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1.
Hemolysins are cell-damaging protein toxins produced by pathogenic bacteria, which are usually released into the extracellular medium. Escherichia coli enterohemolysin is an intracellular toxin produced during the log phase of growth, with a maximal intracellular accumulation in the late log phase. In the present study, we have employed electron microscopy and SDS-PAGE to assess the effects of enterohemolysin on erythocyte membranes from different species. The erythrocyte cell damage began immediately after exposure to enterohemolysin with chemically detectable changes in cell membrane permeability, and the formation of surface lesions which increased rapidly in size. This process resulted in complete cell destruction. Ring-shaped structures with a diameter of 10nm were observed by electron microscopy after treatment of horse erythrocyte membranes with enterohemolysin. The ring structures were found clustered and irregularly distributed on the surface of the membranes. Following incubation of the toxin with horse erythrocyte ghosts and detergent-solubilization, the enterohemolysin was isolated from the cytoplasm in its membrane-bound form by sucrose density gradient. SDS-PAGE and silver staining of deoxycholate-solubilized target membranes revealed heterogeneous forms of the toxin. By using SDS-PAGE and gel filtration, the molecular weight of the toxin was estimated to be 35 kDa. With respect to species specificity, horse erythrocytes showed the highest sensitivity to the enterohemolysin, followed by human and guinea pig erythrocytes. The hemolytic sensitivity correlated with the toxin binding capacity of erythrocyte membranes of different animal species. The degree of hemolysis was unaffected by temperature in the range of 4 degrees C-37 degrees C and was optimal at pH 9.0. In contrast to pore-forming cytolysins, the hemolytic activity of enterohemolysin was enhanced continuously in the presence of increasing concentrations of dextran 4 and dextran 8 within the range of 5 to 30 mM. Trypsin sensitivity of membrane-bound enterohemolysin indicates that the cell surface is the most likely target site for this toxin. Additionally, the fact that proteinase and phosphatase inhibitors failed to inhibit lysis suggests that enterohemolysin alters and disrupts cell membranes by a detergent-like mechanism.  相似文献   

2.
P Cassidy  S Harshman 《Biochemistry》1976,15(11):2348-2355
Staphylococcal alpha-toxin, a hemolytic exotoxin, can be iodinated using the lactoperoxidase method. 125 I-Labeled alpha-toxin binds to rabbit erythrocytes in an apparently irreversible and highly specific manner. The binding of 125 I-labeled alpha-toxin to erythrocytes of rabbit and human reflects the species specificity of native alpha-toxin. Binding of 125I-labeled alpha-toxin is blocked by the presence of native alpha-toxin, 127I-labeled alpha-toxin, or anti-alpha-toxin antibody. Simultaneous assays of 125I-labeled alpha-toxin binding and leakage of intracellular 86Rb+ suggest that toxin binding and membrane damage are separate, sequential functions. Both the rate and extent of binding are temperature dependent. Rabbit erythrocytes possess 5 X 10(3) binding sites/cell, while human erythrocytes possess no detectable binding sites. Treatment of rabbit erythrocytes with 125I-labeled alpha-toxin appears to decrease the number of unoccupied binding sites. Chaotropic ions can inhibit 125I-labeled alpha-toxin binding and cause bound 125I-labeled alpha-toxin to dissociate from rabbit erythrocyte membranes. Treatment of intact rabbit erythrocytes with pronase reduces both the binding capacity of the cells for 125I-labeled alpha-toxin, and the cells' sensitivity to hemolysis by native alpha-toxin. It is proposed that the primary binding site for alpha-toxin in biomembranes is a surface membrane protein.  相似文献   

