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101.
Sergei Andreev Igor Andreev Elena Nikolaeva Anna Petrukhina Vladimir Zemskov Mariam Vafina 《International journal of peptide research and therapeutics》1998,5(2-3):63-66
Summary The V3 loop from HIV-1 envelope glycoprotein gp120 is involved in viral entry and determines the cellular tropism and HIV-1-induced
cell-cell fusion. Earlier we have shown that V3 loop peptides representing the sequences of syncytia-inducing HIV strains
have high membranotropic activity. These peptides caused the lysis of liposomes of various lipid compositions, could fuse
negatively charged liposomes and induced hemolysis of erythrocytes. In contrast, peptides mimicking the sequences of non-syncytia-inducing
viruses showed no lytic or fusion activities at the same concentrations. Now we have found that the V3 loop synthetic peptides
containing the conserved GPGR region, derived from T-lymphotropic strains (BRU and MN), as opposed to peptides containing
the GPGQ region, are able to cause a pronounced membrane permeabilization (dissipation of the ΔpH and the Δψ) of human peripheral
blood lymphocytes, erythrocytes and plasma membrane vesicles at micromolar concentrations with a dose-dependent kinetics.
Analysis of the secondary structures of the peptides by circular dichroism revealed conformational changes in V3 loop peptides
depending on solvent hydrophobicity: from random coil in water to an α-helix/β-sheet conformation in trifluoroethanol. Such
structural changes of the V3 loop together with the membrane insertion of the gp41 N-terminal fusion peptide may promote the
formation of the fusion pore during virus-cell fusion. 相似文献
102.
Pottosin II Martínez-Estévez M Dobrovinskaya OR Muñiz J 《Journal of experimental botany》2003,54(383):663-667
In higher plants the vacuolar K(+)-selective (VK) channel was identified solely in guard cells. This patch-clamp study describes a 40 pS homologue of the VK channel in Beta vulgaris taproot vacuoles. This voltage-independent channel is activated by submicromolar Ca(2+), and is ideally selective for K(+) over Cl(-) and Na(+). 相似文献
103.
Scheper W Thaminy S Kais S Stagljar I Römisch K 《The Journal of biological chemistry》2003,278(39):37998-38003
Secretory proteins are translocated across the endoplasmic reticulum (ER) membrane through a channel formed by three proteins, namely Sec61p, Sbh1p, and Sss1p (Johnson, A. E., and van Waes, M. A. (1999) Annu. Rev. Cell Dev. Biol. 15, 799-842). Sec61p and Sss1p are essential for translocation (Esnault, Y., Blondel, M. O., Deshaies, R. J., Schekman, R., and Kepes, F. (1993) EMBO J. 12, 4083-4093). Sec61p is a polytopic membrane protein that lines the protein translocation channel. The role of Sss1p is unknown. During import into the ER through the Sec61p channel, many proteins are N-glycosylated before translocation is completed. In addition, both the Sec61 channel and oligosaccharyl transferase (OST) copurify with ribosomes from rough ER, suggesting that OST is located in close proximity to the Sec61 channel (Gorlich, D., Prehn, S., Hartmann, E., Kalies, K.-U., and Rapoport, T. A. (1992) Cell 71, 489-503 and Wang, L., and Dobberstein, B. (1999) FEBS Lett. 457, 316-322). Here, we demonstrate a direct interaction between Sss1p and a subunit of OST, Wbp1p, using the split-ubiquitin system and co-immunoprecipitation. We generated mutants in the cytoplasmic domain of Sss1p that disturb the interaction with OST and are viable but display a translocation defect specific for proteins with glycosylation acceptor sites. Our data suggest that Sss1p coordinates translocation across the ER membrane and N-linked glycosylation of secretory proteins. 相似文献
104.
Brötz-Oesterhelt H Knezevic I Bartel S Lampe T Warnecke-Eberz U Ziegelbauer K Häbich D Labischinski H 《The Journal of biological chemistry》2003,278(41):39435-39442
Pyridochromanones were identified by high throughput screening as potent inhibitors of NAD+-dependent DNA ligase from Escherichia coli. Further characterization revealed that eubacterial DNA ligases from Gram-negative and Gram-positive sources were inhibited at nanomolar concentrations. In contrast, purified human DNA ligase I was not affected (IC50 > 75 microm), demonstrating remarkable specificity for the prokaryotic target. The binding mode is competitive with the eubacteria-specific cofactor NAD+, and no intercalation into DNA was detected. Accordingly, the compounds were bactericidal for the prominent human pathogen Staphylococcus aureus in the low microg/ml range, whereas eukaryotic cells were not affected up to 60 microg/ml. The hypothesis that inhibition of DNA ligase is the antibacterial principle was proven in studies with a temperature-sensitive ligase-deficient E. coli strain. This mutant was highly susceptible for pyridochromanones at elevated temperatures but was rescued by heterologous expression of human DNA ligase I. A physiological consequence of ligase inhibition in bacteria was massive DNA degradation, as visualized by fluorescence microscopy of labeled DNA. In summary, the pyridochromanones demonstrate that diverse eubacterial DNA ligases can be addressed by a single inhibitor without affecting eukaryotic ligases or other DNA-binding enzymes, which proves the value of DNA ligase as a novel target in antibacterial therapy. 相似文献
105.
