Interactions between ß-lactoglobulin and nutraceutical ligands riboflavin, vitamin D₃ and lysozyme : formation, physico-chemical and biological characterization of functional delivery scaffolds

Diarrassouba, Fatoumata

20 April 2018

La protéine majeure du lactosérum, la β-lactoglobuline (βlg) est bien reconnue pour ses propriétés structurales intéressantes lui permettant d’établir des interactions avec des ligands de taille et de caractéristiques différentes. La riboflavine (RF) et la vitamine D3 (D3) ont été sélectionnées comme modèles de petits nutraceutiques amphiphiles et hydrophobes, respectivement, et le lysozyme (Lyso), comme ligand protéique de plus grande taille. La capacité de la βlg à lier la RF a été étudiée par des méthodes spectroscopiques. La βlg et la RF forment le complexe βlg-RF dont la photoactivation génère une activité antiproliférative contre les cellules cancéreuses de la peau, démontrée en utilisant le protocole du NCI/NIH Developmental Therapeutics Program. La cytotoxicité serait probablement due à la génération d’espèces oxydatives réactives résultant de l’interaction entre la RF et la βlg. L’impact de la formation du βlg-D3 sur la solubilité et stabilité de la D3 a été étudié en utilisant des méthodes spectroscopiques et de chromatographie. Les résultats ont démontré que le complexe βlg-D3 était stable aux pHs gastrique et intestinal et augmentait la solubilité de la D3. De plus, une matrice protéique appelée coagulum enrichie en D3 (94.5 ± 1.8 % de taux d’encapsulation) été formée à partir du complexe βlg-D3 grâce à l’aptitude de la βlg à s’auto-associer. Les images de microscopie électronique ont montré que les interactions électrostatiques entre la βlg et Lyso ont pour leur part, abouti à la formation de microsphères pouvant encapsuler la D3 à un taux élevé (90.8 ± 4.8 %). La capacité des matrices à base de βlg à transporter, protéger et à améliorer la solubilité, la stabilité et la biodisponibilité de la D3 a été évaluée en effectuant des expériences in vitro et in vivo chez des modèles animaux. Les matrices protéiques à base de βlg ont significativement augmenté la solubilité, stabilité et biodisponibilité de la D3 (p < 0.001). Ces études prouvent que la βlg, grâce à ses caractéristiques suturales, pourrait former des matrices protéiques compatibles avec une administration orale et les aliments, tout en préservant l’activité biologique de la RF, de la D3 et donc possiblement d’autres molécules bioactives / The major whey protein, β-lactoglobulin (βlg) is well recognized for its interesting structural properties and ability to interact with ligands with varying size and characteristics. Riboflavin (RF) and vitamin D3 (D3) were selected as small amphiphilic and hydrophobic nutraceutical models, respectively, and Lysozyme, as a larger size ligand model. Spectroscopic methods were used to demonstrate interaction between βlg and RF. βlg and RF form a complex, which was irradiated according to the NCI/NIH Developmental Therapeutics Program. The βlg-RF complex exhibited an important anti-proliferative activity against skin melanoma cancer cell lines, probably due to the generation of reactive oxygen species as the result of the interaction between RF and βlg. The impact of the βlg-D3 complex on the solubility and stability of the D3 was studied using spectroscopic methods and chromatography. The findings indicate that the βlg-D3 complex is stable at the gastric and intestinal pHs and increases the solubility of the vitamin. A βlg-based scaffold, named coagulum, enriched with D3 (94.5 ± 1.8 % of encapsulation efficiency) was prepared by using the capacity of βlg to self-aggregate. Electronic microscopy images showed that microspheres, with high D3 encapsulation efficiency (90.8 ± 4.8 %), were formed as the result of electrostatic interactions between βlg and Lyso. The efficiency of βlg-based scaffolds to improve the solubility, stability and bioavailability of the D3 was evaluated by performing in vitro and in vivo experiments using animal model. The βlg-based scaffolds significantly increased the solubility, stability bioavailability of D3 (p < 0.001). Overall, the present study showed that βlg, due to its structural properties, can be used to form protein-based matrices compatible with a food and an oral administration while preserving the biological activity of RF, D3 and possibly other bioactive molecules.

