Biochemical investigations into the proteolytic activities in salivary glands of the tick, Ornithodoros savignyi

Mahlaku, Matsatsane Martha

22 June 2005

The saliva of hematophagous ectoparasites contains a cocktail of vasodilators, anticoagulants and immunosuppressors that maintain blood in a liquid state at the site of the lesion and evade the host's defense mechanisms in suppressing the immune response. Since ticks have evolved to utilize mammals as a source of food, our understanding of the tick material, especially the salivary glands will enhance the control of tick infestation and allow the exploitation of the tick's natural resources. SGE protease activity was determined by measuring the degradation of azocasein. Proteolytic activity was found in the pH range of 3 to 11 with the highest activity at pH 9 followed by pH 7. At pH 3-5 the activity was mainly due to aspartic proteases, whereas at pH 7-9 the activity was due to the action of metallo- and serine proteases. At pH 11, the activity was mainly ascribed to metallo- and aspartic proteinase activity The fibrinogenolytic activity was determined by incubating human fibrinogen in the presence of SGE and monitoring the fibrinogen degradation by SDS-PAGE. SGE degraded the Au-chain of fibrinogen within 2 hours of incubation and even after 24 hours incubation there was no hydrolysis of the Bβ and γ-chains of fibrinogen. Characterization of the fibrinogenolytic activity revealed that metalloprotease activity was present over pH range of 3-9 and at pH 3-5, the cysteine proteases were active. No serine protease activity was found under similar experimental conditions. CE-HPLC separation of the SGE revealed three regions of proteolytic activity. Further characterization of the activity containing fractions using protease inhibitors at various pH values showed that the activity associated with region A is mainly due to the presence of aspartic and cysteine proteases in the lower pH range (< 5). Region B was mainly due to the activity of the metallo- and serine proteases, while the activity in region C was mainly due to the metalloproteinases which were more active in the higher pH range (> 9). CE-HPLC separation of SGE resulted in three regions exhibiting fibrinogenolytic activity at pH 7-9. In region A all four enzyme classes were found while in regions B and C, serine, cysteine and metalloproteinases were found to be responsible for the activity. Region A was further purified on the HIC-column and activity eluted in several peaks which after individual application on SE-HPLC column had similar retention times. The pooled samples were analyzed for purity using C5 RP-HPLC and reducing tricine SDS-PAGE and three bands of relative molecular masses 15, 22 and 12 kDa, respectively were found. In an attempt to purify the proteins in region C, four individual CE-HPLC runs were combined and applied to a fibrinogen affinity column. Reducing SDS-PAGE analysis of bound material showed two bands of relative molecular masses of 31 and 39 kDa, respectively. CE-HPLC region C as well as the SGE control was found to disaggregate platelets aggregated by ADP, epinephrine, collagen as well as TRAP. No disaggregation was observed for the saline negative control. The disaggregation is most probably due to the hydrolysis of the fibrinogen cross-linking platelets by the metalloproteinase activity in region C. Understanding of the proteolytic activities present in the salivary gland and therefore identifying molecules crucial for tick feeding could aid in the development of experimental vaccines. Even though the fibrinogenolytic activity was not purified to homogeneity, this study has laid the groundwork for further experiments in this field. / Dissertation (MSc (Biochemistry))--University of Pretoria, 2006. / Biochemistry / unrestricted

Proteolytic enzymes

Ticks composition

Ticks as carriers of disease

Ticks salivary glands

UCTD

The effect of glycosylation on the stability of exogenous xylanase under in vitro proteolytic conditions similar to the rumen

