Regulation of pyruvate kinase and phosphoenolpyruvate carboxykinase activity in adult Fasciola hepatica (Trematoda).

F. hepatica pyruvate kinase and phosphoenolpyruvate (PEP) carboxykinase were found to have properties of regulatory enzymes in the dissimilation of PEP and the control of metabolic flow. Mn²⁺ and K⁺ were required for pyruvate kinase activity. In the presence of fructose-1, 6-diphosphate (FDP), Mg²⁺ could substitute for Mn²⁺. FDP caused a 4-fold increase in the Mn²⁺ activated pyruvate kinase activity. This was accompanied by a 12-fold decrease in apparent K_m(PEP) and a 3-fold decrease in apparent K_{m (ADP)}. ATP markedly inhibited F. hepatica pyruvate kinase, but this inhibition was relieved by FDP. Estimates of metabolic levels indicated that the pyruvate kinase is saturated with PEP and ADP in vivo, but will be highly sensitive to fluctuations in the physiological concentrations of FDP and ATP. NADH doubled the activity of the PEP carboxykinase reaction and decreased the apparent K_{m (PEP)} for this enzyme 3-fold. While the maximal activity of the PEP carboxykinase reaction was substantially higher than the pyruvate kinase reaction, the steady state concentration of PEP suggests that the PEP carboxykinase will not be saturated with this substrate.     

Pyruvate kinase isoenzymes in chromatin extracts of Ehrlich ascites tumour, Morris hepatoma 7777 and normal mouse and rat livers

A pyruvate kinase (EC 2.7.1.40) variant inhibited by L-cysteine has been found in Ehrlich ascites tumour and Morris hepatoma 7777, but not in normal mouse and rat livers used for comparison. Chromatin extracts of all materials studied contained three pyruvate kinase isoenzymes (alpha, beta, gamma) which showed the greatest electrophoretic mobility in normal mouse and rat livers. The isoenzyme mobility diminished in both tumour chromatin extracts, and the slow migrating gamma isoenzyme exhibited sensitivity to L-cysteine inhibition. This gamma isoenzyme sensitive to L-cysteine might be considered as a tumour marker. All tumour pyruvate kinase isoenzymes were insensitive to normal signal molecules, i.e., to ATP and fructose 1,6-diphosphate, which regulate liver pyruvate kinase activity. It was, however, noted that the binding of pyruvate kinase isoenzymes to DNA is connected with a diminution in their catalytic activity.     

Functional analysis, overexpression, and kinetic characterization of pyruvate kinase from Plasmodium falciparum

The important role of pyruvate kinase during malarial infection has prompted the cloning of a cDNA encoding Plasmodium falciparum pyruvate kinase (pfPyrK), using mRNA from intraerythrocytic-stage malaria parasites. The full-length cDNA encodes a protein with a computed molecular weight of 55.6 kDa and an isoelectric point of 7.5. The purified recombinant pfPyrK is enzymatically active and exists as a homotetramer in its active form. The enzyme exhibits hyperbolic kinetics with respect to phosphoenolpyruvate and ADP, with K_m of 0.19 and 0.12 mM, respectively. pfPyrK is not affected by fructose-1,6-bisphosphate, a general activating factor of pyruvate kinase for most species. Glucose-6-phosphate, an activator of the Toxoplasma gondii enzyme, does not affect pfPyrK activity. Similar to rabbit pyruvate kinase, pfPyrK is susceptible to inactivation by 1 mM pyridoxal-5′-phosphate, but to a lesser extent. A screen for inhibitors to pfPyrK revealed that it is markedly inhibited by ATP and citrate. Detailed kinetic analysis revealed a transition from hyperbolic to sigmoidal kinetics for PEP in the presence of citrate, as well as competitive inhibitory behavior for ATP with respect to PEP. Citrate exhibits non-competitive inhibition with respect to ADP with a K_i of 0.8 mM. In conclusion, P. falciparum expresses an active pyruvate kinase during the intraerythrocytic-stage of its developmental cycle that may play important metabolic roles during infection.     