S 405 UL 2013

Bêta-lactoglobuline

Vitamine B2

Cholécalciférol

Lysozyme

Ligands

Effect of concentration of glutaraldehyde and glyoxal on binding lysozyme to zein based films to control foodborne pathogens in tomatoes

Richter, Kevin

03 May 2012

The demand for biodegradable packaging materials as an alternative to synthetic ones to reduce environmental cost has seen an increase in recent years. In addition, functionalizing the packaging film to provide specific advantages like antimicrobial properties has yet to be explored thoroughly. This study considers adding antimicrobial agents to improve the quality and safety of actively packaged fresh produce using an antimicrobial enzyme (lysozyme) immobilized on a biopolymer based packaging film (corn-zein). The developed packaging material is aimed as an active biodegradable packaging to reduce bacterial contamination on the surface of fresh organic produce, specifically tomatoes. The study uses glutaraldehyde and glyoxal as binding agents to immobilize the enzyme on the packaging film. The effect of concentration of glutaraldehyde and glyoxal on the controlled release of the enzyme was studied. Concentrations of 0.1 and 0.2 g/g lysozyme: cross linking agent had controlled release properties. However, concentrations of 0 or 0.05 are about 20-30% more effective at inactivating bacteria. Antimicrobial activity in the constructed zein films are also tested against selected pathogens (Salmonella Newport and Listeria monocytogenes). Developed zein based film is tested against inoculated tomatoes to determine the efficacy of the films in reducing the pathogen population. The inoculated tomatoes are stored at room temperature over a storage period of one week. The film was able to reduce Listeria monocytogenes population by three logs but was unable to reduce the population of Salmonella Newport. / Master of Science

Glyoxal

Glutaraldehyde

Lysozyme

Films

Zein

Active Packaging

Tomatoes

Cross linking

Food Safety

Listeria

Salmonella

Mapping the solid-state properties of crystalline lysozyme during pharmaceutical unit-operations

Mohammad, Mohammad A., Grimsey, Ian M., Forbes, Robert T.

13 May 2015

No / Bulk crystallisation of protein therapeutic molecules towards their controlled drug delivery is of interest to the biopharmaceutical industry. The complexity of biotherapeutic molecules is likely to lead to complex material properties of crystals in the solid state and to complex transitions. This complexity is explored using batch crystallised lysozyme as a model. The effects of drying and milling on the solid-state transformations of lysozyme crystals were monitored using differential scanning calorimetry (DSC), X-ray powder diffraction (XRPD), FT-Raman, and enzymatic assay. XRPD was used to characterise crystallinity and these data supported those of crystalline lysozyme which gave a distinctive DSC thermogram. The apparent denaturation temperature (Tm) of the amorphous lysozyme was ∼201 °C, while the Tm of the crystalline form was ∼187 °C. Raman spectra supported a more α-helix rich structure of crystalline lysozyme. This structure is consistent with reduced cooperative unit sizes compared to the amorphous lysozyme and is consistent with a reduction in the Tm of the crystalline form. Evidence was obtained that milling also induced denaturation in the solid-state, with the denatured lysozyme showing no thermal transition. The denaturation of the crystalline lysozyme occurred mainly through its amorphous form. Interestingly, the mechanical denaturation of lysozyme did not affect its biological activity on dissolution. Lysozyme crystals on drying did not become amorphous, while milling-time played a crucial role in the crystalline-amorphous-denatured transformations of lysozyme crystals. DSC is shown to be a key tool to monitor quantitatively these transformations.

Differential scanning calorimetry

FT-Raman

Lysozyme crystals

Milling

X-ray powder diffraction

Effect of mechanical denaturation on surface free energy of protein powders

Mohammad, Mohammad A., Grimsey, Ian M., Forbes, Robert T., Blagbrough, I.S., Conway, B.R.

05 July 2016

Yes / Globular proteins are important both as therapeutic agents and excipients. However, their fragile native conformations can be denatured during pharmaceutical processing, which leads to modification of the surface energy of their powders and hence their performance. Lyophilized powders of hen egg-white lysozyme and β-galactosidase from Aspergillus oryzae were used as models to study the effects of mechanical denaturation on the surface energies of basic and acidic protein powders, respectively. Their mechanical denaturation upon milling was confirmed by the absence of their thermal unfolding transition phases and by the changes in their secondary and tertiary structures. Inverse gas chromatography detected differences between both unprocessed protein powders and the changes induced by their mechanical denaturation. The surfaces of the acidic and basic protein powders were relatively basic, however the surface acidity of β-galactosidase was higher than that of lysozyme. Also, the surface of β-galactosidase powder had a higher dispersive energy compared to lysozyme. The mechanical denaturation decreased the dispersive energy and the basicity of the surfaces of both protein powders. The amino acid composition and molecular conformation of the proteins explained the surface energy data measured by inverse gas chromatography. The biological activity of mechanically denatured protein powders can either be reversible (lysozyme) or irreversible (β-galactosidase) upon hydration. Our surface data can be exploited to understand and predict the performance of protein powders within pharmaceutical dosage forms.

