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1.
The toxB gene of Corynebacterium diphtheriae bacteriophage β encoding the B fragment of diphtheria toxin was cloned into an inducible expression vector. When expressed In Escherichia coli, fragment B was not proteolysed and was indistinguishable, by immunological criteria, from wild-type C. diphthsriae derived fragment B. Soluble fragment B was partially purified from the cytoplasm by saline precipitation steps and was shown to compete with the wild-type diphtheria toxin for binding to receptors of sensitive eukaryotic cells. A complete diphtheria toxin was reconstituted by formation of the disulphide bridge between purified fragment A and recombinant fragment B, which migrates at the expected Mr on Western blots and which was able to block protein synthesis by ADP-ribosylation of elongation factor–2, thereby indicating that the recombinant fragment B had retained its biological activity.  相似文献   

2.
Diphtheria toxin B fragment is capable of forming cation-selective channels in the plasma membrane. Such channels may be involved in the translocation of the toxin A fragment to the cytosol. Seven negatively charged amino acids in the B fragment were replaced one by one by lysines, followed by studies of cytotoxicity and channel-forming ability of the different mutants. The mutant D392K showed a strong reduction in binding to cell surface receptors. Of the six mutants that showed wild-type binding affinity, the two mutants D295K and D318K were very inefficient in forming channels. These two mutants had the lowest ability to mediate A fragment translocation. The mutant E362K was able both to induce cation channel formation and to mediate A fragment translocation at a higher pH value than the wild-type B fragment. The results support the notion that formation of cation channels is of importance for the translocation of the A fragment across the plasma membrane, and they indicate that the pH requirement for translocation of the A fragment to the cytosol is partly determined by the B fragment.  相似文献   

3.
Adenylate cyclase (AC) toxin from Bordetella pertussis penetrates eukaryotic cells and upon activation by calmodulin generates unregulated levels of intracellular cAMP. The process of toxin penetration into sheep erythrocytes was resolved into three consecutive steps including insertion, translocation, and intracellular cleavage. Insertion of the toxin into the cell membrane occurred over a wide temperature range (4-36 degrees C). In contrast, translocation of the toxin, i.e. transfer of the NH2-terminal catalytically active fragment across the membrane, occurred only above 20 degrees C and was highly temperature-dependent. While a single exposure of the toxin to Ca2+ was sufficient for its insertion into the plasma membrane, toxin translocation required exogenous Ca2+ at mM concentrations. Translocation was not affected by pretreatment of cells with trypsin, N-ethylmaleimide, and sodium carbonate at alkaline pH. The NH2-terminal fragment of the toxin was cleaved in the cell releasing the 45-kDa active AC into the cytosol. The cleavage was blocked by treatment of cells with N-ethylmaleimide. It is hypothesized that the COOH-terminal portion of the toxin creates in the membrane a channel through which the NH2-terminal fragment is translocated.  相似文献   

4.
The role of specific receptors in the translocation of diphtheria toxin A fragment to the cytosol and for the insertion of the B fragment into the cell membrane was studied. To induce nonspecific binding to cells, toxin was either added at low pH, or biotinylated toxin was added at neutral pH to cells that had been treated with avidin. In both cases large amounts of diphtheria toxin became associated with the cells, but there was no increase in the toxic effect. There was also no increase in the amount of A fragment that was translocated to the cytosol, as estimated from protection against externally added Pronase E. In cells where specific binding was abolished by treatment with 12-O-tetradecanoyl-phorbol 13-acetate, trypsin, or 4,4'-diisothiocyano-2,2'-stilbenedisulfonic acid, unspecific binding did not induce intoxication or protection against protease. This was also the case in untreated L cells, which showed no specific binding of the toxin. When Vero cells with diphtheria toxin bound to specific receptors were exposed to low pH, the cells were permeabilized to K+, whereas this was not the case when the toxin was bound nonspecifically at low pH or via avidin-biotin. The data indicate that the cell-surface receptor for diphtheria toxin facilitates both insertion of the B fragment into the cell membrane and translocation of the A fragment to the cytosol.  相似文献   

