The effect of some chelating agents on the biliary and urinary excretion of manganese in rats

The biliary excretion of manganese, in rats which have been loaded with manganese via their drinking water, can be significantly enhanced by the administration of the chelating agents: desferrioxamine (DSF), sodium bis(hydroxyethyl) dithiocarbamate (DEDTC), and sodium isonipecotamidedithiocarbamate (INADTC). The effect of these chelating agents on the urinary excretion of manganese was more complex and was found to be dependent upon the level of loading of manganese as well as the individual chelating agent. For animals with drinking water containing 400 mg/liter of manganese, the administration of the chelating agents led to a decrease in the sum of the biliary plus urinary manganese excretion. The results are of special interest in that they show that under some conditions the administration of chelating agents can lead to changes other than those expected.     

Sensitivity of bacterial coaggregation to chelating agents

Coaggregation between pairs of microorganisms was found to be inhibited by chelating agents, such as acetylacetone, citrate, EDTA and carboxymethylcellulose. Assays were conducted on eight pairs of periodontopathogens and one pair consisting of Escherichia coli and Saccharomyces cerevisiae. The inhibitory effects of the chelating agents were reversible except for Actinomyces naeslundii 12104, the adhesin of which was irreversibly inactivated. Even though the bacteria possessed different kinds of adhesins, their sensitivity to chelating agents appears to be a common property. Non-toxic chelating agents, such as carboxymethylcellulose and citrate, may prove to be useful anti-adhesins.     

The Effect of Chelating Agents on Soil Sodicity

Results of laboratory and field tests suggest that chelating agents could be used to alleviate adverse soil properties caused by excess sodium, such as low permeability. Adding multi-dentate carboxylic acid chelating agents to sodic soil, or to mixtures of soil with sodium-contaminated waste, significantly reduced sodium adsorption ratio (SAR) values. Judging from cation concentrations in saturated paste (sat. paste) filtrates, chelating agents act to ameliorate soil sodicity by releasing Ca and to a lesser extent Mg from undissolved compounds. After adding chelating agents to moist soils that contained free lime, measured weight losses were consistent with CO ₂ evolution due to CaCO ₃ decomposition. The electrical conductivity (EC) of the sat. paste filtrate of materials treated with chelating agents increased less than when equivalent Ca or Mg was supplied in conventional, soluble form. Bigger sat. paste vacuum filtration volumes, improved soil permeability and faster field infiltration rates were observed after treatment with chelating agents. The Ca- and Mg-complexes of agents such as citric and malic acid degrade in moist soil; such agents could perhaps be used in a series of applications to improve ease of cultivation and permeability of cropped land. The agent ethylenediamine tetraacetic acid (EDTA) forms stable complexes, and could therefore be used as a one-time treatment for sodic materials that are to be disposed of by burial, following guidelines for soil SAR and EC.     

Coordination chemical studies on metalloenzymes. II. Kinetic behavior of various types of chelating agents towards bovine carbonic anhydrase.

In order to investigate the kinetics and mechanism of the removal of zinc ions from bovine carbonic anhydrase [EC 4.2.1.1] (BCA), several chelating agents with various stability constants were used to remove zinc from BCA. The second-order rate constants (kaap) of zinc removal from BCA were found to be in the following order; 2,6-pyridinedicarboxylic acid greater than 2-pyridinecarboxylic acid greater than 2,4-pyridinedicarboxylic acid greater than 2,3-pyridinedicarboxylic acid greater than or approximately 1,10-phenanthroline greater than or approximately 5-methyl-1,10-phenanthroline greater than 2,2'-bipyridine. With similar chelating agents the greater the stability constant, the faster was the rate of removal of zinc ions from BCA. With EDTA, trans-1,2-cyclohexanediaminetetraacetic acid, and nitrilotriacetic acid, the rate of zinc ion removal from the native enzyme was governed by the rate of spontaneous dissociation of zinc enzyme. The rate constants for the removal of zinc ions from BCA were governed by the affinity of the chelating agents for the metal ion and the conformation of the chelating agents. Based on these findings, reaction pathways for various chelating agents are proposed.     

