Isolation,characterization, and reconstitution of a solubilized fraction containing the hydrophobic sector of the mitochondrial proton pump

The hydrophobic sector of the mitochondrial ATPase complex was purified by sequential extraction with cholate and octylglucoside, by further differential solubilization with guanidine and cholate in the presence of phosphatidylcholine, and by fractionation with ammonium sulfate. A polypeptide with a mass of 28,000 dalton was present in the purified hydrophobic section which was cleaved by trypsin, resulting in loss of reconstitution activity. In contrast, dicyclohexylcarbodiimide-binding proteolipid remained unimpaired after exposure to trypsin. The³²P_i-ATP exchange activity of the reconstituted ATPase complex was inhibited byp-hydroxymercuribenzoate, which reacted primarily with the 28,000-dalton protein, as monitored by acrylamide gel electrophoresis with¹⁴C-labeled inhibitor. The function of a 22,000-dalton polypeptide and of some minor components in the region of the proteolipid remains unknown. An examination of the phospholipid requirements for reconstitution of an active complex revealed an unexpected discrepancy. With an excess of phosphatidylethanolamine, optimal reconstitution of³²P_i-ATP exchange and ATP synthesis in the presence of bacteriorhodopsin and light was achieved; at a high phosphatidylcholine:phosphatidylethanolamine ratio, the rate of ATP synthesis remained high, but the rate of³²P_i-ATP exchange dropped precipitously. A new procedure is described for the reconstitution of the ATPase complex with purified phospholipids which is stable for at least 15 days.Abbreviations DCCD N,N-dicyclohexylcarbodiimide - STE-DTT buffer sucrose (250 mM), Tricine-KOH (50 mM), EDTA (5 mM), DTT (5 mM), pH 8.0 - F _o a membranous preparation from mitochondria conferring oligomycin (or rutamycin) sensitivity to F₁ - F₁F₆ coupling factors 1 (ATPase) and 6 - OSCP oligomycin-sensitivity-conferring protein - BSA bovine serum albumin - SDS sodium dodecyl sulfate - DTT dithiothreitol - STE buffer sucrose (250 mM), Tricine-KOH (50 mM), EDTA (5 mM) - TUA particles submitochondrial particles prepared by stepwise exposure of light-layer submitochondrial particles to trypsin and urea, then sonic oscillation in the presence of dilute ammonia (pH 10.4) - OG-cholate buffer glycerol (20%), Tricine (50 mM), MgSO₄ (5 mM), DTT (5mM), cholate (0.5%), octylglucoside (0.5%), pH 8.0 - p-HMB p-hydroxymercuribenzoate     

The proliferation of mouse mammary epithelial cells in response to specific mitogens is modulated by the mammary fat pad in vitro

Summary The ability of the murine mammary fat pad to directly stimulate the growth of mammary epithelial cells and to modulate the effects of various mammogenic agents has been investigated in a newly described, hormone- and serum-free coculture system. COMMA-1D mouse mammary epithelial cells were cultured for 5 or 7 d with various supplements in the absence or presence of epithelium-free mammary fat pad explants from virgin female BALB/c mice. Cocultured fat pad stimulated increases in the DNA content of COMMA-1D cultures by two- to threefold or six-to eightfold after 5 or 7 d, respectively. The mitogenic effect was additive to that of 10% fetal calf serum and could not be attributed to the release of prostaglandin E₂ or synthesis of prostaglandins by epithelial cells. In addition, bovine serum albumin attenuated (P<0.05) the mitogenic effect of cocultured mammary fat pad. Added alone, insulinlike growth factor-I, epidermal growth factor, and insulin increased (P<0.05) total DNA of COMMA-1D cultures by 2.5-, 3.7-, and 2.3-fold, respectively. Cocultured mammary fat pad markedly interacted (P<0.01) with these mitogens to yield final DNA values that were 21.2-, 13.3-, and 22.1-fold greater than in basal medium only. Associated with this proliferation was the formation of numerous domes above the COMMA-1D monolayer. There was no proliferative response to growth hormone or prolactin in the absence or presence of cocultured fat pad (P>0.05). Whereas hydrocortisone did not alter cell number, it attenuated (P<0.05) the mitogenic effect of cocultured mammary fat pad. These results indicate that the murine mammary fat pad is not only a direct source of mitogenic activity, but also modulates the response of mammary epithelial cells to certain mammogens.     

