Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: KEGG:D00046 (lactose)
16,692 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Kinetic parameters of the interaction of the toxic lectins abrin and ricin with human erythrocytes and HeLa cells have been measured. The binding of 125I-labeled abrin and ricin to human erythrocytes and to HeLa cells at 37 degrees was maximal around pH 7, whereas at 0 degrees the binding was similar over a broad pH range. The binding occurred at similar rates at 0 degrees and 37 degrees with rate constants in the range 0.9 to 3.0 X 10(5) M-1 s-1. The dissociation was strongly temperature-dependent with rate constants in the range 3.4 to 45 X 10(-4) s-1 at 0 degrees and 3.9 to 18 X 10(-3) s-1 at 37 degrees. The presence of unlabeled lectins as well as lactose increased the rate of dissociation. The association constants measured at equilibrium or calculated from the rate constants were between 0.64 X 10(8) M-1 and 8.2 X 10(8) M-1 for abrus lectins, and between 8.0 X 10(6) M-1 and 4.2 X 10(8) M-1 for ricinus lectins. The association constants for the toxins were lower at 37 degrees than at 0 degrees. Isolated ricin B chain appeared to bind with similar affinity as intact ricin. The number of binding sites was estimated to be 2 to 3 X 10(6) per erythrocyte and 1 to 3 X 10(7) per HeLa cell. The binding sites of HeLa cells all displayed a uniform affinity towards abrin and ricin, both at 0 degrees and at 37 degrees. The same was the case with the binding sites of erythrocytes at 0 degrees. However, the data indicated that at 20 degrees erythrocytes possessed binding sites with two different affinities. Only a fraction of the cell-bound toxin appeared to be irreversibly bound and could not be removed by washing with 0.1 M lactose. The fraction of the total amount of bound toxin which became irreversibly bound to HeLa cells was for both toxins about 2 X 10(-3)/min at 37 degrees, whereas no toxin was irreversibly bound at 0 degrees. In the case of erythrocytes no toxin became irreversibly bound, either at 0 degrees or 37 degrees, indicating that the toxins are unable to penetrate into these cells.
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PMID:Kinetics of binding of the toxic lectins abrin and ricin to surface receptors of human cells. 0 68

The receptor specificity of the plant seed toxin ricin, which ordinarily binds to galactose-containing receptors, has been altered by coupling monophosphopentamannose residues to ricin by reductive amination and by reversibly binding lactose to the modified ricin. The added monophosphopentamannose residues provide ricin with the recognition factor common to fibroblast lysosomal hydrolases and enable the modified ricin (Man6P-ricin) to bind to the fibroblast Man6P receptor and inhibit protein synthesis in the cells via this receptor. The addition of lactose to Man6P-ricin saturates the galactose site on Man6P-ricin and prevents the binding of Man6P-ricin to cells via galactose-containing ricin receptors. The Man6P receptor-mediated toxicity of Man6P-ricin, identified in human fibroblasts by competition by Man6P and blockade by alkaline phosphatase treatment, was not detected in HeLa cells or human amnion cells. Consequently, in the presence of lactose, the fibroblasts were 8 and 13 times more sensitive than amnion and HeLa cells, respectively. These results show that highly toxic cell-type-specific reagents can be made by the proper alteration of toxin receptor specificities. An attempt to construct a highly toxic altered toxin by adding Man6P residues to diphtheria toxin fragment A was unsuccessful. A possible explanation is that in Man6P-ricin the ricin B chain performs some entry function, even though the initial binding step occurs at the Man6P receptor.
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PMID:Ricin linked to monophosphopentamannose binds to fibroblast lysosomal hydrolase receptors, resulting in a cell-type-specific toxin. 29 62