Chelating agents and rat liver mitochondria

The chelating agents (EGTA and EDTA) and inorganic phosphate (Pi) are the most variable components of experiments involving isolated liver mitochondria. In the absence of EGTA or EDTA, swelling induced by Pi leads to rapid loss of endogenous adenine nucleotides to adenosine. Chelating agents prevent swelling and loss of adenine nucleotides. Concentrations below about 0.1 mM are ineffective. The protective effects depend on the continuous presence of the chelating agent; they are lost on washing EGTA-containing suspensions with chelating-agent-free medium. We question the accepted view that chelating agents stabilize mitochondria by binding Ca2+ to prevent activation of phospholipase.     

Effect of divalent cations and chelators on metaphase to telophase progression and nuclear envelope formation in Chinese hamster cells

Chinese hamster DON cells in log phase were treated with Colcemid in the G₂ period with or without divalent cation chelating agents. The metaphase cells were isolated and incubated in two ways: 1) without Colcemid but with chelating agents or La³⁺ and observed for metaphase to telophase progression, and 2) with Colcemid, with or without chelating agents and the rate of micronuclei formation in the absence of anaphase monitored. The effect of the chelating agents on cellular ⁴⁵Ca²⁺ during metaphase to telophase progression was also studied.The results indicate that Ca²⁺ and possibly Mg²⁺ ions are involved in the regulation of certain segments of mitosis. The reduction of environmental and plasma membrane associated Ca²⁺ with the chelators and La³⁺ promoted the metaphase to telophase progression as well as nuclear envelope and micronuclei formation.     

Chelating agents stabilize the monomeric state of the zinc binding human papillomavirus 16 E6 oncoprotein

The E6 protein of human papillomavirus 16 is known to be difficult and, when overexpressed, insoluble and agglomerated. It has two putative zinc ion binding sites crucial for its function. No metallochaperone has yet been found to deliver zinc ions to the E6 protein. Here, we report that a specific chelating agent, which we think functionally mimics a metallochaperone, stabilized the soluble monomeric form of E6 and inhibited multimerization in vitro. This effect seemed to depend on the chelating strength of the agent. While strong chelating agents precipitated the E6 protein and weak chelating agents did not favor the monomeric form of E6, chelating agents of intermediate strength [L-penicillamine and ethylene glycol bis(beta-aminoethyl)-N,N,N',N'-tetraacetic acid (EGTA)] effectively support the formation of a monomer. We did not observe formation of a dimer or defined oligomers. Degradation assays imply that the monomer is the biologically active form of the protein. Since EGTA favors the formation of monomeric over agglomerated E6 protein, we propose that chelating agents of appropriate strength could assist zinc delivery to recombinant metalloproteins in vitro and may even destabilize existing agglomerates.     

Stimulation of prolyl hydroxylase activity by chelating agents.

The activity of purified prolyl hydroxylase was enhanced several fold by addition of some chelating agents to the assay medium. Chelating agents could be classified into three groups. The chelating agents of Group I such as α, α′-dipyridyl were inactive until they reached equimolar concentration with ferrous ion in the assay mixture. The Group II agents, EDTA, diethylenetriaminepentaacetic acid, etc., stimulated the enzymatic activity 1.5- to 3-fold at equimolar concentration with ferrous ion. But the agents of both groups precipitously inhibited the enzymatic activity at concentrations greater than ferrous ion. On the other hand, Group III chelating agents, such as nitrilotriacetic acid, enhanced the enzymatic activity 5- to 10-fold at concentrations greater than ferrous ion. Nucleoside triphosphates, which also stimulate the enzymatic activity several fold and whose optimal concentrations are 1–3 × 10^?m, may be analogous to nitrilotriacetic acid of Group III.     