Enzymes of the normothermic and hibernating bat,Myotis lucifugus: Metabolites as modulators of pyruvate kinase

Summary The previous paper (Borgmann, A., and Moon, 1976) suggested that temperature differentially affected the binding of the substrates phosphoenol pyruvate (PEP) and ADP to bat tissue pyruvate kinases (PK) under hibernating and normothermic conditions. Since the regulatory properties of most mammalian type-L PKs are temperature dependent, a study of these properties for the bat enzymes was initiated.M. pectoralis PK ofM. lucifugus is modulator insensitive, although ATP does increase theK _m(PEP) slightly (Table 1). This effect is most pronounced at low temperatures for HM-PK (Fig. 1) and may be of some regulatory significance.Modulators affect bat liver PK in a manner analogous to other mammalian type-L enzymes, and marked quantitative differences exist between the NL-and HL-enzymes. TheK _m(PEP) is increased only slightly by alanine and ATP (Table 3), althoughV _max decreases markedly for NL-PK; fructose-1,6-diphosphate (FDP) decreases theK _m(PEP) and overrides the inhibitory action of ATP and alanine (Table 3). As temperature decreases, the proportional change inK _m(PEP) with or without effectors is unchanged (Table 3).HL-PK is markedly affected by these modulators. The extent of this interaction, as indicated byn _H-values (Table 3) andK _i orK _a values (Table 2; Figs. 1, 2, 3), between the effectors and the binding of PEP to HL-PK is relatively greater than for the NL-enzyme. However, the temperature sensitivity of these interactions is reduced (Table 3).Therefore, the strategies associated with enzymes of hibernating and normothermic bats are similar to those previously reported by Hochachka and Somero (1973) for certain enzymes of poikilotherms, and argues for the existence of distinct enzyme forms in the two physiological states.Abbreviations ala alanine - FDP fructose-1,6-diphosphate,HL, HM, hibernator liver, and muscle, respectively - LDH lactate dehydrogenase - NL, NM normothermic liver, and muscle, respectively - PEP phosphoenol pyruvate - PK pyruvate kinase     

Purification and properties of pig heart pyruvate kinase

Using essentially a two-step procedure involving phosphocellulose column chromatography followed by gel filtration on Sephadex G200, pig heart pyruvate kinase (PH PyK) was purified 267-fold to at least 97% purity. PH PyK co-sedimented with rabbit muscle PyK during sucrose density ultracentrifugation yielding an S_20,w of 10 and a corresponding molecular weight of about 237,000. Sodium docedyl sulfate polyacrylamide gel electrophoresis yielded a subunit molecular weight of approximately 59,000, suggesting that native PH PyK exists as a tetramer. The isoelectric point (pI) was determined to be 8.2, and thepH optimum (pHo) for the forward reaction is 7.2. Steady-state kinetics with phospho(enol)pyruvate (PEP) as the variable substrate show that there is a threefold decrease in the Km for PEP in the presence of 1.0 mM fructose-1,6-diphosphate (FDP), and that the activity of PH PyK is increased over fourfold by FDP at low (0.1 mM) PEP concentrations. Lineweaver-Burk plots are linear in the presence and absence of FDP, indicating that the Michaelis-Menten curves are hyperbolic. The amino acid composition for pig heart PyK shows close similarities between pig muscle and kidney PyKs, but not liver PyK. Among the data on pI,pHo, and FDP activation, only the activation by FDP is useful in tentatively designating pig heart PyK as an M₂ isozyme.Presented in partial fulfillment for the Master of Science degree.     