5.
Thyrotropin (TSH) has been coupled to the photoactive heterobifunctional reagent N-hydroxysuccinimidyl 4-azidobenzoate (HSAB) and the properties of the product (HSAB-TSH) investigated. Preparations of HSAB-TSH containing two molecules of HSAB per molecule of TSH were used in most experiments and these preparations retained about 40% of the original receptor-binding activity of the TSH. HSAB-TSH could be labelled with 125I and cross-linked to porcine and human TSH receptors. Analysis of the cross-linked complexes indicated that the receptors consisted of two subunits (designated A and B) linked by a disulphide bridge. In the case of the human TSH receptor, the A- and B-subunits had approximate Mr values of 50 000 and 30 000 respectively, whereas the Mr values for porcine TSH-receptor A- and B-subunits were approx. 45 000 and 25 000 respectively. Only the A subunit was cross-linked to TSH. Comparison of the effects of trypsin and mercaptoethanol on the TSH-TSH-receptor complexes suggested that the trypsin cleavage point on the A-subunit was at a point close to the disulphide bridge.  相似文献   

6.
Diphtheria toxin interaction with membranes has been studied by following the release of a fluorescent dye (calcein) encapsulated within large unilamellar vesicles. Results showed that diphtheria toxin induced temperature- as well as pH-dependent permeability changes in these model membranes. Interestingly, insertion of the "channel-forming" B domain was not sufficient for calcein release, since dye release from vesicles composed of dimyristoyllecithin:cholesterol:dicetylphosphate 4:3:0.8) was completely inhibited at low temperatures which permitted B insertion. Rather, the temperature dependence of calcein release from and A domain insertion into dimyristoyllecithin:cholesterol:dicetyl phosphate vesicles suggest some relationship between "channel formation" and fragment A translocation across membranes. However, the nature of the toxin channel is called into question by our observations that channel size, in addition to activity, was pH-dependent. On the basis of these experiments, it is proposed that the toxin "channel" is the result of localized perturbations in the lipid bilayer at the interface between lipids and inserted toxin molecules that are sufficiently large in fluid membranes at low pH to allow the translocation of fragment A across the bilayer.  相似文献   

7.
The membrane insertion of diphtheria toxin and of its B chain mutants crm 45, crm 228 and crm 1001 has been followed by hydrophobic photolabelling with photoactivatable phosphatidylcholine analogues. It was found that diphtheria toxin binds to the lipid bilayer surface at neutral pH while at low pH both its A and B chains also interact with the hydrocarbon chains of phospholipids. The pH dependence of photolabelling of the two protomers is different: the pKa of fragment B is around 5.9 while that of fragment A is around 5.2. The latter value correlates with the pH of half-maximal intoxication of cells incubated with the toxin in acidic mediums. These results suggest that fragment B penetrates into the bilayer first and assists the insertion of fragment A and that the lipid insertion of fragment B is not the rate-controlling step in the process of membrane translocation of diphtheria toxin. crm 45 behaves as diphtheria toxin in the photolabelling assay but, nonetheless, it is found to be three orders of magnitude less toxic than diphtheria toxin on acid-treated cells, suggesting that the 12-kDa COOH-terminal segment of diphtheria toxin is important not only for its binding to the cell receptor but also for the membrane translocation of the toxin. It is suggested that crm 1001 is non-toxic because of a defect in its membrane translocation which occurs at a lower extent and at a lower pH than that of the native toxin; as a consequence crm 1001 may be unable to escape from the endosome lumen into the cytoplasm before the fusion of the endosome with lysosomes.  相似文献   