Effect of Chelate-Assisted Hexavalent Chromium on Physiological Changes,Biochemical Alterations,and Chromium Bioavailability in Crop Plants—An In Vitro Phytoremediation Approach

This study revealed heavy metal–induced physiological and biochemical alterations in crop seedlings by supplementing chelating agents in the nutrient solution. Hexavalent chromium (Cr⁺⁶) induces several toxic effects in hydroponically grown rice, wheat, and green gram seedlings. A noticeable decrease was observed in root length, shoot length, biomass content, and chlorophyll biosynthesis of the seedlings grown in the nutrient solutions supplemented with Cr⁺⁶ at 100 μM. The seedling growth was stimulated with supplement of chelating agents such as EDTA, DTPA, and EDDHA. An increase in proline content was noticed with the application of Cr⁺⁶ (100 μM) in nutrient solutions. Stimulated activities of antioxidant enzymes such as catalase and peroxidase were noticed with increasing concentrations of chromium. Cr bioaccumulation was significantly high in roots of seedlings treated with Cr⁺⁶ at 100 μM in nutrient solution. Shoot translocation of Cr as depicted by transportation index (Ti) values for different crops were enhanced with the application of chelating agents. The total accumulation rate (TAR) for Cr was enhanced with the supplementation of DTPA in rice and wheat, whereas the application of EDDHA was found effective for increasing the accumulation rate of Cr in green gram seedlings. This study demonstates the role of chelating agents in lessening the toxic effects of Cr⁺⁶. The chelating agents supplemented with Cr⁺⁶ in the culture medium enhanced the Cr bioavailability in plants.     

Synthesis of 2-p-aminobenzyl-3-methyl- and 2-p-aminobenzyl-3-benzyl derivatives of diethylenetriaminepentaacetic acids (DTPA): carbon backbone modified bifunctional chelating agents.

A convenient preparation of new bifunctional chelating agents (1a) and (1b) were achieved based on a practical synthesis of 2-p-nitrobenzyl-3-methyl (9a) and 2-p-nitrobenzyl-3-benzyl (9b) diethylenetriamines starting from optically pure p-nitro-L-phenylalanine and triflates of 2-hydroxy carboxylic acid ethyl esters. These backbone substituted chelating agents could provide the stable complexation with radiometals.     

Effect of chelating agents and superoxide on human neutrophil NAD(P)H oxidation

NAD(P)H oxidation is frequently measured to assay the activity of the neutrophil O-2-generating oxidase. It was found that 10(-4) M ethylene glycol bis (beta-aminoethyl ether)-N-N'-tetraacetic acid (EGTA) increased NAD(P)H oxidation by the 27,000 g granule fraction of resting and stimulated human neutrophils without altering net O-2 production. The commonly used chelating agents EDTA and diethylene triamine pentaacetic acid had similar effects. The addition of superoxide dismutase eliminated the effect of the chelating agents and thus demonstrated that the stimulated reaction was dependent upon O-2. KCN and bathophenanthroline disulfonate, an iron-chelating agent, prevented O-2-dependent NADPH oxidation by neutrophil granule fractions in the presence of EGTA. In contrast, bathocuproine disulfonate, a copper-chelating agent, mimicked the EGTA effect. The effects of both bathophenanthroline disulfonate and bathocuproine disulfonate were completely abolished when the agents were saturated with iron and copper, respectively. All the chelating agents studied, except bathophenonthroline disulfonate, also promoted O-2-dependent NADPH oxidation in a system wherein O-2 was generated by xanthine oxidase. Thus, commonly used chelating agents, by interacting with available iron and copper, may alter the apparent stoichiometry of the neutrophil O-2-generating oxidase and artifactually increase NADPH oxidation in other systems where O-2 is present.     

