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101.
Takahashi A Kondoh M Uchida H Kakamu Y Hamakubo T Yagi K 《Biochemical and biophysical research communications》2011,(3):317-470
Passage across epithelial cell sheets is the first step in drug absorption. Tight junctions (TJs) are located between adjacent epithelial cells and seal the intercellular space preventing leakage of solutes. Claudin, a tetra-transmembrane protein family, is a pivotal functional and structural component of the TJ barrier. Modulation of the claudin-based TJ seal is a strategy for mucosal drug absorption. We previously found that a claudin-4 binder, a C-terminal fragment of Clostridium perfringens enterotoxin (C-CPE194), was a modulator of the TJ seal and a potent mucosal absorption enhancer. In the present study, we attempted to improve claudin-4 binders by modification of C-CPE194. Substitution of Asn at position 309 and Ser at position 313 with Ala increased the affinity to claudin-4 by 9.9-fold as compared to C-CPE194. Deletion of 10 amino acids in the N-terminal domain of the double-alanine-substituted mutant increased affinity to claudin-4 by 23.9-fold as compared to C-CPE194. These C-CPE194 mutants reversibly modulated the TJ seal in human intestinal epithelial cell sheets. The N-terminal-truncated mutant was the most potent modulator of the TJ seal. These findings indicate that the C-CPE mutant may be a promising lead for the development of a clinical TJ modulator. 相似文献
102.
Douzi B Ball G Cambillau C Tegoni M Voulhoux R 《The Journal of biological chemistry》2011,286(47):40792-40801
The type II secretion system enables gram-negative bacteria to secrete exoproteins into the extracellular milieu. We performed biophysical and biochemical experiments to identify systematic interactions between Pseudomonas aeruginosa Xcp type II secretion system components and their substrates. We observed that three Xcp components, XcpP(C), the secretin XcpQ(D), and the pseudopilus tip, directly and specifically interact with secreted exoproteins. We established that XcpP(C), in addition to its interaction with the substrate, likely shields the entire periplasmic portion of the secreton. It can therefore be considered as the recruiter of the machinery. Moreover, the direct interaction observed between the substrate and the pseudopilus tip validates the piston model hypothesis, in which the pseudopilus pushes the substrate through the secretin pore during the secretion process. All together, our results allowed us to propose a model of the different consecutive steps followed by the substrate during the type II secretion process. 相似文献
103.
Traxlmayr MW Wozniak-Knopp G Antes B Stadlmayr G Rüker F Obinger C 《Journal of biotechnology》2011,155(2):193-202
Recently, it has been demonstrated that loops of the crystallizable fragment of IgG1 (IgG1-Fc) can be engineered to form antigen-binding sites. In this work C-terminal structural loops in the CH3 domains of homodimeric IgG1-Fc have been functionalized to form integrin-binding sites in order to probe the effect of engineering on structural integrity and thermal stability of IgG1-Fc as well as on binding to the ligands Protein A, CD16 and FcRn, respectively. The peptide sequence GCRGDCL - a disulfide-bridged cyclic heptapeptide that confers binding to human αvβ3 integrin was introduced into AB, CD and/or EF loops and single and double mutants were heterologously expressed in Pichia pastoris. Integrin binding of engineered IgG-Fc was tested using both binding to coated αvβ3 integrin in ELISA or to αvβ3-expressing K562 cells in FACS analysis. Additionally, blocking of αvβ3-mediated cell adhesion to vitronectin was investigated. The data presented in this report demonstrate that bioactive integrin-binding peptide(s) can be grafted on the C-terminal loops of IgG-Fc without impairing binding to effector molecules. Observed differences between the investigated variants in structural stability and integrin binding are discussed with respect to the known structure of IgG-Fc and its structural loops. 相似文献
104.
