Interaction of alpha-sarcin and gelonin with Cibacron blue

Alpha-sarcin and gelonin, two proteins which inactivate the 60S ribosomal subunit, interact with Cibacron blue and bind to blue dextran-Sepharose, from which they are partially desorbed by nucleoside triphosphates and, more efficiently, by homopolynucleotides. It is further shown that the two proteins bind to poly(U)-Sepharose and that homopolynucleotides protect dilute solutions of both inhibitors from inactivation. It is suggested that the presence of a polynucleotide site on alphasarcin is related to its ribonuclease activity. The existence of a similar site on gelonin might be a clue to its yet unknown mechanism of action.     

Interaction of zinc with other micronutrient cations

Summary Effect of copper on zinc absorption by wheat (Triticum aestivum L. variety WG 357) seedlings and its translocation within the plant was studied in a nutrient solution culture using Zn⁶⁵.Zinc absorption was increased linearly with time within the limits studied (upto 80 minutes). It decreased, however, with increasing concentration of copper in nutrient solution. Plotting of the reciprocals of rates of zinc absorption vs zinc concentration showed that copper concentration in the nutrient solution inhibited zinc absorption, and this inhibition was competitive. Copper decreased only the absorption of zinc but not its translocation from roots to shoots. re]19750219     

Interaction of zinc protoporphyrin with intact oxyhemoglobin

In erythropoietic protoporphyria and lead poisoning, free protoporphyrin (PPIX) and zinc protoporphyrin (ZPP), respectively, accumulate in erythrocytes. That PPIX and ZPP bind to human hemoglobin A (Hb4) is established, but the site of binding is still a matter of controversy. We investigated the interaction of ZPP with intact, tetrameric oxy Hb4, using batch microcalorimetry, front-face fluorometry, absorption difference spectroscopy, oxygen equilibrium studies, and isoelectric focusing (IEF). In the presence of oxy Hb4 (pH 7.35, 0.05 M phosphate), the fluorescence emission maximum (excitation at 420 nm) of ZPP immediately shifts from 587 nm (ZPP alone) to 594 nm, as expected when binding to protein. The fluorescence intensity increases with time and is correlated with the ZPP:Hb4 mole ratio. A slow, time-dependent reaction is also observed with microcalorimetry: the rate of heat of reaction exhibits both a fast and a slow component. The heats of reaction range from -2.1 to -14.8 mcal depending upon the ZPP:Hb4 ratio of 4:1 (0.4 mM:0.1 mM) to 38:1 (3.8 mM:0.1 mM), respectively, and are typical of weak, noncovalent protein-ligand interactions. The optical difference spectra are a function of the ZPP:Hb4 molar ratio and also exhibit a slow increase in intensity over time. No time-dependent optical difference spectra are observed with ZPP or with Hb4 alone. The oxygen affinity of Hb4 in the presence of ZPP decreases with increasing mole ratio. During IEF, all ZPP separates from Hb4, consistent with a weak, noncovalent interaction at a non-heme pocket site. We conclude that ZPP binds to intact, tetrameric hemoglobin at non-heme pocket sites in a nonspecific, weak, noncovalent interaction.     

Interaction of bovine estrogen receptor with immobilized zinc

The metal-binding properties of partially purified untransformed or salt-dissociated bovine estrogen receptors were studied using zinc-chelated iminodiacetic acid gels. Only the salt-dissociated 5S receptor is retained by the metal-chelated resin, and this interaction is dependent on the presence of dithiothreitol. The untransformed 9S receptor is not retained, indicating that the zinc-interacting amino acid residues may be masked by receptor-associated proteins such as 90K heat-shock protein or because of an unfavorable receptor conformation.     

Interaction of copper nd zinc cations with calcium-binding proteins

Interactions of the calcium binding proteins, parvalbumin from cod muscles, alpha-lactalbumin from cow milk and calmodulin from bovine brain, with Cu2+ and Zn2+ ions have been studied by intrinsic fluorescence and microcalorimetry methods. It was revealed that parvalbumin binds one Cu2+ ion per molecule with association constant from 10(5) to 10(6) M-1. Zn2+ ions seem to compete for the same site which does not coincide with the two Ca2+ and Mg2+ binding sites. alpha-Lactalbumin contains from 2 to 4 Cu2+ and Zn2+ binding sites, the number and affinities of which depend on Ca2+ concentration. Calmodulin has similar Cu2+ and Zn2+ binding sites. The binding of Cu2+ and Zn2+ ions to parvalbumin and alpha-lactalbumin changes the shape and position of their thermal denaturation transitions. The results obtained together with the literature data show that the ability to interact with Cu2+ and Zn2+ ions is a property inherent to many calcium-binding proteins, which may play a physiological role for some of them.     