Metabolic networks to generate pyruvate,PEP and ATP from glycerol in Pseudomonas fluorescens

Glycerol is a major by-product of the biodiesel industry. In this study we report on the metabolic networks involved in its transformation into pyruvate, phosphoenolpyruvate (PEP) and ATP. When the nutritionally-versatile Pseudomonas fluorescens was exposed to hydrogen peroxide (H₂O₂) in a mineral medium with glycerol as the sole carbon source, the microbe reconfigured its metabolism to generate adenosine triphosphate (ATP) primarily via substrate-level phosphorylation (SLP). This alternative ATP-producing stratagem resulted in the synthesis of copious amounts of PEP and pyruvate. The production of these metabolites was mediated via the enhanced activities of such enzymes as pyruvate carboxylase (PC) and phosphoenolpyruvate carboxylase (PEPC). The high energy PEP was subsequently converted into ATP with the aid of pyruvate phosphate dikinase (PPDK), phosphoenolpyruvate synthase (PEPS) and pyruvate kinase (PK) with the concomitant formation of pyruvate. The participation of the phospho-transfer enzymes like adenylate kinase (AK) and acetate kinase (ACK) ensured the efficiency of this O₂-independent energy-generating machinery. The increased activity of glycerol dehydrogenase (GDH) in the stressed bacteria provided the necessary precursors to fuel this process. This H₂O₂-induced anaerobic life-style fortuitously evokes metabolic networks to an effective pathway that can be harnessed into the synthesis of ATP, PEP and pyruvate. The bioconversion of glycerol to pyruvate will offer interesting economic benefit.     

Pyruvate kinase functions in hot and cold organs of tuna

Summary The skipjack tuna maintains its red skeletal musculature well above ambient temperatures while the temperature of the heart is within 1°C of that of the water. These two tissues exhibit tissue specific forms of pyruvate kinase. The red muscle has one form while the heart has two.TheK _m(PEP) of the red muscle enzymes rises with temperature, within the normal temperature range of the tissue. The affinity of the major form of the heart enzyme for phosphoenolpyruvate is relatively independent of temperature over the physiological temperature range.K _m(ADP) values are temperature independent for both enzymes.Inhibition by alanine of both enzymes is temperature dependent and rises with temperature. The same is true of ATP inhibition of the heart enzyme, but ATP inhibition of the red muscle enzyme is temperature independent. Fructose diphosphate reverses alanine and ATP inhibition at all temperatures.With both enzymes, temperature affects substrate affinities and the sensitivity of the enzyme to metabolite effectors. These effects can be rationalized in terms of physiological significance only in the case of the red muscle enzyme.List of abbreviations ADP adenosine diphosphate - ATP adenosine triphosphate - EDTA ethylene diamine tetra acetic acid - FDP fructose 1,6 diphosphate - LDH lactate dehydrogenase - NADH nicotinamide adenine dinucleotide (reduced) - NAD nicotinamide adenine dinucleotide (oxidized) - PEP phosphoenol pyruvate     

The dual activity of pyruvate kinase type M2 from chromatin extracts of neoplastic cells

Pyruvate kinase type M(2) from Morris hepatoma 7777 tumour cell nuclei and cytosol, in contrast to types L and M(2) from nuclei and cytosol of normal rat liver, shows the histone H(1) kinase activity. Moreover, in the presence of L-cysteine and without ADP it converts 2-phosphoenolpyruvate (PEP) to pyruvate while in the presence of L-arginine or L-histidine does not. L-Cysteine markedly stimulates the activity of histone H(1) kinase transferring a phosphate group from PEP to, as results suggested, the epsilon -amino group of L-lysine of histone H(1). This, L-cysteine which is known to inhibit the activity of pyruvate kinase type M(2) from neoplastic cells transfering a phosphate from PEP to ADP, can act as a control factor champing the direction of enzymatic reaction in cancer cells.     