3.
The direct binding of cholera toxin to the receptor on the native cell surface was analyzed with a fluorescence-activated cell sorter (FACS) by the direct membrane immunofluorescence technique using FITC-conjugated cholera toxin B subunit as a ligand and erythrocytes, but the binding was significantly affected by a change in pH, showing optimum pH of 7.2. The optimum conditions for analysis of the cholera toxin-binding with a FACS were reaction of the target cells with 0.2 M phosphate-buffer (pH 7.2) containing 0.025% of BSA and 0.175 M of NaCl at 4 degrees C for 40 min. The binding of cholera toxin B subunit to rat erythrocytes was linear in the range of 1.2 ng to 80 ng, which corresponded to 2,469 to 163,500 molecules of toxin per cell, and the latter was almost the saturated level of binding. although erythrocytes from different strains of rats possessed equal binding ability for the cholera toxin, no binding was observed with erythrocytes from mouse, guinea pig, cow, pig, man, or rabbit, indicating that the cholera-toxin binding occurs specifically on rat erythrocytes. This is in accord with our previous analytical deta on the absence of GM1 in erythrocytes of these animals except rat, of which erythrocytes contain GM1. Also, the structural specificity of the receptor for cholera toxin was assessed by a binding inhibition experiment using glycolipid-containing liposomes as inhibitors and GM1 was found to be the most potent inhibitor, showing complete inhibition of toxin (40 ng) binding to 5 x 10(6) erythrocytes at 505.6 pmol of GM1.  相似文献   

4.
The ontogenic evolution of chicken red cell Fc receptor was studied in red cells from different age chicken embryos, baby chicken, and adult chicken. The Fc receptor binding capacity for ligands, the number of Fc receptors by red cell, and the association constant between receptor and ligand were analyzed. The Fc receptor is expressed in the red cell surface of 6-day chicken embryo and its binding capacity for ligand—minimal at this moment—is increased in the 8-day chicken embryo red cells. The 12-day chicken embryo erythrocytes binding capacity is similar to the adult chicken red cells. The number of Fc receptors by red cell increase with the age of chicken embryo. After 9 days this number is not modified and it is the same as in adult chicken. Variations of Ko and binding capacity for ligands show a similar evolution in embryogenic development. From these data we suggest that although on Day 9 the number of receptors per cell is the same as in adult chicken, the receptors are not completely exposed at this time and as a consequence, their binding capacity for ligands is lower than in adult chicken erythrocytes.  相似文献   

5.
An appraisal of Fc receptors on human peripheral blood B and L lymphocytes.   总被引:11,自引:0,他引:11  
Human circulating lymphocytes with easily detectable surface immunoglobulin have been divided into two populations, B cells and L cells. This second population lacks membrane-incorporated Ig, but has a receptor for membrane-labile cytophilic IgG. In this study purified B and L lymphocytes were examined for Fc receptors that bind aggregated IgG and IgG complexed to erythrocytes. Purified lymphocyte populations were prepared by nylon columns and by negative selection with rosetting techniques. L lymphocytes bound aggregated guinea pig and human IgG, and formed rosettes with human erythrocytes sensitized with Ripley IgG (EA). Treatment of L lymphocytes with trypsin had no effect on the receptors for IgG. B lymphocytes did not bind EA and attachment of aggregated IgG was variable; up to one-third of these cells fixed aggregated human IgG to the cell membrane. Trypsin treatment abolished binding of Agg-IgG to B cells in sharp contrast to its effect on L cells. Furthermore, double-label immunofluorescence studies showed that cells with both membrane-incorporated Ig and receptors for aggregated guinea pig IgG were rare. These studies indicate that human peripheral blood B lymphocytes lack a high affinity, trypsin-resistant Fc receptor that is present on L lymphocytes.  相似文献   

