Effects of equisetin on rat liver mitochondria: Evidence for inhibition of substrate anion carriers of the inner membrane

The effect of equisetin, an antibiotic produced byFusarium equiseti, has been studied on mitochondrial functions (respiration, ATPase, ion transport). Equisetin inhibits the DNP-stimulated ATPase activity of rat liver mitochondria and mitoplasts in a concentration-dependent manner; 50% inhibition is caused by about 8 nmol equisetin/mg protein. The antibiotic is without effect either on the ATPase activity of submitochondrial particles or on the purified F₁-ATPase. It inhibits both the ADP- or DNP-activated oxygen uptake by mitochondria in the presence of glutamate + malate or succinate as substrates, but only the ADP-stimulated respiration is inhibited if the electron donors are TMPD + ascorbate. It does not affect the NADH or succinate oxidation of submitochondrial particles. Equisetin inhibits in a concentration-dependent manner the active Ca²⁺-uptake of mitochondria energized both by ATP or succinate without affecting the Ca²⁺-uniporter itself. The antibiotic inhibits the ATP-uptake by mitochondria (50% inhibition at about 8 nmol equisetin/mg protein) and the P_i and dicarboxylate carrier. It does not lower the membrane potential at least up to 200 nmol/mg protein concentration. The data presented in this paper indicate that equisetin specifically inhibits the substrate anion carriers of the mitochondrial inner membrane.Abbreviations EGTA ethyleneglycol bis/-aminoethylether/-N, N-tetraacetic acid - DNP 2, 4-dinitrophenol - TMPD N,N,N,N,tetramethyl-p-phenylenediamine - CCP carbonylcyanide-m-chlorophenyl hydrazone - TPP tetraphenyl-phosphonium - Hepes /4,(2-hydroxyethyl)-1-piperazine-ethanesulfonic acid/     

Mitochondrial permeability transition induced by chemically generated singlet oxygen

Pure singlet molecular oxygen (¹O₂) generated by thermal decomposition of the 3,3-(1,4-naphthylidene) dipropionate endoperoxide (NDPO₂), inhibited respiration of isolated rat liver mitochondria supported by NADH-linked substrates or succinate, but not by N,N,N,N-tetramehyl-p-phenylene-diamine (TMPD)/ascorbate. Under the latter conditions, mitochondria treated with 2.7 mM NDPO₂ exhibited a decrease in transmembrane potential () in manner dependent on NDPO₂ exposure time. This process was sensitive to the mitochondrial permeability transition inhibitors EGTA, dithiothreitol, ADP, and cyclosporin A. The presence of deuterium oxide (D₂O), that increases ¹O₂ lifetime, significantly enhanced NDPO₂-promoted mitochondrial permeabilization. In addition, NDPO₂-induced mitochondrial permeabilization was accompanied by DTT or ADP-sensitive membrane protein thiol oxidation. Taken together, these results provide evidence that mitochondrial permeability transition induced by chemically generated singlet oxygen is mediated by the oxidation of membrane protein thiols.     

Properties of the inner membrane anion channel in intact mitochondria

The mitochondrial inner membrane possesses an anion channel (IMAC) which mediates the electrophoretic transport of a wide variety of anions and is believed to be an important component of the volume homeostatic mechanism. IMAC is regulated by matrix Mg²⁺ (IC₅₀=38 µM at pH 7.4) and by matrix H⁺ (pIC₅₀=7.7). Moreover, inhibition by Mg²⁺ is pH-dependent. IMAC is also reversibly inhibited by many cationic amphiphilic drugs, including propranolol, and irreversibly inhibited byN,N-dicyclohexylcarbodiimide. Mercurials have two effects on its activity: (1) they increase the IC₅₀ values for Mg²⁺, H⁺, and propranolol, and (2) they inhibit transport. The most potent inhibitor of IMAC is tributyltin, which blocks anion uniport in liver mitochondria at about 1 nmol/mg. The inhibitory dose is increased by mercurials; however, this effect appears to be unrelated to the other mercurial effects. IMAC also appears to be present in plant mitochondria; however, it is insensitive to inhibition by Mg²⁺, mercurials, andN,N-dicyclohexylcarbodiimide. Some inhibitors of the adenine nucleotide translocase also inhibit IMAC, including Cibacron Blue, agaric acid, and palmitoyl CoA; however, atractyloside has no effect.     