STIMULATION BY PHOSPHATE OF THE ACTIVATION OF GLUTAMATE APODECARBOXYLASE BY PYRIDOXYL-5'-PHOSPHATE AND ITS IMPLICATIONS FOR THE CONTROL OF GABA SYNTHESIS

Abstract— Previous studies have shown that inorganic phosphate relieves the inhibition of brain glutamate decarboxylase by ATP. Since the evidence suggested that inhibition by ATP resulted in formation of the inactive apoenzyme, it was possible that P_i might relieve this inhibition by promoting activation of the apoenzyme by its cofactor, pyridoxal-5′-phosphate. We have investigated this possibility using apoenzyme from rat brain. In most experiments, apoenzyme was prepared by incubating glutamate decarboxylase with 20 μM-aminooxyacetate followed by exhaustive dialysis. Activation was studied by incubating the enzyme with pyridoxal-P under various conditions after which the amount of holoenzyme formed was measured by a 5 min enzyme assay. In the absence of P_i there was an initially rapid but incomplete activation by pyridoxal-P which stopped after 15-20 min. The amount of holoenzyme formed after 20 min increased without saturating as the concentration of pyridoxal-P was raised from 0.03 to 250 μm Addition of 1-10mm -P_i increased the initial rate of activation and the final degree of activation. P_i stimulated activation whether present initially or added after 15 min, indicating that incomplete activation in the absence of P_i was not attributable to destruction of pyridoxal-P or irreversible inactivation of the enzyme. P_i reduced the concentration of pyridoxal-P, giving half maximal activation from about 10 μm to about 0.07 μm . Pi also stimulated the residual enzyme activity in the apoenzyme preparation in the absence of added pyridoxal-P, suggesting that P_i may convert the holoenzyme to a more active form. P_i had very similar effects on glutamate apodecarboxylase from vitamin B₆-deficient rats and also stimulated the activation of apoenzyme which had been prepared by dissociation of the cofactor by treatment with glutamate, indicating that stimulation by P_i is unrelated to the method of preparing apoenzyme. Activation was also strongly stimulated by methylphosphonate and arsenate and weakly stimulated by sulfate. Trichloromethylphosphonate, cacodylate, pyrophosphate and AMP had little or no effect. The results suggest that P_i relieves the inhibition by ATP, at least in part, by promoting the activation of glutamate apodecarboxylase, and that P_i may be an important factor in the regulation of glutamate decarboxylase in vivo.     

Acid Gradient across Plasma Membrane Can Drive Phosphate Bond Synthesis in Cancer Cells: Acidic Tumor Milieu as a Potential Energy Source

Aggressive cancers exhibit an efficient conversion of high amounts of glucose to lactate accompanied by acid secretion, a phenomenon popularly known as the Warburg effect. The acidic microenvironment and the alkaline cytosol create a proton-gradient (acid gradient) across the plasma membrane that represents proton-motive energy. Increasing experimental data from physiological relevant models suggest that acid gradient stimulates tumor proliferation, and can also support its energy needs. However, direct biochemical evidence linking extracellular acid gradient to generation of intracellular ATP are missing. In this work, we demonstrate that cancer cells can synthesize significant amounts of phosphate-bonds from phosphate in response to acid gradient across plasma membrane. The noted phenomenon exists in absence of glycolysis and mitochondrial ATP synthesis, and is unique to cancer. Biochemical assays using viable cancer cells, and purified plasma membrane vesicles utilizing radioactive phosphate, confirmed phosphate-bond synthesis from free phosphate (P_i), and also localization of this activity to the plasma membrane. In addition to ATP, predominant formation of pyrophosphate (PP_i) from P_i was also observed when plasma membrane vesicles from cancer cells were subjected to trans-membrane acid gradient. Cancer cytosols were found capable of converting PP_i to ATP, and also stimulate ATP synthesis from P_i from the vesicles. Acid gradient created through glucose metabolism by cancer cells, as observed in tumors, also proved critical for phosphate-bond synthesis. In brief, these observations reveal a role of acidic tumor milieu as a potential energy source and may offer a novel therapeutic target.     