Protein denaturation

β-Galactosidase

Lysozyme

Conformational change

Inverse gas chromatography

Surface free energy

Bases moleculares do efeito do pH na atividas catalítica de duas lisozimas digestivas de Musca domestica (Diptera) / Molecular basis of the pH effect on the catalytic activity of two digestive lysozymes from Musca domestica (Diptera)

Cançado, Fabiane Chaves

16 December 2008

Lisozimas são enzimas que fazem parte do mecanismo de defesa contra bactérias, no entanto lisozimas com função digestiva também são encontradas no trato digestivo de vertebrados e no intestino médio de insetos. As lisozimas digestivas de insetos são do tipo c e assim compartilham semelhanças estruturais e mecanísticas com a lisozima da clara de ovo de galinha (HEWL). Entretanto, para desempenhar sua função digestiva, as lisozimas de insetos apresentam algumas propriedades particulares entre as quais se destaca um pH ótimo mais ácido em relação às lisozimas não-digestivas. Para elucidar as bases moleculares dessa diferença no pH ótimo, duas lisozimas digestivas (lisozima 1 AAQ20048 e lisozima 2 AAQ20047) da larva de Musca domestica (mosca Diptera Cyclorrhapha), clonadas em Pichia pastoris e purificadas, foram caracterizadas estruturalmente e cineticamente com o substrato sintético (MUQ3) e natural (cápsulas de Micrococcus lysodeikticus). Foi observado que o efeito do pH na atividade das lisozimas 1 e 2 sobre o MUQ3 é uma curva com formato de sino e pH ótimo mais ácido que o da HEWL. Essas curvas foram reflexos da diminuição simultânea dos valores de pKas do nucleófilo e do doador de prótons. Estruturas cristalográficas das lisozimas digestivas de Musca domestica foram obtidas a 1,9 Å e análise comparativa com a estrutura terciária da HEWL revelou resíduos de aminoácidos no ambiente do nucleófilo (N46) e do doador de prótons (S106 e T107) que podem estar envolvidos na modulação das constantes de ionização dos resíduos essenciais à catálise. Esses resíduos foram substituídos via mutagênese sítio-dirigida por D, V e A respectivamente e três mutantes simples (N46D, S106V e T107A) e um triplo (N46DS106V- T107A) foram produzidos e purificados. Caracterização revelou que as contribuições individuais da N46, S106 e T107 foram pequenas e próximas do limite de detecção da técnica utilizada. Por outro lado, o conjunto dos 3 aminoácidos foi responsável pelo pH ótimo ácido frente ao substrato sintético, elevando os valores de pKas do nucleófilo e doador de prótons para valores muito semelhantes ao da HEWL. Diferentemente, essa tripla mutação não foi suficiente para elevar o pH ótimo da lisozima 2 sobre cápsulas de Micrococcus lysodeikticus para valores próximos àqueles de HEWL, sugerindo que as bases moleculares do pH ótimo frente ao substrato natural e sintético são diferentes. Uma comparação estrutural entre lisozima 1 e HEWL sugere que os resíduos de aminoácidos carregados na superfície dessas lisozimas sejam importantes para determinação do pH ótimo. A investigação dessa hipótese foi feita substituindo 5 aminoácidos neutros e 1 ácido, via mutagênese sítio-dirigida, por resíduos básicos. A caracterização do mutante sêxtuplo revelou um aumento significativo nos valores de pH ótimo da lisozima 1, indicando que a redução da basicidade da superfície das lisozimas digestivas é determinante para seus pHs ótimos ácidos. / Lysozymes are enzymes that are part of the defence mechanism against bacteria, however lysozymes with digestive function are also found in the digestive tract of vertebrates and in the insect midgut. The digestive lysozymes from insects are c type, so they share similar structural and mechanistic characteristics with hen egg-white lysozyme (HEWL). However, to perform their digestive function, insect lysozymes present some particular properties among them a more acidic pH optimum than that of non-digestive lysozymes. To elucidate the molecular basis of this pH optimum difference, two digestive lysozymes (lysozyme 1 AAQ20048 and lysozyme 2 AAQ20047) from Musca domestica larvae (housefly Diptera Cyclorrhapha), cloned in Pichia pastoris and purified, were structurally and kinecticly characterized with synthetic (MUQ3) and natural (lyophilized cells of Micrococcus lysodeikticus) substrates. It was observed that the pH effect on the activity of lysozymes 1 and 2 upon MUQ3 is a bell shaped curve exhibiting a more acidic pH optimum than that of HEWL. These curves result from simultaneous decrease of pKas values of the nucleophile and proton donor. Crystallographic structures of these digestive lysozymes from Musca domestica were obtained at 1.9 Å and comparative analysis with the terciary structure of HEWL revealed amino acid residues in the catalytic nucleophile (N46) and proton donor environment (S106 and T107) that may be involved in the modulation of ionization constants of those catalytic residues. N46, S106, and T107 were replaced via site-directed mutagenesis by D, V and A respectively and three simple (N46D, S106V and T107A) and one triple (N46D-S106V-T107A) mutants were produced and purified. Their characterization revealed that the individual contributions of N46, S106 and T107 were small and close to the detection borderline of the technique utilized. On the other hand, a set of these 3 amino acids was responsible by acidic pH optimum upon synthetic substrate, increasing the pKas values of nucleophile and proton donor to similar values to that of the HEWL. Differently, this triple mutation was not enough to increase the pH optimum of lysozyme 2 upon lyophilized cells of Micrococcus lysodeikticus to values close to those of HEWL, suggesting that the molecular bases of pH optimum upon natural and synthetic substrates are different. A structural comparison between lysozyme 1 and HEWL suggests that the charged amino acid residues on the surface of these lysozymes are important for pH optimum determination. The investigation of this hypothesis was done replacing 5 neutral and 1 acidic amino acids, via site-directed mutagenesis, by basic residues. The characterization of this mutant revealed a significant increase in the pH optimum values of lysozyme 1, suggesting that the reduction of basicity on the surface of the digestive lysozymes is a important factor in the determination of their acidic pH optimum.