The interaction of Ricinus communis hemagglutinin with galactose and lactose has been studied by means of microcalorimetry, equilibrium dialysis and analytical ultracentrifugation. A first class of beta-galactoside-binding sites involves two similar and independent sites of which affinity constants are 2600 M-1 for galactose and 26700 M-1 for lactose at 25 degrees C. The binding of one galactose or one lactose molecule leads to enthalpy changes of--12.3 Kcal and--11 Kcal, respectively. Considering the negative entropy changes of the association, and as for ricin, the binding of galactosides with hemagglutinin is driven by favorable enthalpic contributions. In presence of high lactose concentrations, a second endothermic step of the calorimetric titration curve was observed. This result and the biphasic nature of Scatchard plots of equilibrium dialysis suggest the existence of a second class of binding sites on the lectin molecule. As for ricin, the interaction between these secondary sites and lactose would be entropically driven.
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PMID:[Interaction between ricin hemagglutinin and its ligands, galactose and lactose. Microcalorimetry and equilibrium dialysis]. 43 52

A hybrid protein of ricin and the enzymatically active fragment A of diphtheria toxin (toxin A) has been synthesized and purified. The diphtheria toxin A fragment of the hybrid protein is shown to enter the cytosol compartment of HeLa cells, its presence assayed by the fall of intracellular elongation factor II (EF-2) and the rise of ADP-ribosylated EF-2. Hybrid entrance to HeLa cells is blocked by lactose which blocks receptor-mediated entry of ricin but not by NH4Cl which blocks the transport of diphtheria toxin. It is concluded that the diphtheria toxin fragment A moiety of the hybrid enters the cell cytosol via the ricin receptor-mediated transport system. The kinetics of intracellular ADP-ribosylation of EF-2 by diphtheria toxin have also been studied. Ribosylation is preceded by a toxin dose-dependent lag period. The data suggest that the time constant responsible for the lag period is in the transport step. Models consistent with these data are discussed.
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PMID:Receptor-mediated transport of the hybrid protein ricin-diphtheria toxin fragment A with subsequent ADP-ribosylation of intracellular elongation factor II. 50 Jun 25

From ricin bound to the galactomannan guar gum in a column, the nonbinding toxic A chain could be eluted by reduction with 2-mercaptoethanol and later the B chain by lactose. The presence of a nucleotide-binding domain on the toxic chain A could be demonstrated from its interaction with the blue dye Cibacron Blue F3GA.
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PMID:Separation of polypeptide chains of ricin and the interaction of the A chain with Cibacron Blue F3GA. 54 33

The interaction of ricin, one of the two lectins of Ricinus sanguineus, with its specific ligands galactose and lactose (4-O-beta-D-galactopyranosyl-D-glucopyranose) has been studied by means of equilibrium dialysis, analytical ultracentrifugation and fluorescence polarization. In the studied concentration range, only one molecule of galactose is bound per molecule of ricin with an association constant, Ka = 6900 m-1 at 4 degrees C. Scatchard plots of equilibrium dialysis data show that two molecules of lactose bind to one molecule of ricin, without modification of molecular weight of the lectin. Together with results of microcalorimetric experiments and agglutination of erythrocytes by ricin, equilibrium dialysis data indicate that the lectin contains two distinct saccharide binding sites. Regardless of the existence of extended sites, it is not possible to select between the two models: (a) two independent sites (Ka1 = 35 000 M-1, Ka2 = 2800 M-1 at 4 degrees C) or (b) two identical sites with negative cooperativity.
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PMID:Binding of galactose and lactose to ricin. Equilibrium studies. 70 58