Functional mitochondria in snake Bothrops alternatus erythrocytes and modulation of HbO2 affinity by mitochondrial ATP

Digitonin was applied to permeabilize the plasma membrane of Bothrops alternatus erythrocytes to study respiration, oxidative phosphorylation and Ca²⁺ transport by mitochondria in situ. These mitochondria oxidized added NAD-linked substrates, succinate and N,N,N, N-tetramethyl-p-phenylenediamine. Respiration was sensitive to rotenone and cyanide but not to antimycin A. This indicates that Bothrops mitochondria possess the respiratory complexes NADH-ubiquinone, succinate-ubiquinone, and ferrocytochrome c-oxygen oxidoreductases, although the lack of sensitivity to antimycin A raises doubt about the composition of the ubiquinol cytochrome c-reductase complex. An ability to build up and sustain a membrane potential was documented by their capacity to accumulate tetraphenylphosphonium and Ca²⁺ through an uncoupler-sensitive mechanism. Addition of ADP caused a transient decrease in the membrane potential, indicating that this is the predominant driving force for ATP synthesis as in most types of mitochondria. Uncoupling of phosphorylation from the oxidative process increased hemoglobin O₂ affinity, which suggests that ATP production by mitochondria may participate in modulation of O₂ transport by hemoglobin.Abbreviations membrane potential - BAE Bothrops alternatus erythrocytes - DNP 2,4-dinitrophenol - DPG 2,3-diphosphoglycerate - EGTA ethyleneglycol tetra-acetic acid - FCCP carbonylcyanide p-trifloromethoxyphenylhydrazone - TMPD N,N,N,N-tetramethyl-p-phenylenediamine - TPP⁺ tetraphenylphosphonium - TRIS tris-(hydroxymethyl)aminomethane     

Purification of mitochondria and mitochondrial nucleic acids from embryogenic suspension cultures of a gymnosperm,Larix x leptoeuropaea

After a number of attempts to isolate mitochondria from different conifer tissues, embryogenic suspension cultures of hybrid larch (Larix x leptoeuropaea) were developed which enabled the purification of mitochondria using slight modifications to standard techniques. The mitochondrial purity was verified by analysis of the mitochondrial RNA, DNA and proteins. The larch mitochondrial genome size is surprisingly large (> 1000 kbp) and the polypeptide pattern differs greatly from those of wheat or potato mitochondria, suggesting that valuable evolutionary insights will be gained from comparisons between gymnosperm and angiosperm mitochondria. The ease with which embryogenic conifer suspensions can be initiated and used for mitochondrial purification implies that they will be the material of choice for future studies of this type.Abbreviations PCR polymerase chain reaction - mtDNA mitochondrial DNA - 2,4-D 2,4-dichlorophenoxyacetic acid - BA N⁶-benzyladenine - Tris tris(hydroxymethyl)aminomethane - EDTA ethylenediaminetetraacetic acid - BSA bovine serum albumin - EGTA ethylene glycol-bis(ß-aminoethyl ether) N,N,N,N-tetraacetic acid - SDS sodium dodecyl sulphate - DEPC diethyl pyrocarbonate - PAGE polyacrylamide gel electrophoresis - IEF iso-electric focusing     

Phosphate transport in rat liver mitochondria: Location of sulfhydryl groups essential for transport activities