6.
Analyses of insulin binding to human erythrocytes and to resealed right-side-out and inside-out erythrocyte membrane vesicles have revealed that high affinity insulin binding receptors are present on both sides of the erythrocyte membranes. Insulin binding to human erythrocytes was examined with the use of a binding assay designed to minimize the potential errors arising from the low binding capacity of this cell type and from non-specific binding in the assay. Scatchard analysis of equilibrium binding to the cells revealed a class of high affinity sites with a dissociation constant (Kd) of (1.5 +/- 0.5) X 10(-8) M and a maximum binding capacity of 50 +/- 5 sites per cell. Interestingly, both resealed right-side-out and inside-out membrane vesicles exhibited nearly identical specific sites for insulin binding. At the high affinity binding sites, for both right-side-out and inside-out vesicles, the dissociation constant (Kd) was (1.5 +/- 0.5) X 10(-8) M, and the maximum binding capacity was 17 +/- 3 sites per cell equivalent. These findings suggest that insulin receptors are present on both sides of the plasma membrane and are consistent with the participation of the erythrocyte insulin receptors in an endocytic/recycling pathway which mediates receptor-ligand internalization/externalization.  相似文献   

7.
Although much is known about the actions of cholera toxin on intestinal and extra-gastrointestinal tissues, almost nothing is known about the interaction of this toxin with cells in the stomach. In the present study, we prepared 125I-labeled cholera toxin (1900 Ci/mmol) and examined the binding of this radioligand to dispersed Chief cells from guinea pig stomach. Moreover, we examined the actions of cholera toxin on cellular cAMP and pepsinogen secretion from Chief cells. Binding of 125I-labeled cholera toxin could be detected within 5 min, was maximal by 60 min, and was increased by increasing the radioligand or cell concentrations. Inhibition of binding by unlabeled toxin indicated a dissociation constant of 3 nM and 8.7 X 10(5) cholera toxin receptors per Chief cell. In contrast to the rapidity of binding, a cholera toxin-induced increase in cAMP and pepsinogen secretion was not detected until 30-45 min of incubation. A 3 to 6-fold increase in cAMP and pepsinogen secretion was observed with maximal concentrations of cholera toxin. Binding of 125I-labeled cholera toxin and the toxin's actions on cAMP and pepsinogen secretion were inhibited by the B subunit of the toxin. Binding was not altered by other agents that have been shown to stimulate pepsinogen secretion (carbachol, CCK-8, secretin, vasoactive intestinal peptide, prostaglandin E1, or forskolin). These data indicate that Chief cells from guinea pig stomach possess a specific class of cholera toxin receptors. Binding of cholera toxin to these receptors causes an increase in cellular cAMP that stimulates pepsinogen secretion.  相似文献   

8.
Bordetella pertussis produces a calmodulin-activated adenylate cyclase (AC) that exists in several forms. Only one form of AC, of apparent 200 kDa, is a toxin that penetrates eukaryotic cells and generates uncontrolled levels of intracellular cAMP. Recombination studies in transposon Tn5-insertion mutants of B. pertussis and amino acid sequence homology with alpha-hemolysin of Escherichia coli suggested that AC toxin may also have a hemolytic activity. Here, we demonstrate that only the toxic form of B. pertussis AC possesses hemolytic activity. Immunoblotting of membranes from sheep erythrocytes throughout the process of cell lysis detects the presence and accumulation of only the 200-kDa form of B. pertussis AC. cAMP generation induced by AC toxin in sheep erythrocytes is immediate whereas appearance of hemolysis is delayed by about 1 h and requires a higher level of AC toxin activity. Addition of exogenous calmodulin to sheep erythrocyte incubation medium potentiates the hemolytic activity of AC toxin but blocks cAMP generation. Extracellular Ca2+ at mM concentrations is absolutely required for cAMP generation but not for hemolysis. However, binding of AC toxin to sheep erythrocytes in the absence of exogenous Ca2+ followed by reincubation of cells in a toxin-free buffer containing Ca2+ leads to an immediate rise in intracellular cAMP. Human erythrocytes bind AC toxin and generate cAMP but are resistant to lysis. These results show that binding of AC toxin to erythrocytes can cause both cAMP generation and hemolysis or only one of these depending on conditions applied and cell type used.  相似文献   