106.
107.
Slominski A Semak I Zjawiony J Wortsman J Li W Szczesniewski A Tuckey RC 《The FEBS journal》2005,272(16):4080-4090
We show that cytochrome P450scc (CYP11A1) in either a reconstituted system or in isolated adrenal mitochondria can metabolize vitamin D3. The major products of the reaction with reconstituted enzyme were 20-hydroxycholecalciferol and 20,22-dihydroxycholecalciferol, with yields of 16 and 4%, respectively, of the original vitamin D3 substrate. Trihydroxycholecalciferol was a minor product, likely arising from further metabolism of dihydroxycholecalciferol. Based on NMR analysis and known properties of P450scc we propose that hydroxylation of vitamin D3 by P450scc occurs sequentially and stereospecifically with initial formation of 20(S)-hydroxyvitamin D3. P450scc did not metabolize 25-hydroxyvitamin D3, indicating that modification of C25 protected it against P450scc action. Adrenal mitochondria also metabolized vitamin D3 yielding 10 hydroxyderivatives, with UV spectra typical of vitamin D triene chromophores. Aminogluthimide inhibition showed that the three major metabolites, but not the others, resulted from P450scc action. It therefore appears that non-P450scc enzymes present in the adrenal cortex to some extent contribute to metabolism of vitamin D3. We conclude that purified P450scc in a reconstituted system or P450scc in adrenal mitochondria can add one hydroxyl group to vitamin D3 with subsequent hydroxylation being observed for reconstituted enzyme but not for adrenal mitochondria. Additional vitamin D3 metabolites arise from the action of other enzymes in adrenal mitochondria. These findings appear to define novel metabolic pathways involving vitamin D3 that remain to be characterized. 相似文献
108.
Ges IA Ivanov BL Schaffer DK Lima EA Werdich AA Baudenbacher FJ 《Biosensors & bioelectronics》2005,21(2):248-256
Microsensors are valuable tools to monitor cell metabolism in cell culture volumes. The present research describes the fabrication and characterization of on-chip thin-film iridium oxide pH microsensors with dimensions of 20 microm x 20 microm and 20 microm x 40 microm suitable to be incorporated into nl volumes. IrOx thin films were formed on platinum microelectrodes by electrochemical deposition in galvanostatic mode. Anodically grown iridium oxide films showed a near super-Nernstian response with a slope of -77.6+/-2 mV/pH at 22 degrees C, and linear responses within the pH range of 4-11. Freshly deposited electrodes showed response times as low as 6s. Long-term studies showed a baseline drift of 2-3 mV/month, which could easily be compensated by calibration. This work demonstrated for the first time the use of planar IrOx pH microelectrodes to measure the acidification rate of CHO and fibroblast cells in an on chip cell culture volume of 25 nl with microfluidic control. 相似文献
109.
Lorena Fuentes-Broto Enrique Martínez-Ballarín Javier Miana-Mena Cesar Berzosa Eduardo Piedrafita Igor Cebrián 《Free radical research》2013,47(11):1080-1089
Cholestasis occurs in a variety of hepatic diseases and causes damage due to accumulation of bile acids in the liver. The aim was to investigate the effect of several bile acids, i.e. chenodeoxycholic, taurochenodeoxycholic, deoxycholic, taurodeoxycholic, ursodeoxycholic, lithocholic and taurolithocholic (TLC), in inducing oxidative damage. Hepatic tissue of male Sprague-Dawley rats was incubated with or without 1 mM of each bile acid, with or without 0.1 mM FeCl3 and 0.1 mM ascorbic acid for the purpose of generating free radicals. Several bile acids increased lipid and protein oxidation, with TLC being the most pro-oxidative (657% and 175% in homogenates and 350% and 311% in membranes, respectively). TLC also enhanced iron-induced oxidative stress to lipids (21% in homogenates and 29% in membranes) and to proteins (74% in membranes). This enhancement was dose- and time-dependent and was reduced by melatonin. These results suggest that bile acids differentially mediate hepatic oxidative stress and may be involved in the physiopathology of cholestasis. 相似文献
110.