The membrane orientation and symmetry of protein thiol group(s) necessary for transport of P_i in rat liver mitochondria have been assessed by comparing inhibition of transport in intact mitochondria to that in inverted vesicles of purified inner membrane. The permeability characteristics of a variety of inhibitors have been determined under specified conditions. The sensitivities of the uptake pathways in mitochondria and in inverted vesicles appear thus far to be identical. By comparing results with permeant and nonpermeant inhibitors, or sequential treatment with different inhibitors, arguments can be made in favor of a single reorienting site of thiol sensitivity.DABS p-(diazonium)-benzenesulfonic acid - IMV inner membrane vesicles - Hepes 4-(2-hydroxyethyl)-1-piperazine ethanesulfonic acid - GSH reduced glutathione - TMPD N,N,NN-tetramethyl-p-phenylenediamine - EGTA ethylene glycol-bis (-aminoethyl ether) - p-CMB p-chloromercuribenzoate - NEM N-ethylmaleimide - FCCP p-trifluoromethoxycarbonyl cyanide phenylhydrazone     

Inhibition of the phosphate-stimulated cytochromec oxidase activity by thiophosphate

Yeast and mammalian cytochromec oxidase activity is inhibited by thiophosphate. This inhibition was observed when using either whole mitochondria or the isolated or reconstituted enzyme. The kinetics of the reduction reaction enabled us to demonstrate that thiophosphate acted on th electrons transfer between hemesa anda ₃. With whole mitochondria, phosphate alone stimulated respiration. The inhibition induced by thiophosphate was suppressed by phosphate only in mitochondria, but not when the isolated enzyme was used. The possibility of a kinetic regulation is discussed.Abbreviations CCCP p-carbonylcyanidem-chlorophenylhydrazone - TMPD N,N,N,N-tetramethylp-phenylenediamine - SPi thiophosphate     

Specific inhibition by macrocyclic polyethers of mitochondrial electron transport at site I

The macrocyclic polyethers dibenzo-18-crown-6 (XXVIII) and dicyclohexyl-18-crown-6 (XXXI) inhibit the valinomycin-mediated K⁺ accumulation energized by glutamate, -ketoglutarate, malate plus pyruvate or isocitrate but not that promoted by succinate, ascorbate plus TMPD or ATP. The polyethers inhibit the oxidation of the former group of substrates without preventing either the oxidation of succinate or ascorbate plus TMPD or the hydrolysis of ATP.The substrate oxidation inhibited by the macrocyclic polyethers is relieved in intact mitochondria by increasing the concentration of K⁺ in the medium. It is also completely reverted by supplementing the medium with valinomycin, Cs⁺ and phosphate, or else by the addition of vitamin K₃.In submitochondrial sonic particles the macrocyclic polyethers inhibit the oxidation of NADH as well as the ATP-driven reversal of electron flow at the site I of the electron transport chain. They also block the oxidation of NADH in non-phosphorylating Keilin-Hartree particles as well as in Hatefi's NADH-coenzyme Q reductase. The polyethers do not inhibit electron transport in mitochondria from the yeast which lack the first coupling site.The inhibition of electron transport by the polyethers do not require of the addition of alkali metal cations such as K⁺ in intact mitochondria or other membrane preparations.It is established that the macrocyclic polyethers XXVIII and XXXI, already characterized as mobile carrier molecules for K⁺ in model lipid membranes, inhibit electron transport at site I of the electron transport chain from mitochondrial membranes.It is suggested that the ability of the polyethers to coordinate alkali metal cations in aqueous versus lipid environments, but not K⁺ transportper se, is related to their rotenone-like induced inhibition of electron flow in mitochondrial membranes.Supported in part by a Grant from the Research Corporation.     

Efflux of magnesium and potassium ions from liver mitochondria induced by inorganic phosphate and by diamide