Interaction of zinc ions with electron carrying coenzymes NADPH and NADH

Evidence is presented that the substrate for the drug oxidizing system, NADPH, binds to zinc ions. Zinc ions bind selectively to NADPH but not to NADH. By using equilibrium gel filtration and acid titrations of Zn²⁺ and NADPH, the molar ratio of metal to nucleotide was determined at 2 : 1, as well as the formation constant of 10^6.75. Results from ³¹P-nuclear magnetic resonance (NMR), ultraviolet and fluorescence spectra of the complex indicated the possible binding sites of zinc to NADPH.In previous studies we have shown that zinc ions inhibit the metabolism of drugs by mixed function oxidases in liver microsomes. The formation of the Zn²⁺-NADPH complex suggests the mechanism by which zinc ions may inhibit the drug oxidizing system.     

Interaction between zinc and iron in rats

The importance of interactive effects, of minerals in general, on nutrient requirements is becoming increasingly recognized. The interaction between iron and zinc has not been as widely investigated. The metabolic interrelationships between dietary iron and zinc have been known for years, but some subtle relationships may have gone unrecognized. Because nutrient interactions are not necessarily linear in nature, it may be inadequate to apply linear statistical models to study the interaction between zinc and iron. In this study, we used traditional as well as a nonlinear approach in analyzing experimental results from groups of rats fed a wide range of dietary zinc and iron. Male weanling Sprague-Dawley rats were used in a 5 × 4 factorially arranged experiment. Dietary variables were iron (as ferric citrate) at 4, 12, 24, 48, or 96 μg Fe/g diet and zinc (as zinc carbonate) at 5, 10, 20, or 40 μg Zn/g diet. After 7 wk, hematological parameters were measured and plasma ceruloplasmin and cholesterol were determined. In addition to interactive effects as shown by analysis of variance, the application of log-linear analysis to the experimental data revealed a far broader range of interactions between dietary iron and zinc. As a result of our experiment and its quantitative analysis, we conclude that the interaction between iron and zinc is nutritionally important and that dietary iron affected the response of many blood parameters to dietary zinc. The complete dataset can be found at http://www.gfhnrc.ars.usda.gov/fezn. U.S. Department of Agriculture, Agricultural Research Service, Northern Plains Area is an equal opportunity/affirmative action employer and all agency services are available without discrimination.     

Interaction of zinc and hemoglobin: binding of zinc and the oxygen affinity.

Stripped human hemoglobin was shown to have a high apparent zinc association constant of 1.3 X 10(7) M-1 with a stoichiometry of one zinc for every two hemes. The saturation of this site produces a dramatic 3.7-fold increase in the oxygen affinity. The effect of zinc on the oxygen affinity is interrelated with the interaction of 2,3-diphosphoglyceric acid (2,3-DPG) and hemoglobin. Thus, a smaller zinc effect is observed in the presence of added 2,3-DPG. Information about the location of the zinc-binding site responsible for the increased oxygen affinity has been obtained by comparing the binding of zinc to various hemoglobins. Blocking the beta93 sulfhydryl group decreases the apparent zinc association constant by an order of magnitude. The substitution of histidine-beta143 in hemoglobin Abruzzo [beta143 (H21) His leads to Arg] and hemoglobin Little Rock [beta143 (H21) His leads to Gln] decreases the apparent zinc association constant by two orders of magnitude. The substitution of histidine-beta143 by other amino acids and the reaction of the beta93 sulfhydryl group are known to produce dramatic increases in the oxygen affinity. The binding of zinc to one or both of these amino acids can, therefore, explain the zinc-induced increase in the oxygen affinity.     

A metalloproteinase associated with gelonin, a "ribosome inactivating protein"

Gelonin, a single-chain protein which inactivates eukaryotic ribosomes, becomes split into peptides when incubated with SDS. During the chromatographic purification of gelonin on carboxymethylcellulose three overlapping peaks emerge in the gelonin elution region, containing three proteins with small differences in apparent molecular weight (31,500, 30,000 and 29,200). All three proteins are endowed with inhibitory activity on protein synthesis and with proteinase activity, although with different specific activities, and all three give rise to the same peptides upon incubation with SDS, suggesting that they are isoforms of gelonin. The gelonin-associated proteinase acts only on gelonin, while it is inactive on the most common substrates for endoproteinases. The proteolytic activity is not inhibited by inhibitors of serine- or SH-proteinases, while it is completely abolished by chelating agents. Divalent cations restore the proteolytic activity inhibited by EDTA. The stability of the proteinase activity on exposure of gelonin to extreme values of pH or to prolonged incubation has been investigated. The inhibitory activity on protein synthesis and the proteinase activity are differently affected by these treatments.     

