8):H1645-H1654
L-type Ca(2+) channels (LTCCs) play an essential role in the excitation-contraction coupling of ventricular myocytes. We previously found that t-tubular (TT) LTCC current density was halved by the activation of protein phosphatase (PP)1 and/or PP2A, whereas surface sarcolemmal (SS) LTCC current density was increased by the inhibition of PP1 and/or PP2A activity in failing ventricular myocytes of mice chronically treated with isoproterenol (ISO mice). In the present study, we examined the possible involvement of inhibitory heterotrimeric G proteins (G(i/o)) in these abnormalities by chronically administrating pertussis toxin (PTX) to ISO mice (ISO + PTX mice). Compared with ISO mice, ISO + PTX mice exhibited significantly higher fractional shortening of the left ventricle. The expression level of Gα(i2) proteins was not altered by the treatment of mice with ISO and/or PTX. ISO + PTX myocytes had normal TT and SS LTCC current densities because they had higher and lower availability and/or open probability of TT and SS LTCCs than ISO myocytes, respectively. A selective PKA inhibitor, H-89, did not affect LTCC current densities in ISO + PTX myocytes. A selective PP2A inhibitor, fostriecin, did not affect SS or TT current density in control or ISO + PTX myocytes but significantly increased TT but not SS LTCC current density in ISO myocytes. These results indicate that chronic receptor-mediated activation of G(i/o) in vivo decreases basal TT LTCC activity by activating PP2A and increases basal SS LTCC activity by inhibiting PP1 without modulating PKA in heart failure. 相似文献
128.
Michikawa M Ichinose H Momma M Biely P Jongkees S Yoshida M Kotake T Tsumuraya Y Withers SG Fujimoto Z Kaneko S 《The Journal of biological chemistry》2012,287(17):14069-14077
We present the first structure of a glycoside hydrolase family 79 β-glucuronidase from Acidobacterium capsulatum, both as a product complex with β-D-glucuronic acid (GlcA) and as its trapped covalent 2-fluoroglucuronyl intermediate. This enzyme consists of a catalytic (β/α)(8)-barrel domain and a β-domain with irregular Greek key motifs that is of unknown function. The enzyme showed β-glucuronidase activity and trace levels of β-glucosidase and β-xylosidase activities. In conjunction with mutagenesis studies, these structures identify the catalytic residues as Glu(173) (acid base) and Glu(287) (nucleophile), consistent with the retaining mechanism demonstrated by (1)H NMR analysis. Glu(45), Tyr(243), Tyr(292)-Gly(294), and Tyr(334) form the catalytic pocket and provide substrate discrimination. Consistent with this, the Y292A mutation, which affects the interaction between the main chains of Gln(293) and Gly(294) and the GlcA carboxyl group, resulted in significant loss of β-glucuronidase activity while retaining the side activities at wild-type levels. Likewise, although the β-glucuronidase activity of the Y334F mutant is ~200-fold lower (k(cat)/K(m)) than that of the wild-type enzyme, the β-glucosidase activity is actually 3 times higher and the β-xylosidase activity is only 2.5-fold lower than the equivalent parameters for wild type, consistent with a role for Tyr(334) in recognition of the C6 position of GlcA. The involvement of Glu(45) in discriminating against binding of the O-methyl group at the C4 position of GlcA is revealed in the fact that the E45D mutant hydrolyzes PNP-β-GlcA approximately 300-fold slower (k(cat)/K(m)) than does the wild-type enzyme, whereas 4-O-methyl-GlcA-containing oligosaccharides are hydrolyzed only 7-fold slower. 相似文献
129.
Ozaki T Nakazawa M Yamashita T Sorimachi H Hata S Tomita H Isago H Baba A Ishiguro S 《Biochimica et biophysica acta》2012,1822(11):1783-1795
Mitochondrial μ-calpain initiates apoptosis-inducing factor (AIF)-dependent apoptosis in retinal photoreceptor degeneration. Mitochondrial μ-calpain inhibitors may represent therapeutic targets for the disease. Therefore, we sought to identify inhibitors of mitochondrial calpains and determine their effects in Royal College of Surgeons' (RCS) rats, an animal model of retinitis pigmentosa (RP). We synthesized 20-mer peptides of the C2-like (C2L) domain of μ-calpain. Two μ-calpain peptides N2 and N9 inhibited mitochondrial μ-calpain activity (IC(50); 892 and 498nM, respectively), but not other proteases. Western blotting showed that 50μM of both μ-calpain peptides caused specific degradation of mitochondrial μ-calpain. Three-dimensional structure of calpains suggested that the peptides N2 and N9 corresponded to the regions forming salt bridges between the protease core domain 2 and the C2L domain. We determined the inhibitory regions of μ-calpain peptides N2 and N9 using 10-mers, and one peptide, N2-10-2, inhibited the activity of mitochondrial μ-calpain (IC(50); 112nM). We next conjugated the peptide N2-10-2 to the C-terminal of HIV-1 tat (HIV), a cell-penetrating peptide. Using isolated rat liver mitochondria, 50μM HIV-conjugated μ-calpain N2-10-2 peptide (HIV-Nμ, IC(50); 285nM) significantly inhibited AIF truncation. The intravitreal injection of 20mM HIV-Nμ also prevented retinal photoreceptor apoptosis determined by TUNEL staining, and preserved retinal function assessed by electroretinography in RCS rats. Topical application of 40mM HIV-Nμ also prevented apoptosis of retinal photoreceptors in RCS rats. Our results demonstrate that HIV-Nμ, a peptide inhibitor of mitochondrial μ-calpain, offers a new modality for treating RP. 相似文献
130.
El-Mashtoly SF Kubo M Gu Y Sawai H Nakashima S Ogura T Aono S Kitagawa T 《The Journal of biological chemistry》2012,287(24):19973-19984
HemAT-Bs is a heme-based signal transducer protein responsible for aerotaxis. Time-resolved ultraviolet resonance Raman (UVRR) studies of wild-type and Y70F mutant of the full-length HemAT-Bs and the truncated sensor domain were performed to determine the site-specific protein dynamics following carbon monoxide (CO) photodissociation. The UVRR spectra indicated two phases of intensity changes for Trp, Tyr, and Phe bands of both full-length and sensor domain proteins. The W16 and W3 Raman bands of Trp, the F8a band of Phe, and the Y8a band of Tyr increased in intensity at hundreds of nanoseconds after CO photodissociation, and this was followed by recovery in ~50 μs. These changes were assigned to Trp-132 (G-helix), Tyr-70 (B-helix), and Phe-69 (B-helix) and/or Phe-137 (G-helix), suggesting that the change in the heme structure drives the displacement of B- and G-helices. The UVRR difference spectra of the sensor domain displayed a positive peak for amide I in hundreds of nanoseconds after photolysis, which was followed by recovery in ~50 μs. This difference band was absent in the spectra of the full-length protein, suggesting that the isolated sensor domain undergoes conformational changes of the protein backbone upon CO photolysis and that the changes are restrained by the signaling domain. The time-resolved difference spectrum at 200 μs exhibited a pattern similar to that of the static (reduced - CO) difference spectrum, although the peak intensities were much weaker. Thus, the rearrangements of the protein moiety toward the equilibrium ligand-free structure occur in a time range of hundreds of microseconds. 相似文献