The kinetics of protein synthesis inhibition in a cell-free system from rabbit reticulocyte lysate was studied after addition of abrin and ricin and the isolated A chains. The toxin A chains inhibited protein synthesis at a rate proportional to the amount added. When intact toxins were added to the reticulocyte lysate, the kinetics of protein synthesis inhibition indicated that the A chains must be liberated before ribosome inactivation can take place. The splitting of the toxin in the lysate was directly demonstrated by the use of labeled toxins. The amount of abrin and ricin bound to HeLa cells under different experimental conditions was correlated to the concomitant inhibition of cellular protein synthesis. In the presence of lactose, which inhibits toxin binding, much higher concentrations of toxins were required to inhibit protein synthesis than in the absence of lactose. A linear relationship was found between the lactose concentration in the medium and the toxin concentration required to give 50% reduction in protein synthesis after 3 hours. The amount of toxin bound to the cell surfaces in the presence of lactose was either determined directly or calculated from the apparent association constant between toxins and surface receptors at the various lactose concentrations. Under different conditions involving a 300-fold variation in the concentration of toxin required to reduce protein synthesis by 50% after 3 hours, the amount of toxin bound to the cell surface was found to be the same. The toxicity thus appears to be determined by the number of toxin molecules bound to the cell surface. Purified ricin B chain was used to compete with the toxins for the receptor sites. Only after addition of high amounts of B chain was the toxicity of abrin and ricin appreciably reduced. The data do not support the view that receptors with especially high affinity are involved in the uptake of the toxins. When the time required for 50% inhibition was plotted versus the inverse value of the square root of the number of toxin molecules bound per cell, a straight line was obtained, intercepting at about 30 min. The data indicate that the observed lag time cannot be due entirely to the fact that the A chains must be liberated before they can act.
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PMID:Rates of different steps involved in the inhibition of protein synthesis by the toxic lectins abrin and ricin. 93 17

The survival time of mice after i.v. injection of the cancerostatic lectins, abrin and ricin was recorded. The LD50 dose was found to be 10-13 ng and 55-65 ng per mouse for abrin and ricin, respectively. Increasing amounts of toxin reduced the survival time, reaching a minimum of about 10 h. Lactose injected with ricin, provided partial protection against ricin, as measured by the survival time. Abrin and ricin labelled with 125I, and shown to retain their full toxic activity, were injected into mice. Most of the radioactivity found in the organs was present in the form of intact toxins, at least up to 5 h after injection. After i.v. injection the highest concentration/g tissue was found in spleen, followed by kidneys, heart, liver and thymus. The relative concentration in liver was considerably higher for ricin than for abrin. Similar results were found after i.p. injection. When lactose was administered together with ricin, almost 80% of the ricin injected was found in the liver after 30 min, compared to 48% without lactose, and the amount in other organs was concurrently reduced. The elimination of total radioactivity was much faster for ricin than abrin. The radioactivity found in the urine was largely present in non-trichloroacetic acid precipitable form, indicating that the toxins were extensively degraded before excretion.
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PMID:Toxicity, distribution and elimination of the cancerostatic lectins abrin and ricin after parenteral injection into mice. 97 6

The presence of carbohydrate residues on the outer surface of PMN granules has been demonstrated by the use of ricin-conjugated ferritin. The binding of the lectin was inhibited by alpha-lactose. No difference in the binding densities of azurophil or specific granules was observed.
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PMID:Demonstration of ricin-binding sites on the outer face of azurophil and specific granules of rabbit polymorphonuclear leukocytes. 114 75

Human lymphocyte cultures were incubated with the nontoxic abrus agglutinin and with ricin B chain, and the incorporation of 3H thymidine was measured. Abrus agglutinin stimulated strongly the thymidine incorporation whereas ricin B chain had a much lesser effect. When galactose or lactose was added to the cultures together with the lectins, the abrus agglutinin and ricin B chain induced thymidine incorporation was strongly reduced. There was a linear relationship between the concentration of lectin and the concentration of lactose required for inhibition of lymphocyte stimulation. N-acetyl-galactosamine had a much lesser inhibiting effect and alpha-methyl-mannoside did not cause any inhibition. The abrus agglutinin induced thymidine incorporation was not demonstrable before 36 to 40 hr and reached its maximum after 2 to 5 days. If lactose was added within the first 4 hr of incubation with abrus agglutinin no stimulation was observed.
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PMID:Stimulation of human lymphocytes by galactose-specific abrus and ricinus lectins. 117 65


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