Purification and characterisation of gelonin from seeds of Gelonium multiflorum

Gelonin, a ribosome-inactivating protein has been isolated from the seeds of Gelonium multifluorum of Euphorbiaceae family by two methods and the results are compared. In method-I conventional aqueous extraction, cation-exchange and gel-filtration chromatography has been used. In method-II S-Sepharose fast flow gel has been used to purify the proteins from the seed extract, followed by ammonium sulfate fractionation, cation-exchange and gel-filtration chromatography. Extensive physico-chemical and immunological characterizations show that molecular weight of gelonin as determined by gel-filtration chromatography and SDS-PAGE is approximately 30 kDa. The non-proteinous material which binds to CMC-gel in association with gelonin in method-I is substantially removed when gelonin is purified by method-II. Cation exchange, G-100 chromatography, RP-HPLC and SDS-PAGE show that method-II yields 50% more purified gelonin when compared to the yield by method-I. The immunoreactivity of gelonin obtained by methods I and II vary from 22-26% and 50-66% respectively and the ribosome-inactivating property vary from 46-56% and 70-87% respectively.     

Interaction of cadmium and zinc during prenatal development in the rat

Cadmium chloride, zinc chloride, or a mixture of the two, labeled with 115m-Cd or 65-Zn was administered intraperitoneally to Wistar rats on day 9 of gestation. On day 20 fetuses of Cd-treated rats exhibited malformations, but those of rats given zinc or zinc plus cadmium did not. No radioactive cadmium was recovered in the fetuses or fetal membranes, although some was found in the placentas. Simultaneous administration of zinc did not alter the distribution of cadmium, but cadmium significantly increased the amount of zinc in the fetus and placenta. In a second experiment, cadmium or cadmium plus zinc was administered on day 9 of gestation and embryonic units were removed on days 10, 11, and 12. On day 10 cadmium was found in the embryonic unit and maternal uterus, and cadmium in both was significantly reduced by simultaneous administration of zinc. The cadmium concentration in uterus and embryonic units decreased sharply on day 11 and 12 and by day 12 did not differ in animals treated with cadmium or with cadmium plus zinc. It is concluded that cadmium reaches the placenta or embryo at an organogenetically sensitive time, and that zinc may protect the embryo by decreasing the exposure to cadmium this time.     

Release of gelonin from endosomes and lysosomes to cytosol by photochemical internalization

Gelonin, a type I ribosome-inactivating plant toxin, executes N-glycosidase activity on eukaryotic ribosomes. However, on intact cells, gelonin is relatively non-toxic, due to an incapability to penetrate cell membranes. Recently, a novel method, photochemical internalization (PCI), was invented for the translocation of membrane-impermeable molecules including gelonin to the cytosol [K. Berg et al., Cancer Res. 59 (1999) 1180-1183]. The combination of gelonin and photoactivation of endosomal and lysosomal localizing photosensitizers gives strong synergistic cytotoxic effects. In this study, we have evaluated the intracellular transport and stability of gelonin. By fluorescence microscopy, it was shown that gelonin co-localizes with the endosomal and lysosomal localizing photosensitizer, aluminum phthalocyanine with two sulfonate groups on adjacent phenyl rings, and both molecules re-localized to cytosol subsequently to light exposure. Gelonin accumulated in endosomal compartments by incubation at 18 degrees C was released to cytosol by PCI with concomitant inhibition of protein synthesis indicating that PCI can be executed through rupture of endosomal vesicles. The cathepsin inhibitor L-trans-epoxysuccinyl-leucyl amido(4-guanido)butane increased the cytotoxic effect of gelonin after PCI when gelonin was provided as a 2 h pulse followed by 4 h chase before PCI. Thus, although gelonin can enter the cytosol from lysosomes, lysosomal degradation is a limiting factor for the outcome of PCI of gelonin.     