Benjamin T. Goult Neil Bate Nicholas J. Anthis Kate L. Wegener Alexandre R. Gingras Bipin Patel Igor L. Barsukov Iain D. Campbell Gordon C. K. Roberts David R. Critchley 《The Journal of biological chemistry》2009,284(22):15097-15106
Talin is a large flexible rod-shaped protein that activates the integrin
family of cell adhesion molecules and couples them to cytoskeletal actin. It
exists in both globular and extended conformations, and an intramolecular
interaction between the N-terminal F3 FERM subdomain and the C-terminal part
of the talin rod contributes to an autoinhibited form of the molecule. Here,
we report the solution structure of the primary F3 binding domain within the
C-terminal region of the talin rod and use intermolecular nuclear Overhauser
effects to determine the structure of the complex. The rod domain (residues
1655–1822) is an amphipathic five-helix bundle; Tyr-377 of F3 docks into
a hydrophobic pocket at one end of the bundle, whereas a basic loop in F3
(residues 316–326) interacts with a cluster of acidic residues in the
middle of helix 4. Mutation of Glu-1770 abolishes binding. The rod domain
competes with β3-integrin tails for binding to F3, and the structure of
the complex suggests that the rod is also likely to sterically inhibit binding
of the FERM domain to the membrane.The cytoskeletal protein talin has emerged as a key player, both in
regulating the affinity of the integrin family of cell adhesion molecules for
ligand (1) and in coupling
integrins to the actin cytoskeleton
(2). Thus, depletion of talin
results in defects in integrin activation
(3), integrin signaling through
focal adhesion kinase, the maintenance of cell spreading, and the assembly of
focal adhesions in cultured cells
(4). In the whole organism,
studies on the single talin gene in worms
(5) and flies
(6) show that talin is
essential for a variety of integrin-mediated events that are crucial for
normal embryonic development. In vertebrates, there are two talin
genes, and mice carrying a talin1 null allele fail to complete
gastrulation (7).
Tissue-specific inactivation of talin1 results in an inability to activate
integrins in platelets (8,
9), defects in the
membrane-cytoskeletal interface in megakaryocytes
(10), and disruption of the
myotendinous junction in skeletal muscle
(11). In contrast, mice
homozygous for a talin2 gene trap allele have no phenotype, although
the allele may be hypomorphic
(12).Recent structural studies have provided substantial insights into the
molecular basis of talin action. Talin is composed of an N-terminal globular
head (∼50 kDa) linked to an extended flexible rod (∼220 kDa). The
talin head contains a
FERM2 domain (made up
of F1, F2, and F3 subdomains) preceded by a domain referred to here as F0
(2). Studies by Wegener et
al. (30) have shown how
the F3 FERM subdomain, which has a phosphotyrosine binding domain fold,
interacts with both the canonical NPXY motif and the
membrane-proximal helical region of the cytoplasmic tails of integrin
β-subunits (13). The
latter interaction apparently activates the integrin by disrupting the salt
bridge between the integrin α- and β-subunit tails that normally
keeps integrins locked in a low affinity state. The observation that the F0
region is also important in integrin activation
(14) may be explained by our
recent finding that F0 binds, albeit with low affinity,
Rap1-GTP,3 a known
activator of integrins (15,
16). The talin rod is made up
of a series of amphipathic α-helical bundles
(17–20)
and contains a second integrin binding site (IBS2)
(21), numerous binding sites
for the cytoskeletal protein vinculin
(22), at least two actin
binding sites (23), and a
C-terminal helix that is required for assembly of talin dimers
(20,
24).Both biochemical (25) and
cellular studies (16) suggest
that the integrin binding sites in full-length talin are masked, and both
phosphatidylinositol 4,5-bisphosphate (PIP2) and Rap1 have been implicated in
exposing these sites. It is well established that some members of the FERM
domain family of proteins are regulated by a head-tail interaction
(26); gel filtration,
sedimentation velocity, and electron microscopy studies all show that talin is
globular in low salt buffers, although it is more elongated (∼60 nm in
length) in high salt (27). By
contrast, the talin rod liberated from full-length talin by calpain-II
cleavage is elongated in both buffers, indicating that the head is required
for talin to adopt a more compact state. Direct evidence for an interaction
between the talin head and rod has recently emerged from NMR studies by Goksoy
et al. (28), who
demonstrated binding of 15N-labeled talin F3 to a talin rod
fragment spanning residues 1654–2344, an interaction that was confirmed
by surface plasmon resonance (Kd = 0.57 μm)
(28). Chemical shift data also
showed that this segment of the talin rod partially masked the binding site in
F3 for the membraneproximal helix of the β3-integrin tail
(28), directly implicating the
talin head-rod interaction in regulating the integrin binding activity of
talin. Goksoy et al.
(28) subdivided the F3 binding
site in this rod fragment into two sites with higher affinity
(Kd ∼3.6 μm; residues 1654–1848)
and lower affinity (Kd ∼78 μm; residues
1984–2344). Here, we define the rod domain boundaries and determine the
NMR structure of residues 1655–1822, a five-helix bundle. We further
show that this domain binds F3 predominantly via surface-exposed residues on
helix 4, with an affinity similar to the high affinity site reported by Goksoy
et al. (28). We also
report the structure of the complex between F3 and the rod domain and show
that the latter masks the known binding site in F3 for the β3-integrin
tail and is expected to inhibit the association of the talin FERM domain with
the membrane. 相似文献