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Interpenetrating polymer network (IPN) architectures were conceived to improve the mechanical properties of a fibrin gel. Conditions allowing an enzymatic reaction to create one of the two networks in IPN architecture were included in the synthesis pathway. Two IPN series were carried out, starting from two polyethylene oxide (PEO) network precursors leading to different cross-linking densities of the PEO phase. The fibrin concentration varied from 5 to 20 wt.% in each series. The behavior of these materials during dehydration/hydration cycles was also studied. The mechanical properties of the resulting IPN were characterized in the wet and dry states. These self-supported biomaterials combine the properties of both a protein gel and a synthetic polymer. Finally, cells were grown on PEO/fibrin IPN, indicating that they are non-cytotoxic.

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Enzyme-catalyzed proteolysis of gelatin gels has been studied. We report a gel degradation rate varying as the square of the enzyme concentration. The diffusion motion of enzymes in the gel has been measured by two-photon fluorescence correlation spectroscopy and identified as being anomalously slow. These experimental results are discussed from a theoretical point of view and interpreted in terms of a diffusion-controlled mechanism for the gel degradation. These results make a step toward the understanding of enzyme-catalyzed gel degradation and give new insight on biological processes such as the action of metalloproteinases in the extracellular matrix involved in cellular invasion.

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We monitored the cell-free solubilization of extracellular matrix and fibronectin gels, catalyzed by exogenous proteinases. The corresponding measurements could not be interpreted according to usual proteinase kinetics. The observation that this experimental system did not consist in surface but in bulk degradation and appeared specific to gel substrates, incited us to use gelation-related approaches to describe these kinetics. We show that the gel-sol transition theory adequately describes the enzyme reactions. This allowed formulation and experimental confirmation of a power law relating macroscopic changes of the gel to enzyme kinetics. This approach could also be used for other power laws predicted by the gel-sol transition theory, allowing a better understanding of macroscopic modification of the extracellular matrix during proteolysis, which is implied in many biological situations, especially tumor dissemination.

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Extracellular proteolysis during cell invasion is thought to be tightly organized, both temporally and spatially. This work presents a simple kinetic model that describes the interactions between extracellular matrix (ECM) proteins, proteinases, proteolytic fragments, and integrins. Nonmonotonous behavior arises from enzyme de novo synthesis consecutive to integrin binding to fragments or entire proteins. The model has been simulated using realistic values for kinetic constants and protein concentrations, with fibronectin as the ECM protein. The simulations show damped oscillations of integrin-complex concentrations, indicating alternation of maximal adhesion periods with maximal mobility periods. Comparisons with experimental data from the literature confirm the similarity between this system behavior and cell invasion. The influences on the system of cryptic functions of ECM proteins, proteinase inhibitors, and soluble antiadhesive peptides were examined. The first critical parameter for oscillation is the discrepancy between integrin affinity for intact ECM proteins and the respective proteolytic fragments, thus emphasizing the importance of cryptic functions of ECM proteins in cell invasion. Another critical parameter is the ratio between proteinase and the initial ECM protein concentration. These results suggest new insights into the organization of the ECM degradation during cell invasion.

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In an attempt to explain the relationship between conformations of peptide substrates of thermolysin in natural form and the experimental enzymatic cleavages, five peptides of various length were studied in two solvents H2O and glycerol, which may mimic the catalytic environmental conditions. As NMR failed to define sufficiently rough constraints to ensure a convergence of a refinement process for such short and flexible peptides, the conformational space was first searched using the MCMM method. The generated structures were then clustered in families using a 0.3A rmsd criterion and the derived structural characteristics were compared to the experimental NMR parameters. In a first approach, the NMR consistent conformations were compared with the structure of a thermolysin bound peptidic inhibitor ZG(P)LL to characterize the free-ligand predisposition to be cleaved. Further molecular dynamic calculations were performed at 300 K on the conformations corresponding to families in agreement with the ZG(P)LL structure in order to obtain information on their stability and on the trajectories of the torsion angles involved in the active site recognition. In conclusion, for four studied peptides, some conformations were found to be in agreement with 5 of the 8 cleavages experimentally observed.

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Glycerol, employed to mimic biological media with restricted water activity, has been shown to modify the activity of subtilisin BPN', an endopeptidase, towards the oxidized insulin B-chain, a well-studied substrate (FEBS Lett., 279 (1991) 123-131). Without minimizing the role of the microenvironment on the enzyme, we have studied the effect of glycerol addition on the structure of the enzyme substrate by homonuclear NMR spectroscopy and simulated annealing. Our results show that, in water, the oxidized insulin B-chain tertiary structure loses its central helix (residues B9-B19) and presents a folded structure with a flexible turn (residues B18-B24) in the beta-turn region of the insulin B-chain; whereas, in glycerol, the peptide is more rigid and is not folded. Moreover, in our experimental conditions, glycerol favors beta-strand secondary structure formation. Following these results, hypotheses about the differences observed in enzymatic activity on this substrate in glycerol have been postulated.

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Soybean lipoxygenase-1 kinetics are known to show product and substrate inhibition. With linoleic acid as the substrate and using a simple Michaelis-Menten formulation, we have shown that K(ss), the substrate inhibition constant was increased by more than five-fold when initial oxygen concentration was increased from 228 to 1140 microM. Excess substrate inhibition is in fact almost avoided at high initial oxygen concentration. This modification seems correlated with enzyme saturation with oxygen relative to linoleic acid, as reflected by alterations of the substrate conversion rate. Possible implications for the enzyme kinetics are discussed.