Addition to rat liver mitochondria of 2 mM inorganic phosphate or 0.15 mM diamide, a thiol-oxidizing agent, induced an efflux of endogenous Mg²⁺ linear with time and dependent on coupled respiration. No net Ca²⁺ release occurred under these conditions, while a concomitant release of K⁺ was observed. Mg²⁺ efflux mediated either by P_i or low concentrations of diamide was completely prevented by EGTA, Ruthenium red, and NEM. These reagents also inhibited the increased rate of state 4 respiration induced both by P_i and diamide. At higher concentrations (0.4 mM), diamide induced an efflux of Mg²⁺ which was associated also with a release of endogenous Ca²⁺. Under these conditions EGTA completely prevented Mg²⁺ and K⁺ effluxes, while they were only partially inhibited by Ruthenium red and NEM. It is assumed that Mg²⁺ efflux, occurring at low diamide concentrations or in the presence of phosphate, is dependent on a cyclic in-and-out movement of Ca²⁺ across the inner mitochondrial membrane, in which the passive efflux is compensated by a continuous energy linked reuptake. This explains the dependence of Mg²⁺ efflux on coupled respiration, as well as the increased rate of state 4 respiration. The dependence of Mg²⁺ efflux on phosphate transport is explained by the phosphate requirement for Ca²⁺ movement.Abbreviations Diamide diazenedicarboxylic acidbis-dimethylamide - FCCP p-trifluoromethoxyphenylhydrazone - EGTA ethylene glycol-bis-(2-amino ethyl ether)-N,N-tetracetic acid - P_i inorganic phosphate - Ruthenium red Ru₂(OH)₂Cl₄ · 7NH₃ · 3H₂O - state 4 controlled state of respiration in the presence of substrate - RCI respiratory control index - NEM N-ethyl maleimide A partial and preliminary report of these results has been published inBiochem. Biophys. Res. Comm.,78 (1977) 23.     

Influence of calcium on blue-light-induced chloroplast movement in Lemna trisulca L.

The presence of calcium is essential for chloroplast movement induced by blue light in Lemna trisulca L. The regulatory role of calcium was confirmed by the inhibition of chloroplast movement by cytochalasin B and trifluoperazine. The calcium concentration in tissues was modified by ethylene glycol-bis(2-aminoethylether)-N,N,N, N-tetraacetic acid (EGTA), the calcium ionophore A23187 and La³⁺. Only a long period of incubation (12h) in EGTA or La³⁺ caused distrubances in chloroplast movement. This indicates that calcium influx is not essential for chloroplast movement. Those conditions that dramatically changed the internal calcium concentration, either applications of calcium ionophore A23187 and EGTA, or ionophore and La³⁺, markedly decreased the amplitude of response to blue-light pulses. This demonstrates that disturbances of chloroplast movement are observable only when internal stores of calcium are affected by Ca²⁺-antagonists. We suggest that the calcium involved in blue-light-induced chloroplast movement is derived from intracellular stores. The addition of Mg²⁺ to EGTA buffer counteracted its effect, indicating that Mg²⁺, as well as Ca²⁺, might possibly be involved in chloroplast movement.Abbreviations EGTA ethylene glycol-bis(2-aminoethylether)-N,N,N,N-tetraacetic acid - Hepes 4(2-hydroxyethyl-1-piperazine) ethanesulfonic acid - A23187 calcium ionophore We express our gratitude to Professor W. Korohoda for valuable critical comments on this paper and stimulating discussion. We also thank Mr. P. Malec for help in preparing the experiment with trifluoperazine and Mr. A. Waloszek for taking the photographs. We are indebted to Mr. Tim Kline (International House, Krakow, Poland) for improving the English style. This research was supported by grant No. 1042/P2/92/03 from the State Committe for Scientific Research.     

Calcium requirement in nitrogen fixation in the cyanobacterium Synechococcus RF-1

Under diurnal 16/8-h light-dark cycles, ethyleneglycol-bis-(-aminoethyl ether)-N,N,N,N-tetraacetic acid (EGTA) at 1 mM completely blocked the appearance of rhythmic N₂-fixing activity in Synechococcus RF-1. Ca²⁺ at 2 mM, when supplied either together with or several hours after the EGTA application, restored the nitrogenase activity, whereas, when Ca²⁺ was supplied several hours later, the peak of nitrogenase activity was shifted from the dark to the light period in which the activity is normally suppressed. Sr²⁺ also reversed the inhibition by EGTA, but only partially. When O₂ in the gas phase above the culture was below 1%, the inhibition of nitrogenase activity by EGTA was reduced to less than 20% of the control value without EGTA. Thus Ca²⁺ appears to be required by the cell to protect its nitrogenase from inactivation by O₂. In media without EGTA, a close correlation between nitrogenase activity and concentrations of Ca²⁺ was also observed.Abbreviation EGTA ethyleneglycol-bis-(-aminoethyl ether)-N,N,N,N-tetraacetic acid     