Biologia molecular

Digestão animal

Digestive lysozyme

Insects (Enzymology; Study)

Insetos (Enzimologia; Estudo)

Lisozima

Lisozima digestiva

Lysozyme

Molecular biology

Musca domestica

Musca domestica

pH optimum

pH ótimo

Proteínas (Estrutura)

Proteins (Structure)

Bases moleculares do efeito do pH na atividas catalítica de duas lisozimas digestivas de Musca domestica (Diptera) / Molecular basis of the pH effect on the catalytic activity of two digestive lysozymes from Musca domestica (Diptera)

Fabiane Chaves Cançado

16 December 2008

Lisozimas são enzimas que fazem parte do mecanismo de defesa contra bactérias, no entanto lisozimas com função digestiva também são encontradas no trato digestivo de vertebrados e no intestino médio de insetos. As lisozimas digestivas de insetos são do tipo c e assim compartilham semelhanças estruturais e mecanísticas com a lisozima da clara de ovo de galinha (HEWL). Entretanto, para desempenhar sua função digestiva, as lisozimas de insetos apresentam algumas propriedades particulares entre as quais se destaca um pH ótimo mais ácido em relação às lisozimas não-digestivas. Para elucidar as bases moleculares dessa diferença no pH ótimo, duas lisozimas digestivas (lisozima 1 AAQ20048 e lisozima 2 AAQ20047) da larva de Musca domestica (mosca Diptera Cyclorrhapha), clonadas em Pichia pastoris e purificadas, foram caracterizadas estruturalmente e cineticamente com o substrato sintético (MUQ3) e natural (cápsulas de Micrococcus lysodeikticus). Foi observado que o efeito do pH na atividade das lisozimas 1 e 2 sobre o MUQ3 é uma curva com formato de sino e pH ótimo mais ácido que o da HEWL. Essas curvas foram reflexos da diminuição simultânea dos valores de pKas do nucleófilo e do doador de prótons. Estruturas cristalográficas das lisozimas digestivas de Musca domestica foram obtidas a 1,9 Å e análise comparativa com a estrutura terciária da HEWL revelou resíduos de aminoácidos no ambiente do nucleófilo (N46) e do doador de prótons (S106 e T107) que podem estar envolvidos na modulação das constantes de ionização dos resíduos essenciais à catálise. Esses resíduos foram substituídos via mutagênese sítio-dirigida por D, V e A respectivamente e três mutantes simples (N46D, S106V e T107A) e um triplo (N46DS106V- T107A) foram produzidos e purificados. Caracterização revelou que as contribuições individuais da N46, S106 e T107 foram pequenas e próximas do limite de detecção da técnica utilizada. Por outro lado, o conjunto dos 3 aminoácidos foi responsável pelo pH ótimo ácido frente ao substrato sintético, elevando os valores de pKas do nucleófilo e doador de prótons para valores muito semelhantes ao da HEWL. Diferentemente, essa tripla mutação não foi suficiente para elevar o pH ótimo da lisozima 2 sobre cápsulas de Micrococcus lysodeikticus para valores próximos àqueles de HEWL, sugerindo que as bases moleculares do pH ótimo frente ao substrato natural e sintético são diferentes. Uma comparação estrutural entre lisozima 1 e HEWL sugere que os resíduos de aminoácidos carregados na superfície dessas lisozimas sejam importantes para determinação do pH ótimo. A investigação dessa hipótese foi feita substituindo 5 aminoácidos neutros e 1 ácido, via mutagênese sítio-dirigida, por resíduos básicos. A caracterização do mutante sêxtuplo revelou um aumento significativo nos valores de pH ótimo da lisozima 1, indicando que a redução da basicidade da superfície das lisozimas digestivas é determinante para seus pHs ótimos ácidos. / Lysozymes are enzymes that are part of the defence mechanism against bacteria, however lysozymes with digestive function are also found in the digestive tract of vertebrates and in the insect midgut. The digestive lysozymes from insects are c type, so they share similar structural and mechanistic characteristics with hen egg-white lysozyme (HEWL). However, to perform their digestive function, insect lysozymes present some particular properties among them a more acidic pH optimum than that of non-digestive lysozymes. To elucidate the molecular basis of this pH optimum difference, two digestive lysozymes (lysozyme 1 AAQ20048 and lysozyme 2 AAQ20047) from Musca domestica larvae (housefly Diptera Cyclorrhapha), cloned in Pichia pastoris and purified, were structurally and kinecticly characterized with synthetic (MUQ3) and natural (lyophilized cells of Micrococcus lysodeikticus) substrates. It was observed that the pH effect on the activity of lysozymes 1 and 2 upon MUQ3 is a bell shaped curve exhibiting a more acidic pH optimum than that of HEWL. These curves result from simultaneous decrease of pKas values of the nucleophile and proton donor. Crystallographic structures of these digestive lysozymes from Musca domestica were obtained at 1.9 Å and comparative analysis with the terciary structure of HEWL revealed amino acid residues in the catalytic nucleophile (N46) and proton donor environment (S106 and T107) that may be involved in the modulation of ionization constants of those catalytic residues. N46, S106, and T107 were replaced via site-directed mutagenesis by D, V and A respectively and three simple (N46D, S106V and T107A) and one triple (N46D-S106V-T107A) mutants were produced and purified. Their characterization revealed that the individual contributions of N46, S106 and T107 were small and close to the detection borderline of the technique utilized. On the other hand, a set of these 3 amino acids was responsible by acidic pH optimum upon synthetic substrate, increasing the pKas values of nucleophile and proton donor to similar values to that of the HEWL. Differently, this triple mutation was not enough to increase the pH optimum of lysozyme 2 upon lyophilized cells of Micrococcus lysodeikticus to values close to those of HEWL, suggesting that the molecular bases of pH optimum upon natural and synthetic substrates are different. A structural comparison between lysozyme 1 and HEWL suggests that the charged amino acid residues on the surface of these lysozymes are important for pH optimum determination. The investigation of this hypothesis was done replacing 5 neutral and 1 acidic amino acids, via site-directed mutagenesis, by basic residues. The characterization of this mutant revealed a significant increase in the pH optimum values of lysozyme 1, suggesting that the reduction of basicity on the surface of the digestive lysozymes is a important factor in the determination of their acidic pH optimum.