Acid phosphatases excreted by Humicola lutea 120-5 in casein-containing medium

The fungus Humicola lutea 120-5 cultivated in casein-containing media, in the presence or absence of inorganic phosphate (P_i), excretes three different molecular forms of acid phosphatase (with M_r values of approximately 140, 70 and 35 kDa). The enzyme forms were isolated and purified 30–100-fold by a procedure involving two steps of ion-exchange chromatography and Sephadex G-200 gel chromatography. It was found that the fungus excretes only one of the phosphatases with the highest M_r (140 kDa) during growth on medium with inorganic nitrogen source (NaNO₃). This form (designed AcPh I) was assumed to be a constitutive, since it showed resistance to high P_i-concentrations (10 mM) and its biosynthesis was not affected by the type of nitrogen source (casein or NaNO₃). The other two forms (AcPh II-70 and AcPh III-35 kDa) were competitively inhibited by P_i (K _i = 0.5 and 0.2 mM, respectively) and were induced by casein. The K _m values of AcPh I and AcPh II were estimated as 1.3 mM, while AcPh III showed a higher affinity for p-nitrophenylphosphate (pNPP) with K _m of 0.5 mM. The AcPh I–III fractions demonstrated a pH optimum in the range of 4.5–4.8 and an optimal temperature of 55 °C using pNPP as a substrate. This revised version was published online in November 2006 with corrections to the Cover Date.     

Aminoacetone Induces Loss of Ferritin Ferroxidase and Iron Uptake Activities

The effects of inorganic phosphate (P_i), the main intracellular membrane permeable anion capable of altering mitochondrial pH gradients (ΔpH), were measured on mitochondrial H₂O₂ release. As expected, P_i decreased ΔpH and increased the electric membrane potential (ΔΨ). Mitochondrial H₂O₂ release was stimulated by P_i and also by its structural analogue arsenate. However, acetate, another membrane-permeable anion, did not stimulate mitochondrial H₂O₂ release. The stimulatory effect promoted by P_i was prevented by CCCP, which decreases transport of P_i across the inner mitochondrial membrane, indicating that P_i must be in the mitochondrial matrix to stimulate H₂O₂ release. In conclusion, we found that P_i and arsenate stimulate mitochondrial reactive oxygen release, an effect that may contribute towards oxidative stress under conditions such as ischemia/reperfusion, in which high-energy phosphate bonds are hydrolyzed.     

Respiratory control inMicrococcus lysodeikticus

The respiration rate of P_i-deprived cells ofMicrococcus lysodeikticus is markedly increased by P_i, and returns to the original level following P_i consumption. The stimulation of the respiration was found to be specific for P_i and arsenate. Although succinate and valinomycin enchanced the respiration of both P_i-grown and P_i-deprived cells, only the latter could be further stimulated by P_i. The effect of P_i on the respiration rate was found to be concentration dependent. The control of respiration by P_i is due to its rapid uptake and its subsequent polymerization to polyphosphate via ATP. Both of these processes are coupled to proton influx into the cell, and thus stimulate the proton efflux and the respiration rate.     

Iron salts and transferrin are specifically required for cell division of cultured 3T6 cells.

3T6 Swiss mouse fibroblasts can be plated in medium without serum. Prostaglandin F₂^∞, fibroblastic growth factor, epidermal growth factor and insulin stimulate DNA synthesis in medium containing vitamin B₁₂. A combination of these factors, however, does not stimulate cell division under our conditions. Iron salts and transferrin or low concentrations of serum are required to be concurrently present with the growth factors before cell division is observed.     

Role of PKCα−p38MAPK−Giα axis in peroxynitrite-mediated inhibition of β-adrenergic response in pulmonary artery smooth muscle cells

In the context of cross-talk between transmembrane signaling pathways, we studied the loci within the β-adrenergic receptor/G protein/adenyl cyclase system at which PKC exerts regulatory effects of peroxynitrite (ONOO^?) on isoproterenol stimulated adenyl cyclase activity in pulmonary artery smooth muscle cells. Treatment of the cells with ONOO^? stimulated PKC-α activity and that subsequently increased p³⁸MAPK phosphorylation. Pretreatment with Go6976 (PKC-α inhibitor) and SB203580 (p³⁸MAPK inhibitor) eliminated ONOO^? caused inhibition on isoproterenol stimulated adenyl cyclase activity. Pretreatment with Go6976, but not SB203580, prevented ONOO^? induced increase in PKC-α activity. Studies using genetic inhibitors of PKC-α (PKC-α siRNA) and p³⁸MAPK (p³⁸MAPK siRNA) also corroborated the findings obtained with their pharmacological inhibitors in eliminating the attenuation of ONOO^? effect on isoproterenol stimulated adenyl cyclase activity. This inhibitory effect of ONOO^? was found to be eliminated upon pretreatment of the cells with pertussis toxin thereby pointing to a G_i dependent mechanism. This hypothesis was reinforced by G_iα phosphorylation as well as by the observation of the loss of the ability of Gpp(NH)p (a measure of G_i mediated response) to stimulate adenyl cyclase activity upon ONOO^? treatment to the cells. We suggest the existence of a pertussis toxin sensitive G protein (G_i)-mediated mechanism in isoproterenol stimulated adenyl cyclase activity, which is regulated by PKCα-p³⁸MAPK axis dependent phosphorylation of its α-subunit (G_iα) in the pulmonary artery smooth muscle cells.     