Van de Vyver, Wilhelmus Francois Joubert

10 August 2005

The aim of this study was to evaluate the effect of glycosylation on exogenous xylanase stability when incubated under proteolytic conditions. Xylanase produced by Trichoderma longibrachiatum, was purified using gel filtration chromatography, ammonium sulfate salt precipitation and dialysis. A partially purified xylanase with Mr of 20- and 10 kDa was identified and contained >65% of the original xylanase activity. Glycoproteins present in the xylanase were identified by thymol sulfuric acid staining or by the FITC-Iabeled lectin method, specific for glycoproteins. This naturally glycosylated xylanase was enzymatically deglycosylated with one of two endo-N-glycosidases: PNGase F or Endo H. Efficiency of deglycosylation was determined with electrophoresis by observing protein mobility shifts or by staining with FITC-Iabeled lectin. The effect of glycosylation on the stability of the exogenous xylanase was tested by incubating the glycosylated or deglycosylated xylanase with rumen fluid (Rf), Prevotella ruminicola culture supernatant (Pr) or a commercial protease from Bacillus subtilis (Bs) for 0, 3, 6, 9 and 24h at 37°C. Results indicated that glycosylated xylanase was significantly more stable (P<0.05) against proteolytic inactivation under the relatively low protease conditions of Rf and Pr (0.018 and 0.046 mg azocasein degraded/ml/h, respectively), but not under high proteolytic conditions of Bs (1.009 mg azocasein/mllh). Also, the glycosylation effect was observed earlier when incubated with the numerous proteases of Rf (3h), than with Pr (9h). These results indicate that glycosylation enhances xylanase stability and therefore is an important characteristic for exogenous enzyme supplements for ruminants. / Dissertation (MSc (Agric))--University of Pretoria, 2005. / Animal and Wildlife Sciences / unrestricted

Ruminants feeding and feeds

Enzymes in animal nutrition

Xylanases

Proteolytic enzymes

Glycosylation

UCTD

Příprava enkapsulovaných enzymů pro využití v kosmetice / Preparation of encapsulated enzymes for cosmetics application

Bokrová, Jitka

January 2014

Presented diploma thesis is focused on testing of an appropriate form of encapsulated enzymes intended for application in cosmetic and pharmaceutical industry. For encapsulation, proteolytic enzymes bromelain, papain and collagenase were used. These enzymes were encapsulated into alginate and chitosan microparticles prepared by an encapsulator and packed into liposomes. Encapsulation effectiveness was evaluated by analysis of total proteins. Particles stability was evaluated in model and real conditions by photometrical analysis of released proteins. Proteolytic activity of released enzymes in model and real conditions were observed too. Alginate and chitosan microparticles prepared by the encapsulator were found as an appropriate form of encapsulated enzymes designed to wound healing. Encapsulation effectiveness of these particles and stability in model conditions were good in comparison with liposomes. Hydrogel and water-oil emulsion were used for analysis of particles stability at real conditions. Hydrogel was found as a good option for preservation of particles as well as proteolytic enzyme activity. Emulsion made particles less stable and proteolytic activity of enzymes decreased rapidly. Encapsulation enables long-term stabilization of biologically active compounds as well as possibility of targeted transport and controlled releasing. Presented diploma thesis suggests possibilities of application encapsulated enzymes in designing more effective formulations for wound healing.

Síntese e avaliação de bioconjugados antitumorais com estabilidade e seletividade melhoradas /

Costa, Milena Novais da.