Biologia molecular

Digestão animal

Insetos (Enzimologia; Estudo)

Lisozima

Lisozima digestiva

Musca domestica

pH ótimo

Proteínas (Estrutura)

Digestive lysozyme

Insects (Enzymology; Study)

Lysozyme

Molecular biology

Musca domestica

pH optimum

Proteins (Structure)

Interactions et structures dans les solutions hautement concentrées de protéines globulaires : étude du lysosyme et de l'ovalbumine / Interactions and structures in highly concentrated solutions of globular proteins : study of lysozyme and ovalbumin

Pasquier, Coralie

16 December 2014

Les phases concentrées de protéines sont au centre de nombreuses études visant à identifier et caractériser les interactions et transitions de phases mises en jeu, en utilisant le large corpus de connaissances acquis sur les phases concentrées de colloïdes. Ces phases concentrées de protéines possèdent en outre une grande importance dans des domaines aussi variés que l’industrie agroalimentaire, l’industrie pharmaceutique et la médecine. L’établissement d’équations d’état présentant la pression osmotique (Π) en fonction de la fraction volumique (Φ) est une méthode efficace de caractérisation des interactions entre les composants d’un système. Nous l’avons appliquée à des solutions de deux protéines globulaires, le lysozyme et l’ovalbumine, en balayant une gamme de fractions volumiques allant d’une phase diluée (Φ < 0,01) à une phase concentrée, solide (Φ > 0,62). Les équations d’état obtenues, couplées à d’autres techniques (SAXS, simulations numériques), ont permis de mettre en évidence un comportement très différent des deux protéines lors de la concentration et ont montré leur complexité en comparaison avec des colloïdes modèles. La mise en relation des équations d’état et du comportement interfacial de ces deux protéines a montré des points de convergence et permis de formuler une nouvelle hypothèse expliquant certaines observations portant sur l’adsorption des protéines à l’interface air-eau. / Concentrated phases of proteins are the subject of numerous studies aiming at identifying and characterizing the interactions and phase transitions at play, using the large corpus of knowledge in the field of concentrated colloids. Those concentrated phases of proteins have, in addition, a great importance in various fields, such as food industry, pharmaceutical industry and medicine. The establishment of equations of state relating osmotic pressure (Ð) and volume fraction (Φ) is an efficient way of characterization of the interactions between the components of a system. We applied this method to solutions of two globular proteins, lysozyme and ovalbumin, spanning volume fractions ranging from a dilute phase ( Φ < 0,01) to a concentrated, solid phase ( Φ > 0,62). The equations of state, coupled to other methods (SAXS, numerical simulations), enabled us to show that the two proteins carry a very different behavior when submitted to concentration and that their complexity is beyond that of colloids. Relating equations of state and interfacial behavior of these two proteins also showed points of convergence and enabled us to formulate a new hypothesis which explains some of the results obtained in the study of adsorption of proteins at the air-water interface.