Inhibition and stimulation of respiration-linked Mg2+ efflux in rat heart mitochondria

Respiration-driven Mg²⁺ efflux from rat heart mitochondria has been studied in different conditions. Almost total release of Mg²⁺ from the mitochondria occurs upon addition of a proton/bivalent cation exchanger, A23187. The content of Mg²⁺ remaining in mitochondria after A23187 treatment is the same if part of the mitochondrial Mg²⁺ has already been extruded through the energy-linked mechanism. Some inhibition of Mg²⁺ efflux is observed in the presence of high concentrations of La³⁺ (100 µM). A proton/monovalent cation exchanger, nigericin, completely prevents Mg²⁺ efflux, whereas a cation conductor, valinomycin, considerably stimulates it. The results indicate that the main part of mitochondrial Mg²⁺ is present in a membrane-bounded compartment, probably in the matrix space. The driving force of the Mg²⁺ efflux appears to be the proton gradient (pH) created by mitochondrial respiration.     

Cytoplasmic streaming in the cell model ofNitella

Summary The plasmalemma ofNitella internode was made freely permeable to solutes by treating the cell with detergent and EGTA under plasmolysis. After the treatment, the cytoplasmic streaming was stopped by bathing the cell in a medium lacking ATP. The streaming was reactivated by perfusing the exterior of the permeabilized cell with a medium containing both Mg²⁺ and ATP. The reactivated streaming could be reversibly stopped by depletion of ATP. However, depletion of Mg²⁺ irreversibly inhibited the streaming.Cytochalasin B at 5 g/ml irreversibly inhibited the reactivated streaming within a minute, showing that microfilaments are involved in the streaming.Abbreviations ATP adenosine-5-triphosphoric acid - CB cytochalasin B - CyDTA cyclohexanediamine-N,N-tetraacetic acid - DMSO dimethylsulfooxide - DTT dithiothreitol - EGTA ethyleneglycol-bis(-aminoethylether)-N,N tetraacetic acid - PIPES piperazine-N,N-bis(2-ethanesulfonic acid) - PMSF phenylmethyl-sulfonylfluoride     

Oxidative phosphorylation in membrane vesicles of a gram-positive methylotroph

Membrane preparations, capable of high rates of respiration-linked ATP synthesis, have been obtained from a gram-positive methylotrophic bacterium Bacillus sp. MGA3. NADH, succinate, reduced TMPD and methanol were shown to be suitable substrates for the oxidative phosphorylation. Esterification of orthophosphate was dependent on electron transfer, as evidenced by the requirement for both substrate and oxygen. Phosphorylation was also dependent on ADP and was destroyed by boiling the membrane preparation. The phosphorylation was markedly uncoupled by carbonyl cyanide p-(trichloromethoxy)-phenylhydrazone (CCCP) and was inhibited by N,N-dicyclohexylcarbodiimide (DCCD). KCN caused strong inhibition of substrate oxidation as well as phosphorylation for all substrates tested. Rotenone, amytal and antimycin A caused inhibition when NADH or methanol were used as substrates. Antimycin A inhibited respiration and ATP synthesis with succinate as substrate and had no effect on ascorbate —N,N,N,N-tetramethyl-p-phenylenediimide (TMPD) oxidation by membrane preparations of Bacillus sp. MGA3. P/O ratios determined were 2.4 with NADH, 1.7 with succinate and 0.8 with reduced TMPD. The measured P/O ratio with methanol-oxidizing system was similar to that with NADH (about 2.4).Abbreviations CCCP Carbonyl cyanide p-(trichloromethoxy)-phenylhydrazone - DCCD N,N-dicyclohexylcarbodiimide - TMPD N,N,N,N-tetramethyl-p-phenylenediimide - Q ubiquinone Q     