Copper chelating anti-inflammatory agents; N1-(2-aminoethyl)-N2-(pyridin-2-ylmethyl)-ethane-1,2-diamine and N-(2-(2-aminoethylamino)ethyl)picolinamide: an in vitro and in vivo study

An in vitro and in vivo study of some copper chelating anti-inflammatory agents for alleviation of inflammation associated with rheumatoid arthritis (RA) has been conducted. Two copper chelating agents, N(1)-(2-aminoethyl)-N(2)-(pyridin-2-ylmethyl)ethane-1,2-diamine ([555-N]) and N-(2-(2-aminoethylamino)ethyl)picolinamide ([H(555)-N]) have been synthesized as their hydrochloride salt; their protonation constants and formation constants with Cu(II), Zn(II) and Ca(II) determined by glass electrode potentiometry at 298K and an ionic strength of 0.15M. Cu(II) formed stable complexes at physiological pH while the in vivo competitors, Zn(II) and Ca(II) formed weak complexes with both chelating agents. Both [555-N] and [H(555)-N] showed better selectivity for Cu(II) than for Zn(II) and Ca(II). Electronic spectra for species formed at physiological pH suggest a square planar geometry. Speciation calculations using a blood plasma model predicted that these copper chelating agents are able to mobilize Cu(II) in vivo, while bio-distribution studies of their (64)Cu(II)-labelled complexes at physiological pH showed tissue accumulation and retention indicating an encouraging biological half life.     

Effect of Chelating Agents and Metal Ions on Gametangial Formation in the Moss Bryum argenteum Hedw

Chelating agents such as EDTA and EDDHA markedly stimulate theformation of gametangia in the dioecious moss Bryum argenteum,and the effect is more pronounced on male than on female clones.EDTA-stimulated gametangial formation is associated with significantincreases in endogenous iron and copper. Ferric citrate alsoenhances gametangial formation, but copper sulphate is inhibitory.The present findings are discussed in the context of earlierinvestigations on other plants in an attempt to explain thepossible involvement of chelating agents and metal ions in stimulatingthe onset of the reproductive phase in this moss. Bryum argenteum, gametangial formation, chelating agents, metal ions     

Progress in research on ligands,nuclides and techniques for labeling monoclonal antibodies

This paper reviews the current methods for radiolabelling monoclonal antibodies with particular emphasis on radiometals useful for radioimmunoscintigraphy. The discussion, however, is equally applicable to therapeutic radionuclides. The advantages and the pitfalls of the various techniques are critically evaluated. Both direct labeling methods, as well as indirect methods using the bifunctional chelating agent approach, are covered. Recent work on the development and synthesis of new and more specific chelating agents, including the approach of utilizing rigid polyaminocarboxylates, is described. Preliminary promising results with these newer generation chelating agents are presented.     

Effect of the conditions of isolation and incubation of the nuclei on digestion of DNA chromatin by calcium- and magnesium-dependent endonuclease. Change in the spectrum of chromosomal proteins and possible role of DNA-protein interactions]

Digesting of chromosomal DNA of interphase rat liver nuclei by Ca, Mg-dependent endonuclease in situ in the presence of chelating agents results in the appearance of the soluble DNP--up to 30% of the total DNA. In addition, 50% of the chromatin is solubilised after mild ultrasonication. In the absence of the chelating agents the degree of fragmentation is considerably increased. The process is accompanied by a loss of some histone and nonhistone chromosomal proteins; the nonhistone proteins are lost selectively. The preliminary removal of the nuclear membrane and significant part of the proteins by tritone X-100 promotes the chromatin degradation and the appearance of low molecular weight fragments. The DNA-fragments of solubilised chromatin are similar to the DNA-fragments of residual chromatin, but in the presence of the chelating agents the latter does not contain monomeric fragments.     