Role of positive charge of lysine residue on ribosome-inactivating property of gelonin

The report that gelonin cross-linked with monoclonal antibodies with the use of 2-iminothiolane (2-IT) exhibited higher cytotoxicity than the conjugates prepared with the use of N-succinimidyl-3-(2-pyridylthio) propionate (SPDP) alone, has prompted us to investigate the effect of epsilon-NH2 group modification with 2-IT on the ribosome-inactivating property (RIP) of gelonin. The purified gelonin was modified with 2-IT at a different molar ratio and their effects on immunoreactivity and ribosome-inactivating property were compared with those of N-succinimidyl 6-[3-(2-pyridyldithio) propionamido] hexanoate (long chain-SPDP) and SPDP modified gelonin derivatives. Modification of single amino group with 2-IT results in about 25-50% inhibition of immunoreactivity and 60-70% loss of protein synthesis inhibition activity. Modification of 2-3 amino groups further hampers both immunoreactivity and protein synthesis inhibition property of gelonin. Both the long chain-SPDP with SPDP modifications showed more pronounced effects on immunoreactivity and RIP activity as compared to the similar ratio of 2-IT modification(s). It may, therefore, be concluded that the positive charge plays an important role in the immunological as well as the protein synthesis inhibitory effect of gelonin.     

Cytotoxicity of gelonin and its conjugates with antibodies is determined by the extent of their endocytosis

Conjugates of the single-chain ribosome-inactivating protein gelonin with ligands that bind to cell surface molecules vary greatly in their cytotoxicity. Conjugates that are not endocytosed after binding to cells exhibit low cytotoxicity similar to that of free gelonin, while conjugates that are endocytosed demonstrate enhanced cytotoxicity relative to free gelonin. However, the number of internalized gelonin molecules needed to intoxicate cells to the same degree has been found to be similar for all conjugates and for free gelonin. The intracellular concentration of gelonin has to be between 2,000-10,000 molecules/cells to achieve a surviving fraction of 0.37. Our studies revealed the presence of three distinct categories of cell surface molecules, those that are efficient in mediating endocytosis of immunotoxins, those that are only moderately efficient, and those that seem not to cause internalization of bound immunotoxins.     

Interaction of arsenite with a zinc finger CCHC peptide: evidence for formation of an As-Zn-peptide mixed complex

The interaction of arsenite with a Cys₃His (CCHC) zinc finger model (34-51) HIV-1 nucleocapsid protein p7 (NCp7) peptide in the absence and presence of Zn^II was studied using fluorescence spectroscopy, CD (circular dichroism) and ESI-MS (Electrospray Ionization Mass Spectrometry). We found that arsenic forms different complexes with the free peptide and the zinc finger peptide. In the former case the peptide conformation differed greatly from that of the zinc finger, whereas in the second case a mixed As-Zn-peptide complex was formed with partial preservation of zinc finger conformation. An apparent stability constant was estimated for the mixed As-Zn-peptide complex (K = 2083 M^− 1 and 442 M^− 1 at 25 °C and pHs 6 and 7, respectively). Our study also shows that the interaction of arsenic with the CCHC motif is facilitated by glutathione (GSH), through formation of a GS-As-peptide conjugate.     

Interaction between copper and zinc in metal accumulation in rats with particular reference to the synthesis of induced-metallothionein

The effectiveness of Zn at moderating the pro-oxidant effects of Cu was evaluated in two rat models that differed in the route and mode of administration. The endpoints investigated included measurement of the concentrations of Cu, Zn, metallothionein and glutathione concentrations, as well as SOD and catalase activity, in liver, kidneys and intestine. In a sub-chronic animal model, the hepatic accumulation of Cu was achieved by administration of dietary Cu (1.8 g/kg solid diet) for 30 days after which oral Zn (6g/kg solid diet) was given. Cu treatment induced an increase in the hepatic and intestinal concentration of Cu of 66 and 455%, respectively, that was not associated with synthesis of metallothionein synthesis, but rather appeared to be related to the higher activity of SOD. Subsequent administration with Zn after dietary Cu induced an increase in the hepatic and intestinal metallothionein content of more twice and reduced the Cu content to control values. Thus, Zn could act as both a competitor for absorption on the luminal side of the intestinal epithelium inducing the synthesis of metallothionein. In the second animal model, we studied the effects of interaction between Cu and Zn administered by i.p. injection at the dose of 3 and 10mg/kg, respectively; Zn was administered subsequent to Cu overload. In this case, when Zn was administered, Cu was already deposited in tissues and thus there is no competition between two metals at the level of membrane transport. In this experimental model treatment with Cu alone induced liver metallothionein synthesis, and the subsequent treatment with Zn did not decrease the hepatic content of Cu. One explanation for these observations is that Zn induces the synthesis of metallothionein, which binds Cu for which it has a higher affinity. Moreover, after treatment with Zn, SOD activity in the liver decreases of almost 30% with respect to treatment with alone Cu, suggesting that Zn has a protective effect.