Effects of Pressure and Temperature on the Catalytic and Regulatory Properties of Muscle Pyruvate Kinase from an Off-Shore Benthic Fish

SYNOPSIS. Muscle pyruvate kinase from an abyssal Coryphaenoidesspecies occurs as a single electrophoretic form with an isoelectricpoint of about pH 6.0. Maximum catalytic rates are dramaticallyreduced by pressure. For catalysis at 3°C, the volume changeof activation, V*, is about 44 cm³/mole (calculated between14.7 and 8000 psi). The value ot V* decreases at higher temperaturesbut is pH independent. The activation energy for rattail musclepyruvate kinase at 14.7 psi is about 13 Kcal/mole and doublesat 12,000 psi. Mg²⁺ saturation kinetics involve positive site-siteinteractions. Hill plots yield n values of about 2.4 and K_avalues of about 2 mM (at 3°C), and these constants are pressureindependent. The K_m values for ADP increase slightly with pressure.PEP saturation curves are complex: at high PEP concentrations,the n values are about 2–2.5, while at low PEP levels,values for the Hill constant are about 1.0. The Hill constantlor PEP is not affected by pressure, but the apparent K_m increasessomewhat with pressure. FDP dramatically activates rattail musclepyruvate kinase (500% activation with 0.1 mM FDP) by (1) reducingthe K_mPEP, (2) increasing the maximum velocity, and (3) overridingnegative ATP modulation of the enzyme. The latter control featureis strictly dependent upon pressure and is not observed at lowpressure. In the presence of FDP, the K_m for PEP decreases athigh pressures, in this way counteracting the inhibitory effectsof pressure. Under low concentrations of substrates, pyruvatekinase activity is probably determined by its kinetic propertiesand not by energy-volume relationships.     

Phosphoenolpyruvate metabolism in Teladorsagia circumcincta: A critical junction between aerobic and anaerobic metabolism

Nematodes which have adapted to an anaerobic lifestyle in their adult stages oxidise phosphoenolpyruvate (PEP) to oxaloacetate rather than pyruvate as the final product of glycolysis. This adaptation involves selective expression of the enzyme phosphoenolpyruvate carboxykinase (PEPCK), instead of pyruvate kinase (PK). However, such adaptation is not absolute in aerobic nematode species. We have examined the activity and kinetics of PEPCK and PK in larvae (L₃) and adults of Teladorsagia circumcincta, a parasite known to exhibit oxygen uptake. Results revealed that PK and PEPCK activity existed in both L₃s and adults. The enzymes had differing affinity for nucleotide diphosphates: while both can utilise GDP, only PK utilised ADP and only PEPCK utilised IDP. In both life cycle stages, enzymes showed similar affinity for PEP. PK activity was predominant in both stages, although activity of this enzyme was lower in adults. When combined, both the activity levels and the enzyme kinetics showed that pyruvate production is probably favoured in both L₃ and adult stages of T. circumcincta and suggest that metabolism of PEP to oxaloacetate is a minor metabolic pathway in this species.     

Analysis of adenine nucleotides at the picomole level with 32P-phosphoenolpyruvate and pyruvate kinase.

A new sensitive method for adenine nucleotide analysis is described. The key reaction is the phosphorylation of ADP by [³²P]PEP in a reaction catalyzed by pyruvate kinase, with the extent of transfer of ³²P to ADP being determined by adsorbing the nucleotides onto charcoal. The nonadenine nucleoside diphosphates which also react in the pyruvate kinase reaction are corrected for by determining the ³²P retained in the nucleotide fraction after a second incubation with hexokinase and excess glucose. ATP is determined as ADP, after it is quantitatively converted by hexokinase in the presence of excess glucose. Similarly, AMP is analyzed by its conversion to ADP in an incubation with excess ATP and adenylate kinase. The sensitivity of the method for ADP and ATP is 0.05–0.5 pmoles while for AMP it is 5 pmoles.     