Protéines

Concentration

Lysozyme

Ovalbumine

Compression osmotique

Interactions

Diffusion des rayons X aux petits angles

Réflectivité de neutrons

Simulations Monte-Carlo

Proteins

Concentration

Lysozyme

Ovalbumin

Osmotic compression

Interactions

Monte-Carlo simulations

Optimization of the Small Scale Expression of the Mutant Hen Egg White Lysozyme, H15S

Amoyaw, Charles Duah

12 May 2020

No description available.

Biochemistry

Biology

Biomedical Research

Chemistry

Microbiology

Site specific oxidation

oxygen species

metal catalyzed oxidation systems

MCO systems

HEWL

lysozyme

Pichia pastoris

reactive oxygen species

H15S

Mutant Hen Egg White Lysozyme

oxidative damage

protein oxidation

Optimization and evaluation of heterologous lysozyme production in saccharomyces cerevisiae

Wilcox, Dale Adrian

03 1900

Thesis (MSc)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: Hen egg white lysozyme (HEWL; muramidase; EC 3:2:1:17) is an enzyme present in high concentrations in chicken (Gallus gallus) egg whites. It hydrolyses the link between N-acetylmuramic acid and N-acetylglucosamine in Gram positive bacterial cell walls, resulting in cell death. It is thus active against lactic acid bacteria (LAB), which may be present in grape juices and musts. These bacteria are responsible for malolactic fermentation of wines although many species, particularly of the genera Lactobacillus and Pediococcus, are considered spoilage organisms. The growth of LAB is therefore closely monitored and controlled during winemaking. The most common means of control is growth inhibition by chemical treatment (usually with SO2). Lysozyme is a commonly used wine processing aid, complementing the antimicrobial activity of SO2 . It allows for lower doses of SO2 to be used, thus improving the wholesomeness of wine. The OIV (Organisation Internationale de la Vigne et du Vin) approved its use in quantities up to 500 mg per liter of wine in 1997. This study evaluated the effect of different secretion signals on the secretion of lysozyme by the haploid auxotroph Saccharomyces cerevisiae strain FY23. Secretion by an industrial strain (VIN13) transformed with a single copy of the HEWL gene with the MF-a secretion signal under the control of the PGK1 (phosphoglycerate kinase 1) prompter and terminator was also evaluated. In the case of FY23 four secretion signals were used, namely the native lysozyme signal and the S. cerevisiae mating factor-a signal as well as mutants of these signals. These mutants incorporated two additional arginines at the N-terminus of the signals immediately downstream of the terminal methionine. The effect of these mutations was to increase the positive charge of the secretion signal N-terminals. The secretion signal-lysozyme fusions were placed under the regulation of the S. cerevisae PGK1 gene’s promoter and terminator. The resulting expression cassettes were cloned into integrating vectors YIpLac211 and pDMPOF1b and episomal vector pHVX2. These were used to transform FY23 and VIN13. FY23 as well as VIN13 transformants were evaluated in an artificial medium designed to reflect the nutrient content of grape juice, with particular attention being paid to assiminable nitrogen. Three hexose concentrations were tested in order to determine the effect thereof on lysozyme secretion titer. Lysozyme secreted under all tested growth conditions was found to be too low for detection by either enzymatic assay or HPLC-FLD. For this reason secreted lysozyme was isolated and concentrated 10x by means of cation-exchange. Subsequently, lysozyme concentrations in the concentrates was determined by means of the aforementioned techniques. SDS-PAGE analysis of lysozyme concentrates was also performed. No significant differences were found between native or MF-a secretion signals and their mutated counterparts in terms of secretion titer or proteolytic maturation. Lysozyme secreted with the MF-a signal was found to be misprocessed in all cases, with both an authentically processed and a larger form, in which the secretion signal was not completely removed, being present. Lysozyme secreted with the native signal appeared to be correctly processed in all cases. Secretion titer from high copy number episomal