Chelation in Auxin Action: I. A STUDY OF THE INTERACTIONS OF 3-INDOLYLACETIC ACID AND SYNTHETIC CHELATING AGENTS AS AFFECTING THE GROWTH OF WHEAT ROOTS AND COLEOPTILE SECTIONS

Factorial experiments have been carried out on the effects,upon growth of roots of intact wheat seedlings and growth ofwheat coleoptile sections, of different concentrations of 3-indolylaceticacid (IAA) and various known chelating agents. These have demonstrateda similar mutual antagonism between pairs of agents whetherthese are IAA and a single known chelating agent or two knownchelating agents. This interaction takes the form that eitheragent alone in ‘high’ concentration severely inhibitsgrowth but this inhibitory effect is almost or entirely removedby the presence of one-millionth the concentration of the otheragent; when both agents are present in ‘high’ concentrationthe inhibition is again severe. The substitution of a non-chelatinganalogue for one of the agents either destroys the mutual characterof the antagonism or entirely prevents either agent at low concentrationfrom reducing measurably the inhibition caused by high concentrationof the other. The fact that IAA interacts with known chelatingagents, in controlling the growth both of roots and coleoptilesections, in the same unexpected and symmetrical way that theseinteract with each other, is held strongly to support the hypothesisthat it is here itself acting as a chelating or complexing agent;the absence of such interactions with a non-chelating analoguemakes this the more convincing. These results are concernedwith the removal of growth inhibition, due to supra-optimalconcentrations of one agent, by minute proportions of another;it cannot be regarded as proven that the promotion of growthby IAA in the absence of another agent is also due to chelationor complex formation. This seems probable, however, when thefindings here presented are taken in conjunction with the accumulatingevidence that IAA and other auxins can form complexes or chelateswith metals in vitro, and with the finding already publishedin detail that the eight chelating agents tried promoted growthin the wheat coleoptile test. The main criticisms to which this hypothesis has been subjectedhave been concerned with the relative magnitudes of effectsof IAA and chelating agents upon growth, with the low stabilityconstants of metal complexes with IAA and other auxins, withthe lack of parallelism between stability constants and growth-promotingactivity, and with the fact that one chelating agent (ethylenediamine-tetraaceticacid; EDTA) has been found inactive in certain growth tests.A series of factorial experiments comparing the authors' techniques(which are here described in detail), chemicals, and strainof wheat with those used by Fawcett et al. (1956) demonstratethat the discrepancies found, both as regards magnitudes ofeffects of IAA and EDTA and optimal concentrations, were partlydue to differences in strain but mainly to differences of technique.It is considered that ‘foreign’ molecules such asEDTA are likely to have side effects, which may well differin different strains or tests; competition with internal chelators(Burstrom and Tullin, 1957) is also likely to differ; differencesin rate of penetration and steric hindrance may also be involved.For these reasons effective chelating activity in vivo may bevery different from that in vitro and in the first instancethe magnitudes of growth-promoting effects of chelating agents(which may indeed be the net result of stimulatory and inhibitoryprocesses) seem less important than the fact that they are foundin so many instances. Possible ways in which IAA and other growth substances may regulategrowth by chelation or complex-formation are discussed.     

Self-assembly of simian virus 40 large T antigen oligomers by divalent cations.

In simian virus 40-transformed cells, simian virus 40 large T antigen can be detected in different forms separable by sucrose density gradient centrifugation. In our experiments, light forms sedimented around 5 to 7S, oligomers such as tetramers were detected around 16S, and higher aggregates sedimented in a broad distribution reaching above 23S. The oligomers sedimenting at and above 16S could be disassembled into the slowly sedimenting 5 to 7S forms by chelating agents [EDTA or ethylene bis(oxonitrilo)tetraacetate]. After the addition of divalent cations (CaCl2 or MgCl2) in excess of chelating agents, oligomeric forms reassembled and appeared in a sedimentation pattern resembling that observed before treatment with chelating agents. Time course studies permitted the identification of the 5 to 7S forms as precursors upon pulse-labeling (15 min); the 16S and higher oligomers were identified as the successors after a 14-h chase. Treatment of extracts of pulse-chase-labeled cells with chelating agents again disassembled the oligomers, whereas pulse-labeled precursors did not change their 5 to 7S sedimentation pattern. Adding an excess of divalent cations reassembled the pulse-chase-labeled T antigen to oligomers but did not influence the sedimentation behavior of pulse-labeled 5 to 7S precursors. It is therefore reasonable to assume that a posttranslational modulation induces divalent cation binding, leading finally to the oligomerization of T antigen. Thus, some of the multifunctional activities of T antigen can be dictated by divalent cation binding properties.     