9.
Binding of Clostridium perfringens 125I-labeled delta-toxin to erythrocytes   总被引:1,自引:0,他引:1  
Hemolytically active, 125I-labeled delta-toxin from Clostridium perfringens was used to study the binding of this cytolysin to sheep, goat, human, rabbit, horse, mouse, and guinea pig erythrocytes. The extent of toxin binding was correlated with the known hemolytic specificity of the toxin. Detailed studies of the binding were carried out on sheep erythrocytes which showed the highest sensitivity to lysis by delta-toxin. Simultaneous determination of toxin binding and release of intracellular 86Rb+ and hemoglobin suggested that toxin binding and membrane damage were separate sequential events. Toxin binding was rapid (2-5 min) and temperature-dependent. The extent of binding was temperature-independent. Binding was saturable, specific, relatively tight (Ka = 4.4 X 10(8) M-1) and largely irreversible. A single type of binding site (7,000/sheep erythrocyte) was found. Cell-bound toxin was extractable by chaotropic ions. Preincubation of the toxin with N-acetylgalactosaminyl-[N-acetylneuraminyl]-galactosylglucosylceramide (GM2 ganglioside) inhibited both binding and hemolysis. Toxin binding was affected by pretreatment of sheep erythrocytes with pronase but not with trypsin or chymotrypsin. Cell treatment with neuraminidase prevented toxin binding by 30%. Preincubation of the toxin with specific immune sera blocked its binding on target cells. It is suggested that GM2 ganglioside, a more complex membrane component containing this glycolipid or a structurally related molecule is the binding site for delta-toxin on the surface of sensitive erythrocytes.  相似文献   

10.
Staphylococcal alpha-toxin was radiolabeled to high specific radioactivity (1,500-3,000 Ci/mmol) under retention of its hemolytic activity. Binding studies with susceptible rabbit erythrocytes and highly resistant human erythrocytes revealed that binding of alpha-toxin to target cells can occur via two different mechanisms. Binding of alpha-toxin to rabbit erythrocytes initially involves specific binding sites and occurs at low concentrations, with half-maximal binding at 1-2 nM. In contrast, toxin binding to human erythrocytes is absorptive and nonspecific, in this case, significant binding as well as hemolysis occur only at alpha-toxin concentrations exceeding 1 microM. Autoradiographic analyses of membrane-associated alpha-toxin from either cell species proved that hemolysis was inevitably associated with the formation of toxin hexamers. Our data indicate that the high susceptibility of certain target cells toward alpha-toxin is caused by the presence of specific binding sites. However, membrane damage of both susceptible and nonsusceptible target cells occurs via a common mechanism involving toxin oligomerization and pore formation.  相似文献   

11.
35S-labeled killer toxin protein bound to cells of sensitive Saccharomyces cerevisiae S14a. Strains that were resistant to toxin through mutation in the nuclear genes kre1 kre2 bound toxin only weakly. Non-radioactive toxin competed effectively with 35S-labeled toxin for binding to S14a, but did not compete significantly in the binding to mutant kre1-1. This implied that binding to kre1-1 was nonspecific. A Scatchard analysis of the specific binding to S14a gave a linear plot, with an association constant of 2.9 x 10(6) M-1 and a receptor number of 1.1 x 10(7) per cell. Killer toxin receptors were solubilized from the cell wall by zymolyase digestion. Soluble, non-dialyzable cell wall digest from S14a competed with sensitive yeast cells for 35S-labeled toxin binding and reduced toxin-dependent killing of a sensitive strain. Wall digest from kre1-1 competed only weakly for toxin binding with sensitive cells and caused little reduction of toxin-dependent killing. Although the abundant (1.1 x 10(7) per cell) receptor appeared necessary for toxin action, as few as 2.8 x 10(4) toxin molecules were necessary to kill a sensitive cell of S14a. The kinetics killing of S14a suggested that some component was saturated with toxin at a concentration 50-fold lower than that needed to saturate the wall receptor.  相似文献   