FY23 tranformants was similar to that of integrants containing a single copy of the gene. Sugar concentration affected lysozyme production, with higher quantities of the enzyme being secreted when higher initial sugar concentrations were used. Lysozyme titers were extremely low (< 0:25 mg/L) with all expression cassettes under all the tested conditions with both FY23 and VIN13. In the case of the VIN13’s a lower final biomass was found for the secretor strain tested in comparrison to the VIN13 wild-type. / AFRIKAANSE OPSOMMING: Hoendereierwitlisosiem (HEWL; muramidase, EG 3:2:1:17) is ´n ensiem teenwoordig in hoë konsentrasies in hoender (Gallus gallus) eierwitte. Dit hidroliseer die binding tussen N-asetielmuramiensuur en N-asetielglukosamien in Gram positiewe bakteriese selwande, wat tot seldood lei. Dit is dus aktief teen melksuurbakterieë (MSB), wat in druiwesap en mos teenwoordig kan wees. Hierdie bakterieë is verantwoordelik vir appelmelksuurgisting van wyne, hoewel baie spesies, veral van die genera Lactobacillus en Pediococcus, ook as bederforganismes beskou word. Die groei van MSB word dus noukeurig tydens wynbereiding gemoniteer en beheer. Die algemeenste wyse van beheer is groei-inhibisie deur chemiese behandeling (gewoonlik SO2). Lisosiem is ´n algemeen gebruikte wyntoevoegingsmiddel en vul die antimikrobiese aktiwiteit van SO2 aan. Met lisosiem kan ´n laer dosis van SO2 gebruik word, wat lei tot ´n verbetering van die heilsaamheid van die wyn. Die OIV (Organisasie Internationale de la Vigne et du Vin) het die gebruik daarvan goedgekeur tot en met 500 mg per liter wyn vanaf 1997. Hierdie studie het die effek van verskillende sekresieseine op die uitskeiding van lisosiem deur die haploïede ouksotrofe Saccharomyces cerevisiae stam, FY23, geëvalueer. Uitskeiding deur ´n industriële stam (VIN13), wat getransformeer is met ´n enkelkopie van die HEWL-gene met die MF-a sekresiesein onder die beheer van die PGK1 (Fosfogliseraat kinase 1) promotor en termineerder, is ook geëvalueer. In die geval van FY23 is vier sekresieseine gebruik, naamlik die inheemse lisosiemsein, S. cerevisiae MF- a sein, asook mutante van hierdie seine. Hierdie mutante het twee bykomende arginienresidu’s by die N-terminus van die seine direk stroom-af van die terminale metionien. Die effek van hierdie mutasies was om die positiewe lading van die uitskeidingsein N-terminale te verhoog. Die gevolglike uitdrukkingskassette is in die integrasievektor YIpLac211 en pDMPOF1b, en die episomale vektor pHVX2, gekloneer. Dit is gebruik om VIN13 en FY23 te transformeer. FY23, sowel as VIN13-transformante, is geëvalueer in ´n kunsmatige medium wat ontwerp is om die voedingsinhoud van druiwesap te weerspieël, met besondere aandag aan assimileerbare stikstof. Drie heksose konsentrasies is getoets om te bepaal wat die uitwerking daarvan op die lisosiemsekresietiter is. Onder alle groeitoestande was die isosiem wat uitgeskei is, te laag om deur ensimatiese toetse of HPLC-FLD bepaal te word. Om hierdie rede is uitgeskeide lisosiem geïsoleer en 10x gekonsentreer deur middel van katioon-uitruiling. Daarna is lisosiemkonsentrasies bepaal deur middel van bogenoemde tegnieke. SDS-PAGE-ontleding van lisosiemkonsentraat is ook uitgevoer. In terme van sekresietiter of proteolitiese maturasie, is geen beduidende verskille gevind tussen inheemse of MF-a sekresieseine en hul gemuteerde eweknieë nie. Lisosiem wat deur die MF-a sein uitgeskei is, is in alle gevalle foutief geprosesseer, met ´n teenwoordigheid van beide die regte produk en ´n groter produk, waarin die uitskeidingsein nie heeltemal verwyder word nie. Lisosiem wat met die inheemse sein uitgeskei is, blyk in alle gevalle korrek verwerk te wees. Sekresietiter van ´n aantal hoë-kopie episomale FY23-transformante was soortgelyk aan dié van integrante met ´n enkelkopie van die geen. Suikerkonsentrasie beïnvloed lisosiemproduksie, met ´n hoër hoeveelheid van die ensiem wat uitgeskei word wanneer die aanvanklike suiker in hoër konsentrasies gebruik is. Lisosiemtiters was baie laag (< 0:25 mg/L), met al die kassette onder al die getoetste toestande vir beide FY23 en VIN13. In die geval van die VIN13’s, is ´n laer finale biomassa vir die uitskeidingstam in vergelyking met die VIN13 wilde-tipe gevind.