8.
Erythrocyte ghosts containing a known number of molecules of purified fragment A of diphtheria toxin with a constant amount of FITC-BSA as a fluorescence marker were prepared by dialyzing a mixture of erythrocytes and these substances against hypotonic solution. These substances were then introduced into diphtheria toxin-resistant mouse L cells by virus-mediated cell fusion of the cells with the ghosts, and mononuclear recipients that had fused with only one erythrocyte ghost were separated in a fluorescence-activated cell sorter (FACS) on the basis of their cell size and fluorescence intensity. After separation, the viability of cells containing known numbers of fragment A was examined by measuring colony-forming ability. The results demonstrated that a single molecule of fragment A was sufficient to kill a cell.This fact was confirmed by introduction into cells of fragment A from an immunologically related mutant toxin, CRM 176 (fragment A-176); this has a completely functional fragment B region, but in cell extracts, the enzymic activity of its fragment A is about 10 fold less than that of wild toxin. The cytotoxicity of CRM 176 is about two hundredths of that of the wild-type (Uchida, Pappenheimer and Greany, 1973). As expected, about 100–200 fold excess of fragment A-176 was needed to kill the cells.  相似文献   

9.
S McGill  H Stenmark  K Sandvig    S Olsnes 《The EMBO journal》1989,8(10):2843-2848
We have developed a system to study the interactions of diphtheria toxin with the cell surface using non-toxic mutant proteins synthesized in vitro. Proteins obtained by N-terminal deletions containing the whole B fragment bound strongly to cells. Deletions extending into the B fragment did not yield an autonomous binding domain. Loss of only the N-terminal 3 kd of the B fragment significantly impaired the ability to recognize the receptor. This, together with previous reports that the C-terminal end of the B fragment is required for binding, suggests that both ends of the B fragment are necessary for receptor recognition. Receptor bound diphtheria toxin undergoes a conformational change at pH less than 5.3 that results in translocation of the A fragment to the cytosol and the appearance of a B fragment-derived 25 kd polypeptide (P25) resistant to externally applied protease. Only the B fragment was required for generation of P25. N-terminal deletions of 130 amino acids or more resulted in proteins that gave rise to P25 at higher pH than full length toxin. Furthermore, a second protease-inaccessible polypeptide of 18 kd (P18) was observed.  相似文献   

10.
Diphtheria Toxin (DT) is a 535 amino acid exotoxin, whose active form consists of two polypeptide chains linked by an interchain disulphide bond. DT's N-terminal A fragment kills cells by enzymatically inactivating their protein synthetic machinery; its C terminal B chain is required for the binding of toxin to sensitive cells and for the translocation of the A fragment into the cytosol. This B fragment, consisting of its N-terminal T domain (amino acids 191–386) and its C-terminal R domain (amino acids 387–535) is responsible for the ion-conducting channels formed by DT in lipid bilayers and cellular plasma membranes. To further delineate the channel-forming region of DT, we studied channels formed by deletion mutants of DT in lipid bilayer membranes under several pH conditions. Channels formed by mutants containing only the T domain (i.e., lacking the A fragment and/or the R domain), as well as those formed by mutants replacing the R domain with Interleukin-2 (Il–2), have single channel conductances and selectivities essentially identical to those of channels formed by wild-type DT. Furthermore, deleting the N-terminal 118 amino acids of the T domain also has minimal effect on the single channel conductance and selectivity of the mutant channels. Together, these data identify a 61 amino acid stretch of the T domain, corresponding to the region which includes -helices TH8 and TH9 in the crystal structure of DT, as the channel-forming region of the toxin.This work was supported by NIH grants AI22021, AI22848 (R.J.C.), T32 GM07288 (J.A.M.) and GM29210 (A.F.).  相似文献   