12.
The relationship between binding of the hemolytic toxin (prymnesin) to bovine erythrocytes and the amount of heat liberated was examined as a function of pH using a flow microcalorimeter and 3H-labelled toxin isolated from the euryhaline alga Prymnesium parvum. A high degree of correlation (correlation coefficient = 0.986) was found between the amount of heat generated and the quantity of toxin that was allowed to interact with the erythrocytes. No significant binding of toxin was observed at pH 7 but it increased linearly as the pH was reduced to 5.5. Maximum heat and binding occured at a pH range 4.5–5.5. The same pattern was followed in terms of the amount of heat liberated and the hemolytic activity of the toxin. The differences in the maximum binding and heat production as a function of pH was independent of the average red cell volume which remained constant at pH 5.5 and 6.2 (102.4 and 102.6 μm3, respectively).  相似文献   

13.
Transferrin (Tf) receptor-variant Chinese hamster ovary cells have been isolated by selection for resistance to two Tf-toxin conjugates. The hybrid toxins contain Tf covalently linked to ricin A chain or a genetically engineered diphtheria toxin fragment. The Tf-receptor-variant (TRV) cells do not have detectable cell-surface Tf receptor; they do not bind fluorescein-Tf or 125I-Tf. TRV cells are at least 100-fold more resistant to the Tf-diphtheria toxin conjugate than are the parent cells. The TRV cells have retained sensitivity to native diphtheria toxin, indicating that the increased resistance to the conjugate is correlated with the loss of Tf binding. The endocytosis of fluorescein-labeled alpha 2-macroglobulin is normal in TRV cells, demonstrating that the defect does not pleiotropically affect endocytosis. Since these cells lack endogenous Tf receptor activity, they are ideally suited for studies of the functional expression of normal or altered Tf receptors introduced into the cells by cDNA transfection. One advantage of this system is that Tf binding and uptake can be used to monitor the behavior of the transfected receptor. A cDNA clone of the human Tf receptor has been transfected into TRV cells. In the stably expressing transfectants, the behavior of the human receptor is very similar to that of the endogenous Chinese hamster ovary cell Tf receptor. Tf binds to cell surface receptors, and is internalized into the para-Golgi region of the cell. Iron is released from Tf, and the apo-Tf and its receptor are recycled back to the cell surface. Thus, the TRV cells can be used to study the behavior of genetically altered Tf receptors in the absence of interfering effects from endogenous receptors.  相似文献   

14.
A hemolysin, 0-toxin, produced by Clostridium perfringens has one cysteinyl residue in the free thiol form which is essential for its hemolytic activity. The cysteinyl residue was shown to be located at a position about 5 kDa from the C terminus of the molecule by the method of cysteine-specific chemical cleavage. Modification of the residue with a thiol-blocking agent, 5,5'-dithiobis(2-nitrobenzoic acid), reduced the binding affinity of the toxin to sheep erythrocytes to 1/100 that of intact toxin, resulting in a failure of binding at low cell concentrations (0.5%). Thus the failure of hemolysis at low cell concentrations is primarily ascribed to a decreased affinity of the toxin for erythrocytes. Effects of the modification on the lytic processes were examined using high cell concentrations where considerable amounts of modified toxin bound to the cells. The modified toxin hemolyzes erythrocytes once it binds to them; however, the efficiency of hemolysis is reduced by the modification. These, and additional results indicating that modification alters the sensitivity of toxin molecules to protease digestion, show that thiol-modification inactivates the toxin by affecting both binding and the subsequent lytic processes, probably through a conformational change introduced in the toxin molecules.  相似文献   