Properties of pyruvate kinase from soybean nodule cytosol

The properties of pyruvate kinase from soybean (Glycine max L.) nodule cytosol were examined to determine what influence the N₂ fixation process might have on this supposed key control enzyme. A crude enzyme preparation was prepared by chromatography of cytosol extract on a diethylaminoethyl-cellulose column. ATP and citrate at 5 mm concentrations inhibited pyruvate kinase 27 and 34%, respectively. Enzyme activation was hyperbolic with respect to both K⁺ and NH₄⁺ concentrations. In the presence of physiological concentrations of K⁺ and high phosphoenolpyruvate (PEP) concentrations, NH₄⁺ inhibited enzyme activity. Comparisons of kinetic parameters (V_max and apparent K_a) for NH₄⁺ and K⁺ with inhibition curves indicated that inhibition was very likely a result of competition of the ions for activation site(s) on the pyruvate kinase. In addition, apparent K_a (monovalent cation) and K_m (PEP) were influenced by PEP and monovalent cation concentrations, respectively. This effect may reflect a fundamental difference between plant and animal pyruvate kinases. It is concluded that control of cytosol pyruvate kinase may be closely related to reactions involved in the assimilation of NH₄⁺.     

Purification of porcine liver pyruvate dehydrogenase complex and characterization of its catalytic and regulatory properties.

Procedures are described for isolating highly purified porcine liver pyruvate and α-ketoglutarate dehydrogenase complexes. Rabbit serum stabilized these enzyme complexes in mitochondrial extracts, apparently by inhibiting lysosomal proteases. The complexes were purified by a three-step procedure involving fractionation with polyethylene glycol, pelleting through 12.5% sucrose, and a second fractionation under altered conditions with polyethylene glycol. Sedimentation equilibrium studies gave a molecular weight of 7.2 × 10⁶ for the liver pyruvate dehydrogenase complex. Kinetic parameters are presented for the reaction catalyzed by the pyruvate dehydrogenase complex and for the regulatory reactions catalyzed by the pyruvate dehydrogenase kinase and pyruvate dehydrogenase phosphatase. For the overall catalytic reaction, the competitive K_i to K_m ratio for NADH versus NAD⁺ and acetyl CoA versus CoA were 4.7 and 5.2, respectively. Near maximal stimulations of pyruvate dehydrogenase kinase by NADH and acetyl CoA were observed at NADH:NAD⁺ and acetyl CoA:CoA ratios of 0.15 and 0.5, respectively. The much lower ratios required for enhanced inactivation of the complex by pyruvate dehydrogenase kinase than for product inhibition indicate that the level of activity of the regulatory enzyme is not directly determined by the relative affinity of substrates and products of catalytic sites in the pyruvate dehydrogenase complex. In the pyruvate dehydrogenase kinase reaction, K⁺ and NH⁺₄ decreased the K_m for ATP and the competitive inhibition constants for ADP and (β,γ-methylene)adenosine triphosphate. Thiamine pyrophosphate strongly inhibited kinase activity. A high concentration of ADP did not alter the degree of inhibition by thiamine pyrophosphate nor did it increase the concentration of thiamine pyrophosphate required for half-maximal inhibition.     

Isolation and Characterization of Phosphoenolpyruvate Phosphatase from Germinating Mung Beans (Vigna radiata)

A phosphoenolpyruvate (PEP) phosphatase was purified to homogeneity from germinating mung beans (Vigna radiata). It was found to be a tetrameric protein (molecular mass 240,000 daltons) made up of apparently identical subunits (subunit molecular mass 60,000 daltons). It was free from bound nucleotides. It did not show pyruvate kinase activity. The enzyme showed high specificity for PEP. Pyrophosphate and some esters (nucleoside di- and triphosphates) were hydrolyzed slowly and phosphoric acid monoesters were not hydrolyzed. The enzyme showed maximum activity at pH 8.5. At this pH, the K_m of PEP was 0.14 millimolar and the V_max was equal to 1.05 micromoles pyruvate formed per minute per milligram enzyme protein. Dialysis of the enzyme against 10 millimolar triethanolamine buffer (pH 6.5), led to loss of the catalytic activity, which was restored on addition of Mg²⁺ ions (K_m = 0.12 millimolar). Other divalent metal ions inhibited the Mg²⁺ -activated enzyme. PEP-phosphatase was inhibited by ATP and several other metabolites.     