11.
Diphtheria toxin contains a trypsin-sensitive region with 3 closely spaced arginines in the sequence (Asn189, Arg190, Val191, Arg192, Arg193, Ser194). Cleavage of the toxin to yield A- and B-fragments ("nicking") appears to occur in a stochastic manner after either of these arginine residues. Isoelectric focusing of A-fragment prepared in vitro showed four bands of varying intensity with pI between 4.5 and 5.0, three of which could be accounted for by the three different cleavage sites. Exposure of cells with surface-bound toxin to pH less than 5.3 induces translocation of A-fragment to a position where it is shielded from external Pronase, presumably in the cytosol. A-fragment translocated in this manner had the same pI as the most acidic A-fragments, indicating that only A-fragments lacking both Arg192 and Arg193 are translocation-competent. This was confirmed by amino acid sequencing. Treatment of A-fragment with carboxypeptidase B eliminated the two bands with the highest pI while there was a concomitant increase in the bands corresponding to the two most acidic A-fragments. Such treatment of nicked diphtheria toxin increased the amount of translocated A-fragment and the ability of toxin to form cation-selective pores in the cell membrane. The site of trypsin cleavage therefore appears to be one of the factors limiting toxin entry to the cytosol.  相似文献   

12.
Clostridium difficile toxin B (269 kDa), which is one of the causative agents of antibiotic-associated diarrhea and pseudomembranous colitis, inactivates Rho GTPases by glucosylation. Here we studied the uptake and membrane interaction of the toxin with eukaryotic target cells. Bafilomycin A1, which prevents acidification of endosomal compartments, blocked the cellular uptake of toxin B in Chinese hamster ovary cells cells. Extracellular acidification (pH 相似文献   

13.
1. A comparison of the diagonal ;maps' of chymotrypsin A and ;tosylphenylalanyl chloromethyl ketone'-inhibited chymotrypsin A showed that His-57 is alkylated specifically by this substrate analogue. 2. From peptic digests of chymotrypsinogen A and B, trypsin and elastase it was demonstrated by the diagonal electrophoretic technique that a common di-histidine cystine-bridged structure is present in all four enzymes. 3. The sequences of these peptides were determined and show that the positions of the two histidine residues relative to the disulphide bond are a common feature. Thus His-40 of chymotrypsin A is only two residues removed from CyS-42, and His-57 is adjacent to the other half of this bridge, CyS-58. 4. Considerable variation in sequence occurs about His-40, where the aromatic residues 39 and 41 of the chymotrypsins and trypsin are replaced by alanine and threonine in elastase. There is a remarkable similarity in sequence following CyS-42 and preceding CyS-58 in all four enzymes.  相似文献   

14.
Activation of Cry protoxins is carried out by midgut proteases. This process is important for toxicity and in some cases for specificity. Commercial proteases have been used for in vitro protoxin activation. In the case of Cry1A protoxins, trypsin digestion generates a toxic fragment of 60–65 kDa. Here, we have analyzed the in vitro and in vivo activation of Cry1Ab. We found differences in the processing of Cry1Ab protoxin by Manduca sexta and Spodoptera frugiperda midgut proteases as compared to trypsin. Midgut juice proteases produced two additional nicks at the N-terminal end removing helices 1 and 2a to produce a 58 kDa protein. A further cleavage within domain II splits the toxin into two fragments of 30 kDa. The resulting fragments were not separated, but instead coeluted with the 58 kDa monomer, in size-exclusion chromatography. To examine if this processing was involved in the activation or degradation of Cry1Ab toxin, binding, pore formation, and toxicity assays were performed. Pore formation assays showed that midgut juice treatment produced a more active toxin than trypsin treatment. In addition, it was determined that the 1 helix is dispensable for Cry1Ab activity. In contrast, the appearance of the 30 kDa fragments correlates with a decrease in pore formation and insecticidal activities. Our results suggest that the cleavage in domain II may be involved in toxin inactivation, and that the 30 kDa fragments are stable intermediates in the degradation pathway.  相似文献   