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Synthesis and use of various substrates permit an improved approach to thermolysin-peptide recognition and elucidation of several new criteria affecting enzyme specificity. Nature and position of the recognized residue, role of adjacent amino acids, lateral chain hydrophobicity, and volume and length of peptides were all considered. Hydrolysis reactions were also carried out in the presence of glycerol; the effect of microenvironment modifications was quantitative, for example in inducing variations in catalytic reaction rates, and also qualitative, such as in influencing affinity.

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The addition of water-soluble cosolvents in the reaction medium of type 1 soybean lipoxygenase can modify the selectivity of the enzyme in the hydroperoxide synthesis reaction. This also results in changes in secondary reactions such as carbonyl compound formation. The possibility of a conformational change of the enzyme due to variations in its microenvironment was considered. Using enzyme immobilization and laser visible Raman spectroscopy, both indirect and direct observations of such a protein conformational rearrangement are described. Subtle modifications in the secondary and/or tertiary structures, for example in microenvironments of Tyr and Trp residues, in orientations of lateral side chains were evidenced, and their importance to enzyme specificity is discussed.

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A polarographic method using a Clark oxygen electrode was used to assess oxygen concentrations in model and complex media before and during the lipoxygenase-catalyzed oxidation of linoleic acid to hydroperoxides. The results were in good agreement with those obtained with the chemical determination of dissolved oxygen. The electrode correctly responded when the dissolved oxygen concentration was decreased by the addition of water activity depressors (sorbitol, sucrose, glucose). The influence of the medium components on the gas solubility was discussed. The linear relationship between partial pressure of oxygen (determined by polarographic method) and the oxygen concentration (determined by chemical method) indicated that the Clark oxygen electrode can be used to study enzyme reactions consuming or evolving oxygen in non-Newtonian media.

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Subtilisin BPN' activity on a synthetic substrate is found to decrease with the concentration of soluble additives such as sugars and polyols, the catalytic efficiency of the enzyme being related to the water activity in the reaction medium. Limited hydrolysis of B chain of insulin is followed and the cleavage priority determined. When carried out in glycerol-containing medium, both enzyme catalytic behaviour and specificity are perturbed; a different cleavage order and a selectivity restriction are observed. The experiments were generalised to purified proteins and to an insoluble protein complex. The hydrolysis kinetics of purified gliadins by pepsin and of gluten by a Bacillus neutral protease are modulated in presence of water activity depressors. Glycerol is able to increase both pepsin efficiency and gluten protein solubility. The hydrolysis order is affected by water-structuring molecules in the enzyme microenvironment and new peptides appear whatever the size and initial solubility of the substrate.

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The activity of egg-white lysozyme was measured in the presence of carbohydrate additives in the reaction medium. These additives show a significant affinity for water. They depress water activity and increase the viscosity of the medium. Solute-solvent interactions in aqueous solutions of the additives are characterized by properties such as the intrinsic viscosity, Huggins constant apparent molar volume and hydration number. It was found that, despite the lowering of enzyme activity when the concentration of additive is increased, the behavior remains Michaelian and neither modification of Km nor inhibition by excess substrate is observed. On the other hand, the effect of the viscosity of the medium on enzyme activity was determined. This effect is independent of the nature of the additive at high viscosities (greater than 4 mPa s-1) for which enzyme activity is very low and appears to vary according to the kind of additive in dilute solution at low viscosities (less than 2 mPa s-1).

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Sorbitol, added as a depressor of water activity in the reaction medium of yADH, can modify the kinetic behaviour of the enzyme towards the four substrates tested: ethanol, propanol, butanol and pentanol, as well as towards the coenzyme NAD. All apparent Km values of the alcohol substrates and NAD decreased as the additive concentration increased. However, the additive-caused modifications of the enzyme activity were found to depend on the carbon-chain length of the alcohol substrate, in other words, the catalytic selectivity of the enzyme towards different substrates was changed by the additive. These results and supplementary experiments suggested that sorbitol may have two opposing effects on the enzyme: the positive effect leads the enzyme to adopt a conformation which is more accessible to its substrates; while the negative effect results in a diffusional constraint for the enzyme reaction. Observed results were the combination of the two opposing effects.

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The influence of water activity on initial lysozyme kinetics is studied. Enzyme catalytic capacity exponentially increases with thermodynamical water activity of the reactant medium; this relation seems independent of the chemical structure of the water activity depressors but dependent on the structuration of water molecules they induce. This influence of water organization on initial enzyme activity is immediate and may be preserved even after a large dilution, thus lysozyme presents a "hydration memory" phenomenon. This effect is in accordance with sorption/desorption isotherms, an hysteresis loop being observed.

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Photosynthetic ATP regeneration was measured in open reactors using immobilized Chromatophores from Rhodopseudomonas capsulata. The influence of several factors on both initial and long-term ADP photophosphorylation was studied. The effect of phosphate salts and of bovine serum albumin on the organelle activity yield was studied. Photophosphorylation was initiated either with ADP or regenerated ATP and the roles of these nucleotides were compared. Different photoreactor configurations were tested for the production of a phosphorylated compound and a flat reactor selected. The presence of inorganic pyrophosphate in the reaction medium was shown to improve the synthesis of ATP 1.4 times. Using the optimal conditions described here, the total G-6P production was 50-fold higher than in batch reactors.

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ADP phosphorylation coupled to cyclic electron transport was studied over a long period using immobilized chromatophores from Rhodopseudomonas capsulata. Photophosphorylation of ADP as a function of time was continuously measured under different conditions of continuous illumination and concentration of oxygen. Using a red cutoff filter, it was possible to sustain ADP phosphorylation at a maximal rate for more than 10 days, whereas inactivation had always been observed after 5 days when white light was used. The influence of light nature on inactivation was demonstrated using photopigment absorption spectra.

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