The stimulation of the initiation of DNA synthesis by fibroblast growth factor in swiss 3T3 cells: Interactions with hormones during the pre-replicative phase

Fibroblast Growth Factor (FGF) stimulates quiescent Swiss 3T3 cells to initiate DNA synthesis and divide. Cells begin to enter the S-phase after a lag of 13–15 hr, and the rate of initiation of DNA synthesis in the population can be quantified by a first order rate constant, k. A subsaturating concentration of FGF may establish the lag phase, while the value of k is dependent on the FGF concentration present during the second half of the lag phase. Insulin and hydrocortisone enhance the effect of FGF by increasing k without changing the lag phase, and they can act when added at any time after FGF. Prostaglandin E₁ (PGE₁) causes a decrease in k and a lengthening of the lag phase, and acts only when added during the first 8 hr. None of these agents stimulate DNA synthesis in the absence of FGF. These results show that the stimulation of growth by FGF follows the same basic pattern as was previously shown with Prostaglandin F_2α (PGF_2α). However, since hydrocortisone inhibits stimulation by PGF_2α when added during the first 4 hr of the lag phase, there are clearly differences in some events stimulated by the two growth factors.     

Highly purified intact chloroplasts from mesophyll protoplasts of the C4 plant Digitaria sanguinalis. Inhibition of phosphoglycerate reduction by orthophosphate and by phosphoenolpyruvate

Purified mesophyll protoplasts from the C₄ plant Digitaria sanguinalis were used to prepare intact mesophyll chloroplasts with low cytoplasmic contamination. The procedure involved breakage of protoplasts, differential centrifugation, partition in a dextran-polyethylene glycol two-phase system, and Percoll density gradient centrifugation. The final chloroplast preparation contained about 80% intact chloroplasts with a phosphoenolpyruvate carboxylase contamination of 0.2–1% of the original protoplast activity, corresponding to 1–6 μmol ¹⁴CO₂ fixed/mg Chl h. The purified chloroplasts showed substrate-dependent oxygen evolution in the range of 40–150 μmol substrate reduced/mg Chl h, with phosphoglycerate or oxaloacetate as substrate. Both reactions were stimulated 1.5 fold by pyruvate and further by addition of the other substrate. These measurements indicated that phosphoglycerate reduction was limited by substrate transport across the chloroplast envelope. Without added substrate, the chloroplasts consumed oxygen via pseudo-cyclic electron transport in the light. Also this reaction was stimulated by pyruvate. Phosphoglycerate-dependent oxygen evolution was inhibited by P_i and by phosphoenolpyruvate to about the same extent with purified chloroplasts, but only by P_i with protoplast extracts. This suggests that phosphoglycerate, P_i and phosphoenolpyruvate share a common carrier, similar to the P_i-translocator in C₃ chloroplasts, and that the lack of inhibition obtained with phosphoenolpyruvate and unpurified chloroplasts is artefactual, possibly due to oxaloacetate formation from added phosphoenolpyruvate and concomitant stimulation of oxygen evolution by oxaloacetate reduction. Furthermore, the results suggest that phosphoenolpyruvate is transported with a K_m similar to that of P_i in C₄ mesophyll chloroplasts.     

Does AMP participate in photosynthetic phosphorylation?

Osmotically disrupted chloroplasts catalyze a rapid, light and AMP and ATP dependent ³²P_i incorporation into ATP. Light does not stimulate [¹⁴C] AMP incorporation into ATP in this system. AMP in the presence of P_i inhibits electron flow in a manner analogous to ADP inhibition in the absence of P_i. The inhibition of AMP + P_i is reversed on addition of ADP.     