Salt stress and respiration inAspergillus repens

Studies with whole cells and mitochondrial fractions revealed increased respiratory activity inAspergillus repens grown under salt stress conditions. The state 3 and state 4 respiration rates, PO ratios, and Mg²⁺-dependent ATPase were higher in mitochondria of stressed cells than in control cells.A. repens respires via an antimycin A-and cyanide-sensitive pathway. Oligomycin, dicyclohexylcarbodiimide (DCCD) and rotenone inhibited respiration rates less in mitochondria of stressed cells than in controls. Though 2,4-dinitrophenol (DNP), carbonyl cyanide-m-chlorophenylhydrazone (m-Cl-CCP), and carbonyl cyanide-p-trifluoromethylhydrazone (p-F₃-CCP) did not stimulate Mg²⁺-ATPase activity, DNP enhanced the respiration rates, whereasm-Cl-CCP andp-F₃-CCP decreased the respiration rates in either condition; mitochondria of stressed cells exhibited a lower degree of inhibition than controls. Addition of DNP, oligomycin, and DCCD inhibited the basal Mg²⁺-ATPase (ATPase activity without Mg²⁺ addition). Oligomycin inhibited the Mg²⁺-ATPase. DCCD showed less inhibition in mitochondria under stress than did the controls. Levels of some respiratory enzymes were higher in the culture grown under stress than in the controls.     

Intramitochondrial and extramitochondrial free calcium ion concentrations of suspensions of heart mitochondria with very low,plausibly physiological,contents of total calcium

The 2-oxoglutarate dehydrogenase of intact rat heart mitochondria is activated by Ca²⁺, with 50% activation at approximately 0.5 nmol of total Ca/mg of mitochondrial protein, in the presence of P_i and Mg²⁺. Mitochondrial Ca contents in excess of 2 nmol/mg of protein result in 100% activation of the enzyme. Investigation of Ca²⁺ release from the mitochondria using the metallochromic indicator Arsenazo III defines aS _0.5 of 5.4±0.4 nmol of Ca/mg of protein, when the endogenous Ca content of the mitochondria is progressively depleted with EGTA, prior to the initiation of the release process being studied. The subsequent determination of matrix free Ca²⁺ concentration by the null-point technique has allowed expression of these results in terms of free concentration rather than Ca content, with an activity coefficient of approximately 0.001 for matrix Ca²⁺. From the above, Ca²⁺ efflux from heart mitochondria is not saturated at the mitochondrial Ca contents or Ca²⁺ concentrations which give effective regulation of dehydrogenase activity. A consequence is that heart mitochondria do not buffer the pCa of the extramitochondrial medium at these Ca contents (<2 nmol/mg of protein), and this is shown in direct measurements of extramitochondrial pCa. This is taken to question the physiological significance of mitochondrial buffering of cytosolic free Ca²⁺ in normal heart.     

Simultaneous analysis of mitochondrial activity and DNA content in ehrlich ascites tumor cells by dual parameter flow cytometry