Epinephrine-stimulated phosphorylation of pyruvate kinase in hepatocytes

Incubation of rat liver parenchymal cells with 10^?5m epinephrine or norepinephrine resulted in a rapid incorporation of ³²P into pyruvate kinase. Inclusion of α-adrenergic blocking agents (phenoxybenzamine or phentolamine) in the hepatocyte incubation medium prior to addition of epinephrine suppressed the subsequent phosphorylation of pyruvate kinase. On the other hand, inclusion of the β-adrenergic antagonist, propranolol, in the hepatocyte incubation medium prior to addition of epinephrine did not suppress the epinephrine-elicited phosphorylation of pyruvate kinase. Exogenous addition of either cyclic AMP or cyclic GMP to the hepatocyte incubation medium also resulted in increased phosphorylation of pyruvate kinase. To investigate whether the same amino acid residue(s) of liver pyruvate kinase was being phosphorylated in each instance, ³²P-labeled pyruvate kinase was isolated from hepatocytes after incubation in the presence or absence of either glucagon or epinephrine. In addition, purified liver pyruvate kinase was phosphorylated in vitro with a rat liver cyclic AMP-dependent protein kinase. Each ³²P-labeled pyruvate kinase was then subjected to tryptic digestion, two-dimensional thin-layer peptide mapping, and autoradiography. Each ³²P-labeled pyruvate kinase sample yielded 44 to 48 tryptic peptides upon staining with ninhydrin and 4 peptides that contain ³²P as detected by autoradiography. Furthermore, the same 4 peptides of pyruvate kinase were radiolabeled in each instance. Thus phosphorylation of pyruvate kinase in vitro with [γ-³²P]ATP or upon addition of either glucagon or epinephrine to hepatocytes incubated with ³²P_i resulted in phosphorylation of the same amino acid residues.     

Metabolic regulation of pyruvate kinase isolated from autotrophically and heterotrophically grown Paracoccus denitrificans

Pyruvate kinase (ATP: pyruvate phosphotransferase (EC 2.7.1.40) was partially purified from both autotrophically and heterotrophycally grown Paracoccus denitrificans. The organism grown under heterotrophic conditions contains four times more pyruvate kinase than under autotrophic conditions. The enzyme isolated from both sources exhibited sigmoidal kinetics for both phosphoenolpyruvate (PEP) and ADP. The apparent M _m for ADP and PEP in the autotrophic enzyme were 0.63 mM ADP and 0.25 mM PEP. The effect of several low molecular weight metabolites on the pyruvate kinase activity was investigated. Ribose-5-phosphate, glucose-6-phosphate and AMP stimulated the reaction at low ADP levels; this stimulation was brought about by an alteration in the apparent K _m for ADP. The pyruvate kinases differ in their response to adenine nucleotides, but both preparations seem to be under adenylate control. The results are discussed in relation to the role of pyruvate kinase as a regulatory enzyme in P. denitrificans grown under both autotrophic and heterotrophic conditions.Non-Common Abbreviations PEP phosphoenolpyruvate - R-5-P ribose-5-phosphate - G-6-P glucose-6-phosphate - F-6-P fructose-6-phosphate - 3-PGA 3-phosphoglycerate     

Canine erythrocyte pyruvate kinase. II. Properties of the abnormal enzyme associated with hemolytic anemia in the basenji dog