15.
Diphtheria toxin (DT) receptor sites were identified on cell membranes by indirect immunofluorescence and immunoferritin labelling. The results obtained were correlated (1) with the binding of 125I-labelled DT (to the very same cell populations used in the ultrastructural studies), and (2) with toxin sensitivity as shown by inhibition of 14C-amino acid incorporation into protein. Binding and immunocytochemical studies were carried out at 0 degrees C to preclude internalization of DT. Receptor sites for DT were observed on functionally responsive, cultured human diploid (BUD-8) fibroblasts as well as on a small fraction of erythrocytes (RBC) of DT-susceptible species, i.e. human and sheep. On all BUD-8 cell sections DT receptor sites were located in annular patches and not on microvilli as had been observed in the KB epithelial cell line. Immunoferritin label was revealed on only 10% +/- 2.5 (SD) of human RBC in discreet loci along the cell membrane. Specificity of binding of DT to human fibroblast and RBC receptor sites was further demonstrated by competition between 125I-labeled and non-labelled DT. There was no specific binding to DT-treated cultured mouse L929 fibroblasts or to RBC of mouse of rat, species resistant to the toxin. Thus, direct ultrastructural immunocytochemical evidence is provided for the presence of specific cellular DT receptors on cultured cells and erythrocytes of species sensitive to DT, but not on those of species resistant to DT.  相似文献   

16.
The neuropeptide bombesin acts on a variety of target cells to stimulate the processes of secretion and cell proliferation. In this study we determined whether bombesin receptors interact with known guanine nucleotide-binding proteins in four different cell types: GH4C1 pituitary cells, HIT pancreatic islet cells, Swiss 3T3 fibroblasts, and rat brain tissue. Maximal concentrations of nonhydrolyzable GTP analogs decreased agonist binding to bombesin receptors in membranes from all four sources. In GH4C1 and HIT cell membranes GTP analogs inhibited bombesin receptor binding with IC50 values of about 0.1 microM, whereas GDP analogs were approximately 10-fold less potent. In contrast, GMP and the nonhydrolyzable ATP analog adenylyl-imidodiphosphate had no effect at 100 microM. Equilibrium binding experiments in GH4C1 and HIT cell membranes indicated a single class of binding sites with a dissociation constant (Kd) for [125I-Tyr4]bombesin of 24.4 +/- 7.0 pM and a binding capacity of 176 +/- 15 fmol/mg protein. Guanine nucleotides decreased the apparent affinity of the receptors without significantly changing receptor number. Consistent with this observation, guanine nucleotides also increased the rate of ligand dissociation. Pretreatment of GH4C1 or HIT cells with either pertussis toxin (100 ng/ml) or cholera toxin (500 ng/ml) for 18 h did not affect agonist binding to membrane bombesin receptors, its regulation by guanine nucleotides, or bombesin stimulation of hormone release. Although pertussis toxin pretreatment has been reported to block bombesin stimulation of DNA synthesis in Swiss 3T3 cells, it did not alter the binding properties of bombesin receptors in Swiss 3T3 membranes or inhibit the rapid increase in intracellular [Ca2+] produced by bombesin in these cells. In summary, our results indicate that the bombesin receptor interacts with a guanine nucleotide-binding protein which exhibits a different toxin sensitivity from those which regulate adenylate cyclase as well as those which couple some receptors to phospholipases.  相似文献   

17.
应用亲和层析法从三齿草藤(Vicia bungei Ohwi)种子中纯化的三齿草藤凝集素(VBL),可以凝集兔和豚鼠的红细胞,也可凝集人、牛和羊的精细胞,说明这些细胞表面存在有VBL的受体。用FITC和~(125)I进行标记,可得到FITC-VBL和~(125)I-VBL,其生物学活性不受影响。氯胺T法的标记率可达55%;应用FITC-VBL研究牛精细胞和兔红细胞膜上VBL受体的分布,发现二者由胞膜上受体分布据不一致。VBL与牛精细胞结合条件的正交试验表明细胞浓度的影响最大。用不同量的未标记的VBL对~(125)I-VBL与兔红细胞和人精细胞的结合实验,以Scatchard法作图,兔红细胞得一类似于双曲线的凹形曲线,提示该细胞膜上受体的性质有所不同,而人精细胞却有很大差异。若以兔红细胞膜上存在有高低亲和力两种受体进行计算,可求得结合常数和每个细胞上的受体数。应用几种单糖和外源凝集素影响~(125)I-VBL与兔红细胞的结合,当单糖(D-Man,D-Glc)浓度为0.01M时,相对结合率开始急剧下降,单糖浓度若增至0.1M时,其相对结合率仅为40%,而PHA-P和SML浓度为1mg/ml时,相对结合率开始下降,当浓度达10mg/ml时,相对结合率下降至30%左右。  相似文献   