The action of chelating agents on human liver aldehyde dehydrogenase.

Human liver aldehyde dehydrogenase was inhibited by aromatic chelating agents. However, structurally related compounds with much lower metal-complexing ability displayed affinities for enzyme essentially equal to those of their respective chelating analogues. Inhibition was competitive with respect to the coenzyme. It is suggested that hydrophobic interactions between the inhibitors and the coenzyme-binding site of the enzyme are responsible for the observed effects on activity.     

Chelating agents improve enzymatic solubilization of pectinaceous co-processing streams

This study investigates the hypothesis that loosening of the egg-box structure by presence of divalent ion chelating agents during enzymatic degradation of homogalacturonan (HG) can improve enzymatic polysaccharide solubilization on pectinaceous, agro-industrial co-processing streams. The influence of different levels of ethylene-diaminetetraacetic acid (EDTA), citric acid, oxalic acid, and phosphate was assessed in relation to enzymatic solubilization of isopropanol precipitatable oligo- and polysaccharides from sugar beet pulp, citrus peel, and two types of potato pulp. The two types of potato pulp were FiberBind 400, a dried commercial potato pulp product, and PUF, a dried calcium reduced product, respectively. The enzymatic treatment consisted of 1% (w/w) of substrate treated with pectin lyase from Aspergillus nidulans and polygalacturonase from A. aculeatus [each dosed at 1.0% (w/w) enzyme/substrate] at 60 °C, pH 6.0 for 1 min. Characterization of the released fractions demonstrated a significantly improved effect of chelating agents for polysaccharide solubilization from FiberBind 400, PUF, and citrus peel, whereas only low amounts of polysaccharides were solubilized from the sugar beet pulp. The results substantiated the importance of chelating agents during enzymatic extraction of pectinaceous polysaccharides. Lower levels of chelating agents were required for the calcium-reduced potato pulp substrate (PUF) indicating the significance of calcium cross-linking in HG in relation to the enzymatic solubilization yields. The effect of the chelating agents correlated to their dissociation constants (pK_a values) and calcium binding constants and citric acid and EDTA exerted highest effects. Maximum polysaccharide yield was obtained for FiberBind 400 where the enzymatic treatment in presence of citric acid yielded 22.5% (w/w) polysaccharides of the initial substrate dry matter.     

Differential effects of chelating agents on cytosolic glucocorticoid receptor stability and nuclear binding in vitro

The effect of several metal chelators (EDTA, EGTA, and 1,10 phenanthroline) on rat liver glucocorticoid receptor properties in vitro was investigated. At 4 degrees C 10 mM EDTA (unlike 10 mM EGTA and 10 mM 1,10 phenanthroline) had a significant stabilizing effect on unbound hepatic glucocorticoid receptors. At higher temperature (25 degrees C) 10 mM EGTA appeared to act as a chemical stabilizer of unbound receptors. 1,10 Phenanthroline had no stabilizing effect at either temperature. Scatchard analysis indicated that the alteration in receptor binding after incubation at 4 and 25 degrees C in the presence and absence of chelating agents was due to a change in the number of steroid binding sites rather than perturbation of receptor affinity. Unlike results obtained with unbound receptors, all three chelating agents appeared to enhance prebound glucocorticoid-receptor complex inactivation. Interestingly these chelating reagents also significantly altered glucocorticoid-receptor complex binding to isolated nuclei.