Summary Ehrlich ascites tumor cells were permeabilized using low concentrations of digitonin, 8 g/10⁶ cells. Permeabilization was monitored by the assay of lactate dehydrogenase released into the incubation medium and of hexokinase partially bound to mitochondria. Integrity of the cellular organelles was unaffected as determined by assay of the mitochondrial enzyme glutamate dehydrogenase. Cells were stained with rhodamine 123 as a mitochondrial specific dye and propidium iodide/mithramycin as DNA specific dyes. The green fluorescence of bound rhodamine 123 versus red fluorescence of DNA in individual cells was analysed by dual parameter flow cytometry. Incubation of cells with inhibitors of mitochondrial energy metabolism, such as, potassium cyanide and carbonyl cyanide m-chlorophenylhydrazone abolished binding of rhodamine 123. Flow cytometric data allowed a correlation between cell position in the mitotic cycle with total mitochondrial activity. In addition, comparison of the characteristics of propidium iodide and ethidium bromide staining further elucidated the molecular basis of the staining with the positively-charged fluorescent dye rhodamine 123.Abbreviations BSA bovine serum albumin - CCCP carbonyl cyanide m-chlorophenylhydrazone - EAT Ehrlich ascites tumor - EGTA ethylene glycol bis (-aminoethylether) N,N,N,N-tetraacetic acid - Hepes 4-(2-hydroxyethyl)-1-piperazineethansulfonic acid - IM incubation medium - Rh 123 rhodamine 123 Dedicated to Professor K.J. Netter on the occasion of his 60th birthday Enzymes: Ribonuclease (EC 3.1.27.5), Hexokinase (EC 2.7.1.1), Glutamate dehydrogenase (EC 1.4.1.2), Lactate dehydrogenase (EC 1.1.1.28)     

Mechanistic origin of the kinetic cooperativity for the ATPase activity of sarcoplasmic reticulum

The (Ca²⁺-Mg²⁺)-ATPase from sarcoplasmic reticulum presents negative cooperativity for the hydrolysis of Mg²⁺-ATP at different concentration ranges of this substrate. A kinetic model is proposed according to which Mg²⁺-ATP may bind to three different enzymatic species present during the catalytic cycle, E (K ₁=1 µM), EP.Ca₂ (K ₉=500 µM) and *EP (K ₇=20 µM), accelerating the release of P_i. The fact that each of these species has a different affinity for Mg²⁺-ATP allows a significant enhancement of the rate of P_i release to the medium at the different ranges of Mg²⁺-ATP concentration where the enzyme shows a kinetic cooperativity. The kinetic analysis of this mechanism yields an equation which is a ratio of two cubic polynomials (3:3 rate equations) with respect to Mg²⁺-ATP and which may explain the negative cooperativity of the enzyme at different concentration ranges of Mg²⁺-ATP.Abbreviations: EGTA, ethylene glycol bis(-aminoethylether)-N,N,N,N-tetraacetic acid; I.U., international units; piruvate kinase (EC 2.7.1.40); lactate dehydrogenase (EC 1.1.1.27); ATP phosphohydrolase (EC 3.8.1.3).     

Partial purification and characterization of a soluble protein phosphatase fromLeishmania donovani promastigotes

A soluble protein phosphatase from the promastigote form of the parasitic protozoanLeishmania donovani was partially purified using Sephadex G-100, DEAE-cellulose and again Sephadex G-100 columns. The partially purified enzyme showed a native molecular weight of about 42, 000 in both Sephadex G-100 and sucrose density gradient centrifugation. The sedimentation constant, stokes radius and frictional ratio were found to be 3.43S, 2.8 nm and 1.20 respectively. The enzyme preferentially utilized phosphohistone as the best exogenous substrate. Mg²⁺ ions were essential for enzyme activity; among other metal ions Mn²⁺ can replace Mg²⁺ to a certain extent whereas Ca²⁺, Co²⁺ and Zn²⁺ could not substitute for Mg²⁺. The pH optimum of the enzyme was 6.5–7.5 and the temperature optimum 37°C. The apparent Km for phosphohistone was 7.14 M. ATP, ADP, inorganic phosphate and pyrophosphate had inhibitory effect on the enzyme activity whereas no inhibition was observed with sodium tartrate and okadaic acid. These results suggest thatL. donovani promastigotes possess a protein phosphatase which has similar characteristics with the mammalian protein phosphatase 2C.Abbreviations PMSF phenylmethylsulfonyl fluoride - DTT dithiothreitol - TCA trichloroacetic acid - BSA bovine serum albumin - EDTA ethylenediamine tetraacetic acid - ATP adenosine triphosphate - ADP adenosine diphosphate - AMP adenosine monophosphate - EGTA Ethyleneglycol-bis-(-aminoethyl ether) N,N,N,N-tetraacetic acid