Arnold LH Butt LE Prior SH Read CM Fields GB Pickford AR 《The Journal of biological chemistry》2011,286(52):45073-45082
Matrix metalloproteinase-1 (MMP-1) is an instigator of collagenolysis, the catabolism of triple helical collagen. Previous studies have implicated its hemopexin (HPX) domain in binding and possibly destabilizing the collagen substrate in preparation for hydrolysis of the polypeptide backbone by the catalytic (CAT) domain. Here, we use biophysical methods to study the complex formed between the MMP-1 HPX domain and a synthetic triple helical peptide (THP) that encompasses the MMP-1 cleavage site of the collagen α1(I) chain. The two components interact with 1:1 stoichiometry and micromolar affinity via a binding site within blades 1 and 2 of the four-bladed HPX domain propeller. Subsequent site-directed mutagenesis and assay implicates blade 1 residues Phe(301), Val(319), and Asp(338) in collagen binding. Intriguingly, Phe(301) is partially masked by the CAT domain in the crystal structure of full-length MMP-1 implying that transient separation of the domains is important in collagen recognition. However, mutation of this residue in the intact enzyme disrupts the CAT-HPX interface resulting in a drastic decrease in binding activity. Thus, a balanced equilibrium between these compact and dislocated states may be an essential feature of MMP-1 collagenase activity. 相似文献
105.
Zuniga JE Ilangovan U Mahlawat P Hinck CS Huang T Groppe JC McEwen DG Hinck AP 《Journal of molecular biology》2011,412(4):601-618
Transforming growth factor β isoforms (TGF-β) are among the most recently evolved members of a signaling superfamily with more than 30 members. TGF-β play vital roles in regulating cellular growth and differentiation, and they signal through a highly restricted subset of receptors known as TGF-β type I receptor (TβR-I) and TGF-β type II receptor (TβR-II). TGF-β's specificity for TβR-I has been proposed to arise from its pre-helix extension, a five-residue loop that binds in the cleft between TGF-β and TβR-II. The structure and backbone dynamics of the unbound form of the TβR-I extracellular domain were determined using NMR to investigate the extension's role in binding. This showed that the unbound form is highly similar to the bound form in terms of both the β-strand framework that defines the three-finger toxin fold and the extension and its characteristic cis-Ile54-Pro55 peptide bond. The NMR data further showed that the extension and two flanking 310 helices are rigid on the nanosecond-to-picosecond timescale. The functional significance of several residues within the extension was investigated by binding studies and reporter gene assays in cultured epithelial cells. These demonstrated that the pre-helix extension is essential for binding, with Pro55 and Pro59 each playing a major role. These findings suggest that the pre-helix extension and its flanking prolines evolved to endow the TGF-β signaling complex with its unique specificity, departing from the ancestral promiscuity of the bone morphogenetic protein subfamily, where the binding interface of the type I receptor is highly flexible. 相似文献
106.
Upon completion of synthesis of an Okazaki fragment, the lagging strand replicase must recycle to the next primer at the replication fork in under 0.1 s to sustain the physiological rate of DNA synthesis. We tested the collision model that posits that cycling is triggered by the polymerase encountering the 5′-end of the preceding Okazaki fragment. Probing with surface plasmon resonance, DNA polymerase III holoenzyme initiation complexes were formed on an immobilized gapped template. Initiation complexes exhibit a half-life of dissociation of approximately 15 min. Reduction in gap size to 1 nt increased the rate of dissociation 2.5-fold, and complete filling of the gap increased the off-rate an additional 3-fold (t1/2 ∼ 2 min). An exogenous primed template and ATP accelerated dissociation an additional 4-fold in a reaction that required complete filling of the gap. Neither a 5′-triphosphate nor a 5′-RNA terminated oligonucleotide downstream of the polymerase accelerated dissociation further. Thus, the rate of polymerase release upon gap completion and collision with a downstream Okazaki fragment is 1000-fold too slow to support an adequate rate of cycling and likely provides a backup mechanism to enable polymerase release when the other cycling signals are absent. Kinetic measurements indicate that addition of the last nucleotide to fill the gap is not the rate-limiting step for polymerase release and cycling. Modest (approximately 7 nt) strand displacement is observed after the gap between model Okazaki fragments is filled. To determine the identity of the protein that senses gap filling to modulate affinity of the replicase for the template, we performed photo-cross-linking experiments with highly reactive and non-chemoselective diazirines. Only the α subunit cross-linked, indicating that it serves as the sensor. 相似文献
107.