15.
Homogeneous fragment B, obtained through nicking of diphtheria toxin with insoluble trypsin, was cleaved with cyanogen bromide in 70% formic acid. After citraconylation, the cleavage products were separated by gel filtration on Sephadex G--75 and purified by gel filtration, ion-exchange and thin-layer or paper chromatography. Six CNBr peptides were characterized, the composition of which account for the total amino acid content of fragment B. Their apparent molecular weights are: CB 1, 12 000; CB 2, 14 000; CB 3, 8000; CB 4a, 2400; CB 4b, 2200; CB 5, 2200. CB 4a is the NH2--terminal peptide; it contains the cysteine residue of the disulfide bridge linking fragment B to fragment A. CB 3 is the COOH--terminal peptide; it bears the disulfide bridge of fragment B. Characterization of two CNBr--derived overlapping peptides provided the positioning of CB 4b and CB 2 and allowed an alignment of the CNBr peptides of fragment B to be proposed.  相似文献   

16.
The disulphide bridges of a mouse immunoglobulin G1 protein   总被引:7,自引:3,他引:4  
[(35)S]Cystine-labelled immunoglobulin MOPC21 (IgG1) was prepared from myeloma cells in tissue culture. Carrier myeloma protein was added and the protein was digested with pepsin. The digest was fractionated on Sephadex G-50 into two fractions, further digested with trypsin and again fractionated on Sephadex. Disulphide-bridge peptides were purified by electrophoresis and chromatography and identified by radioautography. A peptide of 96 residues was isolated, which contains both the heavy-light interchain disulphide bridge and all the inter-heavy-chain disulphide bridges. Other peptides were isolated, accounting for all the intrachain disulphide bridges (which could be placed by homology with proteins of other species), except for the variable section of the light chain. Sequences describing this missing disulphide bridge were obtained from totally reduced and alkylated light chains. Peptides related to the interchain disulphide-bridge peptide were isolated from partially reduced and alkylated myeloma protein and from totally reduced heavy chain. The interchain disulphide-bridge peptide was placed at the C-terminal position of the F(ab')(2) fragment, prepared by digestion of the protein with pepsin at pH4.0. Sequences from the heavy-chain intrachain disulphide bridges of MOPC 21 immunoglobulin are compared with homologous sequences from mouse myeloma proteins of other subclasses and proteins of other species.  相似文献   

17.
Clostridium difficile toxin B (269 kDa) is one of the causative agents of antibiotic-associated diarrhea and pseudomembranous colitis. Toxin B acts in the cytosol of eukaryotic target cells where it inactivates Rho GTPases by monoglucosylation. The catalytic domain of toxin B is located at the N terminus (amino acid residues 1-546). The C-terminal and the middle region of the toxin seem to be involved in receptor binding and translocation. Here we studied whether the full-length toxin or only a part of the holotoxin is translocated into the cytosol. Vero cells were treated with recombinant glutathione S-transferase-toxin B, and thereafter, toxin B fragments were isolated by affinity precipitation of the glutathione S-transferase-tagged protein from the cytosolic fraction of intoxicated cells. The toxin fragment (approximately 65 kDa) was recognized by an antibody against the N terminus of toxin B and was identified by matrix-assisted laser desorption ionization time-of-flight mass spectrometry analysis as the catalytic domain of toxin B. The toxin fragment located in the cytosol possessed glucosyltransferase activity that could modify RhoA in vitro, but it was not able to intoxicate intact cells. After treatment of Vero cells with a radiolabeled fragment of toxin B (amino acid residues 547-2366), radioactivity was identified in the membrane fraction of Vero cells but not in the cytosolic fraction of Vero cells. Furthermore, analysis of cells by fluorescence microscopy revealed that the C terminus of toxin B was located in endosomes, whereas the N terminus was detected in the cytosol. Protease inhibitors, which were added to the cell medium, delayed intoxication of cells by toxin B and pH-dependent translocation of the toxin from the cell surface across the cell membrane. The data indicate that toxin B is proteolytically processed during its cellular uptake process.  相似文献   