No stimulatory effect of added histones on DNA synthesis in isolated HeLa cell nuclei

Summary Contrary to some recent reports DNA synthesis in isolated HeLa cell nuclei wasnot stimulated by the addition of low amounts of histones neither in the presence nor in the absence of cytosol. The individual histone fractions H₁, H₂A, H₂B and H₃ also failed to stimulated DNA synthesis.     

Short communication: Purification and properties of acid phosphatase (EC 3.1.3.2) secreted by strain 74A of the mould Neurospora crassa

Both P_i-repressible acid phosphatases, IIb (mycelial) and IIc (extracellular), synthesized by Neurospora crassa and purified to apparent homogeneity by 7.5% PAGE, are monomers, are inhibited by 2 mm ZnCl₂ and are non-specifically stimulated by salts. However, the IIc form is activated by p-nitrophenylphosphate (in a negative co-operativity effect with a K _0.5 of 2.5 mm) whereas form IIb shows Michaelis kinetics, with a K _m of 0.5 mm. Thus, since both enzymatic forms may be expressed by the same gene (pho-3), it is possible that post-translational modifications lead to the excretion of an enzymatic form with altered Michaelis kinetics compared with the enzymatic form retained by the mycelium.     

Stimulation of the initiation of DNA synthesis and cell division in several cultured mouse cell types : Effect of growth-promoting hormones and nutrients

The ability of prostaglandin F_2α (PGF_2α) and other prostaglandins to stimulate the initiation of DNA synthesis in quiescent cultures of various mouse fibroblastic cell types has been investigated. PGF_2α was found to be more effective than the other prostaglandins. Most cell types, with the exception of BALB/c 3T3, responded to PGF_2α. Addition of PGF_2α in combination with insulin resulted in a synergistic increase in the proportion of cells synthesizing DNA. The effect of nutrients on the stimulation of the initiation of DNA synthesis has been examined in detail; it was found that Swiss 3T3 cells showed a requirement for hypoxanthine and vitamin B₁₂ whereas Swiss 3T6 cells demonstrated a stringent requirement for vitamin B₁₂ only. The effect of prostaglandin precursors, synthetic analogues of the prostaglandin endoperoxides and inhibitors of prostaglandin synthesis was also examined in two cell types. The effect of PGF_2α was compared with that of two polypeptide growth factors, epidermal growth factor (EGF) and fibroblast growth factor (FGF) in Swiss 3T6 cells grown in 0.0025% (v/v) serum. In combination with insulin each of these three growth factors stimulated the initiation of DNA synthesis in approximately the same number of cells.     

Prostaglandin F2alpha and insulin stimulate phosphate uptake and (Na+, K+) ATPase activity in resting mouse fibroblast cultures.

The (Na⁺, K⁺)ATPase transport system in resting 3T3 Swiss mouse fibroblasts is rapidly activated by prostaglandin F₂α and insulin, which initiate DNA synthesis in these cells. Prostaglandin F₂α, but not insulin, promotes a rapid increase in P_i uptake which is partially coupled to the Na⁺ pump. This rapid activation of both transport systems occurs by a mechanism which does not require fluctuation of cyclic AMP levels or new protein synthesis. A subsequent protein synthesis-dependent increase in P_i uptake is stimulated by insulin and prostaglandin F₂α. These results suggest that different types of control of membrane transport occur during growth stimulation.     

Purification and structural properties of adenylylated and deadenylylated glutamine synthetase from Rhodopseudomonas sphaeroides

Glutamine synthetase (GS) of Rhodopseudomonas sphaeroides is regulated by adenylylation and deadenylylation. The extent of adenylylation/deadenylylation of the enzyme in cell free extracts was influenced by inorganic phosphate (P _i), -ketoglutarate, ATP and other nucleotides. While P _i and -ketoglutarate stimulated deadenylylation, ATP and other nucleotides enhanced adenylylation of the GS. By using proper combinations of the effectors and incubation conditions, any desired adenylylation state of GS could be adjusted in vitro. The enzyme was purified to electrophoretic homogenity by three steps including affinity chromatography on 5-AMP-Sepharose. Adenylylated and deadenylylated enzyme showed different UV-spectra and isoelectric points. The native enzyme had a molecular weight of 600,000, deadenylylated subunits of 50,000±1,000. Electron microscopic investigations revealed a dodecameric arrangement of subunits in two hexameric planes.     