January 2017

Orientador: Eduardo Maffud Cilli / Banca: Patrícia Soares Santiago / Banca: Ederlan de Souza Ferreira / Resumo: Devido ao avanço científico e tecnológico, notável sucesso tem sido alcançado na identificação de novos compostos antitumorais. Entretanto, problemas associados à baixa estabilidade e seletividade tem limitado o sucesso da grande maioria destes compostos. Dentre as estratégias para aumentar a estabilidade de moléculas bioativas, a bioconjugação em domínios de ligação a albumina (DLA) tem se mostrado promissor para ampliar o tempo de vida médio de moléculas susceptíveis à degradação proteolítica. Neste trabalho, a estrutura e a atividade de um composto contendo um peptídeo citotóxico, um DLA e um sítio de clivagem específico foram avaliadas. Motivado pela perspectiva do peptídeo melitina apresentar atividade antitumoral, o nosso grupo de pesquisa avaliou a síntese e atividade biológica deste composto com o peptídeo RQKRSLGG-WQRPSSW. O peptídeo obtido foi testado contra tipos de celulas tumorais e não tumorais (linhagem MCF-7 e HaCaT, respectivamente), mostrando-se potente, porém tóxico. Nos estudos de dicroísmo circular, os peptídeos não apresentaram estrutura secundária em solução aquosa. Em presença de miméticos de membrana, os peptídeos adquiriram uma estrutura em α-hélice exceto o peptídeo sítio de clivagem-DLA. Estudos de vazamento de carboxifluoresceína em LUVs (POPC:POPS), através da técnica de espectroscopia de fluorescência, mostraram que o peptídeo completo tem capacidade de permeabilização similar ao da melitina e que é dependente da concentração. Os resultados de f... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Due to the scientific and technological advanced permitted remarkable successful in the field of identification of new antitumour compounds. However, problems associated with low stability and selectivity have been a restriction in the successf ul of majority of this compounds. Inside the strategic for increase the stability of bioactive molecules, bioconjugation with albumin - binding domain (ABD) have been promising for increasing t he lifetime of molecules susceptible for the proteolytic degradat ion. Herein, structure and activity of a compound containing a cytotoxic peptide, ABD, and cleavage site were evaluated. The ABD (WQRPSSW) can give more stability for molecules, while the cle avage site RQKRSLGG can give more selectivity to the peptide. Thi s sequence is degraded for the protease Kallikrein 4 (KLK4), which occurs in elevated quantity in the tumours cells, releasing the cytotoxic compound, especially in the microenvironments of t hese cells, promoting the higher selectivity. Inspired for the pe rspective of Melittin peptide holds a promising antitumour activity, our research group evaluated the synthesis and biological activity with this peptide containing the sequence RQKRSLGG - WQRP SSW. The peptide was evaluated against diversity of tumours and n o tumours cells (MCF - 7 and HaCaT respectively), presenting effective activity but toxic. In circular dichroism studies the peptides did not show second structure in aqueous solution. In the p resence of membrane mimet... (Complete abstract click electronic access below) / Mestre

Peptídeos - Síntese.

Mama - Câncer.

Enzimas proteoliticas.

Dicroísmo circular.

Estabilidade.

Proteolytic enzymes.

Proteolysis of zeins in the endosperm of germinating maize seeds

Mohammad, Kamaruzaman bin

January 1988

The pattern and sequence of zein degradation in the endosperm of germinating maize seeds were investigated by sodium dodecyl sulfate polyacrylamide gel electrophoresis and immunoblotting. The proteases involved in the degradation of various zein components (α, ß and γ) were extracted with three buffer systems and partially characterized with respect to their ability to degrade various zein components. They were also investigated in vivo by germinating the seeds in the presence of protease inhibitors used singly and in combination. Of the various zein components, γ-zein (27-kD) was the first to be degraded and its degradation was complete by the third day after germination (DAG). Beta-zeins (17- and 18-kD) began to be degraded on the second DAG, degradation being complete by the seventh day for the l7-kD polypeptide, and the fourth day for the 18-kD polypeptide. The degradation of 10-kD- zein began on the fourth DAG and was complete by the eighth day. The α-zein fraction (22-and 24-kD) was degraded beginning on the faith day and continued gradually until after the tenth day. From the results of these studies, the arrangement of various zein fractions within the protein bodies can be deduced and this was consistent with the immunocytochemical data published by others. Gamma-zein is situated in the peripheral region of the protein bodies and could be a structural component of the protein body membrane or it may be directly anchored in the membrane. Beta-zeins are internal to γ-zein with the l0-kD in the interface between the 17-kD and γ-zein. The 10- kD zein is located between the 17-kD and α-zein or interlacing with α-zein in the protein body core. Finally, a-zeins are in the protein body core. Based on these observations the proteolysis of the protein in protein bodies of maize would start from the periphery and proceed towards their core. The proteases involved in degradation of various zein components were synthesized de novo. The mRNAs pre-existing in dry seeds appeared to direct the synthesis of active proteases required for zein degradation at least during the initial stages of germination. Serine protease was responsible for the degradation of a- and ß-zeins while aspartic (acid) protease may play some role in ß-zein degradation. Serine and cysteine (thiol) proteases worked synergistically in γ-zein degradation. Enzymes extractable from the endosperm of germinating seeds with 0.2 M acetate buffer (pH 3.8) were able to degrade the α-, ß-, and γ-zeins in an in vito assay. / Ph. D.