Lysozyme

Saccharomyces cerevsiae

Secretion

Heterologous

Dissertations -- Wine biotechnology

Theses -- Wine biotechnology

Malolactic fermentation

Wine and wine making

Wine microbiology

Imunoexpressões pulmonar e esplênica das citocinas IL-12, TGF-&beta; e TNF-&alpha; e das proteínas Lisozima e S-100 em Pontoporia blainvillei (Gervais e d\'Orbigny, 1844) (Mammalia, Cetacea) / Pulmonary and splenic immunoexpression of IL-12, TGF-&beta; and TNF-&alpha; cytokines and S-100 and Lysozyme proteins in Pontoporia blainvillei (Gervais e d\'Orbigny, 1844) (Mammalia, Cetacea)

Souza, Patricia Coutinho de

24 February 2010

Compreender a função das diferentes proteínas e citocinas durante a vigência de alterações inflamatórias pode contribuir para um melhor conhecimento do sistema imunológico dos mamíferos marinhos e sua relação com os processos patológicos. A toninha, Pontoporia blainvillei, é um cetáceo costeiro e o único golfinho brasileiro considerado ameaçado de extinção devido às atividades antrópicas. O objetivo desse trabalho foi avaliar as imunoexpressões das citocinas TGF-&beta;, TNF-&alpha; e IL-12 e proteínas S-100 e lisozima em amostras pulmonares e esplênicas de 34 espécimes de P. blainvillei. Com base nas alterações histopatológicas, os animais foram divididos em dois grupos: G1 (n = 8) - animais sem doença inflamatória pulmonar; G2 (n = 26) - animais com doenças inflamatórias pulmonares. Os fragmentos de pulmão e baço foram processados de acordo com os protocolos de rotina. A padronização das reações de imuno-histoquímica e análise morfométrica foram realizadas conforme procedimentos descritos na literatura. Os nossos dados demonstram que as P. blainvillei pertencentes ao G2 apresentam imunoexpressão pulmonar das citocinas TGF-&beta;, TNF-&alpha; e IL-12 e proteínas S-100 e lisozima significativamente maior que os animais do G1. Tais resultados corroboram os dados disponíveis na literatura, indicando que a P. blainvillei apresenta citocinas com funções semelhantes às encontradas em outros mamíferos.Evidenciamos também, que as P. blainvillei pertencentes ao G2 não apresentam imunoexpressão esplênica das citocinas TGF-&beta;, TNF-&alpha; e IL-12 e da proteína lisozima significativamente maior que os animais do G1. Estudos mais detalhados, incluindo aqueles relacionados com os métodos utilizados, são necessários para a adequada compreensão destes resultados. E finalmente, apesar de tratar-se de dados ainda preliminares, observou-se uma possível associação entre elevadas concentrações de organoclorados no tecido adiposo subcutâneo de parcela dos exemplares de P. blainvillei estudados na presente investigação e a ocorrência de depleção linfóide esplênica nestes animais. Tais dados ratificam a importância do desenvolvimento de análise mais detalhada sobre estes tópicos em futuras investigações científicas. / The understanding of the role of different proteins and cytokines during the inflammatory diseases could lead to better knowledge of the marine mammal immune system and its relation to pathological process. Franciscana dolphin, Pontoporia blainvillei, is a coastal cetacean and the only Brazilian dolphin considered threatened with extinction, due to the human activities. The aim of the current study was to investigate the immunoexpression of TGF-&beta;, TNF-&alpha; and IL-12 cytokines, and S-100 and Lysozyme proteins in pulmonary and splenic samples of 34 Pontoporia blainvillei. Based on histopathological examination, the animals were divided in two groups: G1 (n = 8) animals without pulmonary inflammatory disease; G2 (n = 26) animals with pulmonary inflammatory diseases. Fragments of lung and spleen were processed according to routine protocols. The immunohistochemistry and morphometric procedures were tested and optimized according to proceedings described in literature. Our results showed that P. blainvillei from G2 presented significant increase in the pulmonary immunoexpression of TGF-&beta;, TNF-&alpha; and IL-12 cytokines, and S-100 and Lysozyme proteins in comparison with animals from G1. These results are according to the literature and suggest that P. blainvillei presents same cytokines observed in other mammals. We evidenced also that the P. blainvillei belonging to the G2 did not show splenic immunoexpression to TGF-&beta;, TNF-&alpha; and IL- 12 cytokines and Lysozyme protein significantly higher than animals from G1. Further studies, including those related to the methods used, are necessary for the proper understanding of these results. And finally, although these are still preliminary data, we observed a possible association between high concentrations of organochlorines in subcutaneous adipose tissue of a portion of P. blainvillei studied in this research and the occurrence of splenic lymphoid depletion in these animals. These data confirm the importance of developing more detailed analysis on these topics in future scientific investigations.

Pontoporia blainvillei

Pontoporia blainvillei

Citocinas

Cytokines

Depleção linfóide

Lisozima

Lymphoid depletion

Lysozyme

Proteína S-100

S-100 Protein