18.
To understand the mechanism of diphtheria toxin membrane translocation, the toxin was entrapped within lipid vesicles, and its low pH-induced translocation across the lipid bilayer was measured. Proteolysis and resistance to guanidinium chloride denaturation were used to demonstrate that the toxin molecules were entrapped. Low pH-induced movement of entrapped toxin to the outer (trans) face of the bilayer was assayed by the binding of external streptavidin to biotin-labeled entrapped toxin. Complete translocation was quantified by the amount of protein released into the external medium. Using whole toxin, it was found that the A fragment was efficiently translocated, but the B fragment was not. This was true both in the low temperature (A domain folded) and high temperature (A domain unfolded) toxin conformations previously identified [Jiang J. X., Abrams, F. S., and London, E. (1991) Biochemistry 30, 3857-3864]. Remarkably, even isolated fragment A appeared to self-translocate under some conditions. Toxin-induced translocation may partly result from formation of a nonspecific toxin-induced pore. This idea is supported by the toxin-induced release of fluorescent dextrans coentrapped within the vesicles. However, low pH-induced exposure of entrapped toxin on the outside of the membrane was conformation dependent. Exposure was greatest for the high temperature conformation. This suggests the existence of a more specific translocation process. The nature and relationship of these processes, and their relative roles in translocation in vivo are discussed.  相似文献   

19.
Both the disulphide bond (Cys192-Cys199) and the proline-rich motif (Pro193ProAsnPro196) in the long loop connecting the alpha4-alpha5 transmembrane hairpin of the Cry4Aa mosquito-larvicidal protein have been found to be unique among the Bacillus thuringiensis Cry delta-endotoxins. In this study, their structural requirements for larvicidal activity of the Cry4Aa toxin were investigated. C192A and C199A mutant toxins were initially generated and over-expressed in Escherichia coli cells as 130-kDa protoxins at levels comparable to that of the wild-type toxin. When their activities against Aedes aegypti larvae were determined, Escherichia coli cells expressing each mutant toxin retained the high-level toxicity. Further mutagenic analysis of the PPNP motif revealed that an almost complete loss in larvicidal activity was observed for the C199A/P193A double mutant, whereas a small reduction in toxicity was shown for the C199A/P194A and C199A/P196A mutants. Increasing the flexibility of the alpha4-alpha5 loop through C199A/P193G, C199A/P194G/P196A, C199A/P194A/P196G, and C199A/P194G/P196G mutations significantly decreased the larvicidal activity. Similar to the wild-type protoxin, all mutant toxins were structurally stable upon solubilisation and trypsin activation in carbonate buffer, pH 9.0. These findings are the first biological evidence for a structural function in larvicidal activity of the unique disulphide bridge as well as the proline-rich motif within the alpha4-alpha5 loop of the Cry4Aa toxin.  相似文献   

20.
R A Khaertdinov 《Genetika》1985,21(11):1891-1895
The quantitative determination of genetical variants A and B of beta, kappa-caseins (beta-Cn, kappa-Cn), beta-lactoglobulin (beta-Lg) in Cholmogor cow's milk was carried out by means of polyacrylamide gel electrophoresis and direct densitometrication. In all milk proteins of heterozygous cows with beta-CnAB, kappa-CnAB, beta-LgAB the variant A content was higher than that of variant B (P less than 0.001). The variant A of beta-casein was 0.380 g/100 ml (54.6%), B-0.316 g/100 ml (45.4%); of kappa-casein A-0.208 g/100 ml (58.3%), B-0.149 g/100 ml (41.7%); of beta-lactoglobulin A-0.143 g/100 ml (54.8%), B-0.118 g/100 ml (45.2%). The alleles beta-CnA, kappa-CnA, beta-LgA ensure higher quantity of protein than beta-CnB, kappa-CnB, beta-LgB alleles.  相似文献   

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