Stefan N Martin-Killias P Wyss-Stoeckle S Honegger A Zangemeister-Wittke U Plückthun A 《Journal of molecular biology》2011,413(4):826-843
Designed Ankyrin Repeat Proteins (DARPins) represent a novel class of binding molecules. Their favorable biophysical properties such as high affinity, stability and expression yields make them ideal candidates for tumor targeting. Here, we describe the selection of DARPins specific for the tumor-associated antigen epithelial cell adhesion molecule (EpCAM), an approved therapeutic target on solid tumors. We selected DARPins from combinatorial libraries by both phage display and ribosome display and compared their binding on tumor cells. By further rounds of random mutagenesis and ribosome display selection, binders with picomolar affinity were obtained that were entirely monomeric and could be expressed at high yields in the cytoplasm of Escherichia coli. One of the binders, denoted Ec1, bound to EpCAM with picomolar affinity (Kd = 68 pM), and another selected DARPin (Ac2) recognized a different epitope on EpCAM. Through the use of a variety of bivalent and tetravalent arrangements with these DARPins, the off-rate on cells was further improved by up to 47-fold. All EpCAM-specific DARPins were efficiently internalized by receptor-mediated endocytosis, which is essential for intracellular delivery of anticancer agents to tumor cells. Thus, using EpCAM as a target, we provide evidence that DARPins can be conveniently selected and rationally engineered to high-affinity binders of various formats for tumor targeting. 相似文献
108.
Sharma P Dube D Sinha M Mishra B Dey S Mal G Pathak KM Kaur P Sharma S Singh TP 《The Journal of biological chemistry》2011,286(36):31723-31730
The peptidoglycan recognition protein PGRP-S is an innate immunity molecule that specifically interacts with microbial peptidoglycans and other pathogen-associated molecular patterns. We report here two structures of the unique tetrameric camel PGRP-S (CPGRP-S) complexed with (i) muramyl dipeptide (MDP) at 2.5 Å resolution and (ii) GlcNAc and β-maltose at 1.7Å resolution. The binding studies carried out using surface plasmon resonance indicated that CPGRP-S binds to MDP with a dissociation constant of 10−7 m, whereas the binding affinities for GlcNAc and β-maltose separately are in the range of 10−4 m to 10−5 m, whereas the dissociation constant for the mixture of GlcNAc and maltose was estimated to be 10−6 m. The data from bacterial suspension culture experiments showed a significant inhibition of the growth of Staphylococcus aureus cells when CPGRP-S was added to culture medium. The ELISA experiment showed that the amount of MDP-induced production of TNF-α and IL-6 decreased considerably after the introduction of CPGRP-S. The crystal structure determinations of (i) a binary complex with MDP and (ii) a ternary complex with GlcNAc and β-maltose revealed that MDP, GlcNAc, and β-maltose bound to CPGRP-S in the ligand binding cleft, which is situated at the interface of molecules C and D of the homotetramer formed by four protein molecules A, B, C, and D. In the binary complex, the muramyl moiety of MDP is observed at the C-D interface, whereas the peptide chain protrudes into the center of tetramer. In the ternary complex, GlcNAc and β-maltose occupy distinct non-overlapping positions belonging to different subsites. 相似文献
109.
Amol Arunrao Pohane Himanshu Joshi Vikas Jain 《The Journal of biological chemistry》2014,289(17):12085-12095
Mycobacterium tuberculosis has always been recognized as one of the most successful pathogens. Bacteriophages that attack and kill mycobacteria offer an alternate mechanism for the curtailment of this bacterium. Upon infection, mycobacteriophages produce lysins that catalyze cell wall peptidoglycan hydrolysis and mycolic acid layer breakdown of the host resulting in bacterial cell rupture and virus release. The ability to lyse bacterial cells make lysins extremely significant. We report here a detailed molecular dissection of the function and regulation of mycobacteriophage D29 Lysin A. Several truncated versions of Lysin A were constructed, and their activities were analyzed by zymography and by expressing them in both Escherichia coli and Mycobacterium smegmatis. Our experiments establish that Lysin A harbors two catalytically active domains, both of which show E. coli cell lysis upon their expression exclusively in the periplasmic space. However, the expression of only one of these domains and the full-length Lysin A caused M. smegmatis cell lysis. Interestingly, full-length protein remained inactive in E. coli periplasm. Our data suggest that the inactivity is ensued by a C-terminal domain that interacts with the N-terminal domain. This interaction was affirmed by surface plasmon resonance. Our experiments also demonstrate that the C-terminal domain of Lysin A selectively binds to M. tuberculosis and M. smegmatis peptidoglycans. Our methodology of studying E. coli cell lysis by Lysin A and its truncations after expressing these proteins in the bacterial periplasm with the help of signal peptide paves the way for a large scale identification and analysis of such proteins obtained from other bacteriophages. 相似文献
110.