We have compared the solubility, kinetic, immunological, and electrophoretic properties of erythrocyte pyruvate kinase from normal dogs and Basenji dogs with congenital hemolytic anemia due to pyruvate kinase deficiency. Differences can be detected between the two enzymes by all methods. The enzyme from the affected animals has a greater solubility in ammonium sulfate. It has a lower K _m for phosphoenolpyruvate, while the K _m for ADP is increased. This enzyme is not inhibited by ATP or activated by fructose 1,6-diphosphate. The enzyme from the affected animals has none of the allosteric properties characteristic of the normal canine enzyme. No difference can be detected by enzyme inactivation with rabbit antiserum against the human erythrocyte enzyme, but a slight spur is observed on comparison of the two enzymes by Ouchterlony immunodiffusion. The enzymes also differ in their electrophoretic mobilities on starch gel electrophoresis.     

Pyruvate kinase isozymes in oocytes and embryos from the frog Xenopus laevis

1. The kinetic characteristics of pyruvate kinase isozymes from oocytes, embryos, liver and skeletal muscle from the clawed frog Xenopus laevis were measured in cell extracts. 2. The muscle and liver isozymes display Michaelis-Menten kinetics with Kms for phosphoenolpyruvate (PEP) of 0.02 and 0.05 mM, respectively. 3. Pyruvate kinase from oocytes and embryos displays cooperative kinetics for PEP with a Km of about 0.15 mM; the kinetics become hyperbolic and the Km for PEP is reduced to 0.05 mM in the presence of microM concentrations of fructose-1,6-bisphosphate. 4. These data serve to characterize pyruvate kinase activity in oocytes and embryos and the kinetics are compared to mammalian pyruvate kinase isozymes.     

Characterization and kinetics of isoenzymes of pyruvate kinase from developing castor bean endosperm

Isozymes of pyruvate kinase (PK) have been isolated from developing castor bean endosperm. One isozyme, PK_c, is localized in the cytosol, and the other, PK_p, is in the plastid. Both isozymes need monovalent and divalent cations for activity, requirements which can be filled by K⁺ and Mg²⁺. Both isozymes are inhibited by citrate, pyruvate, and ATP. PK_c has a much broader pH profile than PK_p and is also more stable. Both have the same K_m (0.05 millimolar) for PEP, but PK_p has a 10-fold higher K_m (0.3 millimolar) for ADP than PK_c (0.03 millimolar). PK_c also has a higher affinity for alternate nucleotide substrates than PK_p. The two isozymes have different kinetic mechanisms. Both have an ordered sequential mechanism and bind phosphoenolpyruvate before ADP. However, the plastid isozyme releases ATP first, whereas pyruvate is the first product released from the cytosolic enzyme. The properties of the two isozymes are similar to those of their counterparts in green tissue.     

Kinetic studies of pyruvate kinase duringin vitro differentiation of GM-CFC haemopoietic precursor and bone marrow cells in mice

Pyruvate kinase studies in the granulocyte-macrophage lineage duringin vitro differentiation have been performed using culture techniques on GM-CFC cells and a study has also been done in bone marrow cells.The enzyme exhibits biphasic behaviour with respect to both of its substrates in cells derived fromin vitro cultures at 5 and 7 days of incubation period. However in bone marrow cells these kinetics are only observed for ADP.The different kinetic behaviour of pyruvate kinase toward Fru-1,6-P₂, Ala, Phe and ATP in the three cellular populations allows us to conclude that the expression of pyruvate kinase is associated with the differentiation of these cells.Abbreviations GM-CFC granulocyte-macrophage colony forming cells - PK pyruvate kinase - CFU-E Colony Forming Units Erythroid - E_w Error weight - PEP phosphoenolpyruvate - Fru-1,6-P₂ fructose 1,6-bisphosphate - Ala L-alanine - Phe L-phenylanine - 5 GM granulocytemacrophage colonies obtained after 5 days incubation - 7 GM granulocyte-macrophage colonies obtained after 7 days incubation - h Hill coefficient - S_0,5 substrate concentration that yields half-maximal velocity