18.
Crosslinking of monomeric IgG2 molecules bound to the Fc gamma receptors on the cell surface of guinea pig macrophages generated the triggering signal for the superoxide-generating system. A binding experiment indicated that macrophages have saturable binding sites for monomeric IgG2. Scatchard analysis of the binding data showed that macrophages have an average of 4 X 10(5) binding sites per cell and the association constant for the binding was 4.2 X 10(6) M-1. Binding of monomeric IgG2 to macrophages could be detected by subsequent reaction with the 125I-labeled F(ab')2 fragment of rabbit antibody specific for guinea pig Fab. Although binding of IgG2 monomer to Fc receptor did not stimulate superoxide release, further addition of the F(ab')2 fragment of anti-guinea pig Fab antibody did induce generation and release of superoxide, and the amount released was dependent on the dose of cell-bound IgG2. When macrophages were bound with a constant dose of IgG2 monomer in the first step, the superoxide release triggered by the addition of the F(ab')2 of anti-guinea pig Fab was dependent on the dose of the F(ab')2 fragment added. These results show that crosslinking of Fc receptors triggers the superoxide generation.  相似文献   

19.
The mechanism of action of cholera toxin in pigeon erythrocyte lysates.   总被引:34,自引:0,他引:34  
The adenylate cyclase activity of intact pigeon erythrocytes begins to rise after about 20 min of exposure to cholera toxin. The maximum rate at which the cyclase activity increases appears to be limited by the number of toxin molecules which can reach an intracellular target. If the erythrocytes are made permeable to the toxin by a bacterial hemolysin, no such limit exists, and adenylate cyclase activity starts to rise immediately upon the addition of toxin, and continues to rise to a maximum at an initially constant rate which is dependent upon the concentration of toxin. On lysed erythrocytes, the addition of cholera antitoxin immediately prevents any further rise in adenylate cyclase activity, but does not reverse any activation already achieved. Erythrocyte lysates may also be activated by isolated peptide A1 of cholera toxin, although activation of adenylate cyclase of intact erythrocytes requires the complete toxin molecule. In the intact cells, toxin first attaches by its Component B to surface receptors of which there are about 30 per erythrocyte. Subsequently, peptide A1 but not Component B is inserted into the erythrocyte. It takes only about 1 min at 37 degrees for peptide A1 to be sufficiently deep within the cell membrane to be inaccessible to extracellular antitoxin, but its complete transit through the membrane appears to take longer. The surface receptors are used only once, for they remain blocked by Component B. The number of receptors available on the surface may be increased by soaking cells in ganglioside GM1. Cholera toxin also decreases the rate of apparently spontaneous loss of adenylate cyclase activity and increases the response to epinephrine. Theophylline inhibits the action of cholera toxin.  相似文献   

20.
Studies have been made on 125I-insulin binding for brain membranes from cyclostomes (the lamprey Lampetra fluviatilis), fish (pink salmon Oncorhynchus gorbuscha) and mammals (rats). The species studied differed by the level of binding (the highest in the rat and the lowest in the lamprey), which was due mainly to differences in the number of binding sites per membrane protein. Qualitative properties of the receptors in the species studied were found to be very similar. All three types of the receptors were capable of differentiating between the insulins from pig, pink salmon and lamprey, all of them binding porcine insulin more readily than the salmon one and the latter better than the insulin from the lamprey. It means that these insulins reacted not to the species specific properties of the hormone, but to biological activity of the insulin. The data obtained indicate that functionally mature insulin receptor may be found already in the brain of cyclostomes and that in the course of animal evolution from cyclostomes to mammals functional properties of this receptor did not undergo any significant changes.  相似文献   

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