Diadenosine 5′,5‴-P1,P4-tetraphosphate- (Ap4A-) mediated stimulation of DNA synthesis in extracts from Xenopus laevis oocytes

Diadenosine 5′,5‴-P¹,P⁴-tetraphosphate (Ap₄A) stimulates DNA synthesis in Xenopus laevis oocytes in the presence of activated DNA as template. Besides Ap₄A, other analogues such as Ap₃A, ATP and other derivatives are able to stimulate DNA polymerase activity. The effect of Ap₄A on DNA synthesis is observed with poly(dT) and poly(dT)-poly(dA) as templates, while no effect is found with poly(dA)(dT)_12–18 and poly(dC)(dG)_12–18. In the presence of a poly(dT) template, the oocyte extract is able to utilize Ap₄A as primer and to form a covalent bond between this dinucleotide and the nascent poly(dA) chain. An Ap₄A-binding protein present in the system has been purified and separated from DNA polymerase α-primase after phosphocellulose chromatography. After this separation, Ap₄A is no longer able to stimulate the polymerase activity, or to be utilized as primer by DNA polymerase α-primase.     

Synthesis and biological evaluation of C‐terminal hydroxamide analogues of bombesin

Bombesin pseudo‐peptide analogues containing a hydroxamide function on the C‐terminal part of the molecule, e.g. H‐D‐Phe‐Gln‐Trp‐Ala‐Val‐Gly‐His‐Leu‐NHOBzl 1 and H‐D‐Phe‐Gln‐Trp‐Ala‐Val‐Gly‐His‐Leu‐NHOH 2 were synthesized. These compounds were tested for their ability to recognize the bombesin receptor on rat pancreatic acini and on 3T3 cells, to stimulate (i) amylase secretion from rat pancreatic acini and (ii) accumulation of tritiated thymidine in 3T3 cells. Compounds 1 and 2 were able to recognize bombesin receptors on both models with high affinity (K_i=7±2 and 5.8±0.9 nm on rat pancreatic acini, and K_i=4.1±1.2 and 7.7±1.9 nm on 3T3 cells, respectively). Interestingly, compound 1 behaved as a potent agonist in stimulating amylase secretion from rat pancreatic acini and is able to stimulate thymidine accumulation in 3T3 cells, while compound 2 was able to potently antagonize bombesin‐stimulated amylase secretion (K_i=22±5 nm ) in rat pancreatic acini and had no proper effect on 3T3 cells; however, it was able to inhibit bombesin‐stimulated thymidine accumulation in 3T3 cells with high potency (K_i=1.6±0.6 nm ). Copyright © 1999 European Peptide Society and John Wiley & Sons, Ltd.     

COMPETITION BETWEEN STAURASTRUM LUETKEMUELLERII (CHLOROPHYCEAE) AND MICROCYSTIS AERUGINOSA(CYANOPHYCEAE) UNDER VARYING MODES OF PHOSPHATE SUPPLY1

The desmid Staurastrum luetkemuellerii Donat et Ruttner and the cyanobacterium Microcystis aeruginosa Kütz. were grown in mixed cultures with various phosphate (P_i) additions. One pulse of P_i each day (semi-continuous cultures) favored M. aeruginosa whereas S. luetkemuellerii was favored when the same quantity of P_i was supplied continuously (chemostats). Both species coexisted under P limitation provided that the nutrient was supplied in an appropriate mode. The ability of each species to compete for P depended on their P_i uptake characteristics and their capability to retain the accumulated P_i. High affinity in uptake at low P_i concentrations contributed considerably to the growth eficiency of S. luetkemuellerii under continuous supply of P_iM. aeruginosa was, however, consistently superior to S. luetkemuellerii in accuniulatiug the newly added P, but had a high rate of P_i release. In both -types of cultures, a net high of P went from M. aeruginosa to S. luetkemuellerii. The kinetic characteristics of the two species were used to simulate the outcome of competition experiments. Simulations agreed with the experimental data f both uptake and P_i release were considered in the model. The zlariable P*(the concentration of P_i at which the net uptake is equal to μ·Q_P is a function of uptake and release of P_i but could not explain the chemostat results. S. luetkemuellerii was the winner in many experiments even if its P*was higher thou that of M. aeruginosa. Thus, in the present case P_c (the concentration at which the net uptake is zero) was a better predictor of the ability to compete for P_i under steady state as well as transient conditions in the P_i supply.