LD5655.V856 1988.M633

Corn -- Genetics

Corn -- Seeds -- Testing

Proteolytic enzymes

The effect of exogenous protease on the relative enzyme activity of β-glucosidase in oenological conditions

Swart, Elsa Marita

12 1900

Thesis (MScAgric)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: The distinctive varietal flavour of wines is a combination of absolute and relative concentrations of chemical compounds. Volatile compounds are responsible for the odour of wine and non-volatiles cause the sensation of flavour. Accompanying these senses, a third, tactile, sense of ‘mouth-feel’ is recognizable. This forms the complete organoleptic quality of wine. Several hundred different compounds are simultaneously responsible for the odour release in wine, and since there is no real character impact compound, the aroma of wine can be described as a delicate balance of all these compounds. One of the most important groups of volatiles is the monoterpenes, which play a role in both aroma and flavour. This is especially significant for the Muscat varieties, but these flavour compounds are also present in other non-muscat grape varieties, where they supplement the varietal aroma. Monoterpenes occur in wine as free, volatile and odorous molecules, as well as flavourless non-volatile glycosidic complexes. The latter slowly releases monoterpenes by acidic hydrolysis, but the impact on varietal aroma is considered insufficient for wines that are consumed young. It is therefore important to supplement the release mechanism, in order to enhance the varietal aroma of the wine. The enzymatic hydrolysis mechanism functions in two successive steps: firstly, depending on the precursor, the glycosidic linkage is cleaved by α-L-arabinofuranosidase, α-L-rhamnosidase, β-D-xylosidase or β-D-apiosidase. The second step involves the liberation of the monoterpene alcohol by a β-glucosidase. This enzymatic hydrolysis does not influence the intrinsic aromatic characteristics of the wine, as opposed to acid hydrolysis. Pectolytic enzymes play an important role in cell elongation, softening of tissue and decomposition of plant material. These enzymes are used to improve juice yields, release colour and flavour compounds from grape skins, as well as improve clarification and filterability. Pectolytic enzymes work synergistically to break down pectins in wine. Protopectinase produce water-soluble and highly polymerised pectin substances from protopectin, it acts on non-methylated galacturonic acid units. Pectin methylesterase split methyl ester groups from the polygalacturonic chain. Polygalacturonase break down the glycosidic links between galacturonic acid units. Pectin and pectate lyases have a β-eliminative attack on the chain and it results in the formation of a double bond between C4 and C5 in the terminal residues. From the above it can be seen that enzymes play a pivotal role in the winemaking process. Unfortunately, in winemaking a lot of factors can influence the effects of enzymes. One possible factor in the wine medium is the presence of acidprotease, from yeast and/or fungal origin. This type of enzyme utilizes other enzymes as substrates and renders them useless. Pure enzyme preparations were used to study the interactions of a yeast acid-protease and a report activity (β-glucosidase) in vitro. A bottled wine and a buffer were used as in vitro conditions. Enzyme assays were performed to determine the relative activity over a number of days. The results indicated that even though both enzymes showed activity in both the media, the yeast protease did not have any significantly affect on the report activity. Subsequently wine was made from Sauvignon blanc grapes, with varying enzyme preparation additions. Enzyme assays were performed during the fermentation; and chemical, as well as sensory analysis were done on the stabilized wine. The results confirmed that the yeast protease did not have any significant affect on the report activity in these conditions. The protease’s inability to affect the report activity seems unlikely due to the fact that it is active at a low pH range and has been suggested as the only protease to survive the fermentation process. It seems possible that a winerelated factor, possibly ethanol, is responsible. Thus it seems that yeast protease does not threaten the use of commercial enzymes in the winemaking process in any significant way. Future work would entail more detailed enzyme studies of interactions between protease, both from yeast and fungal origin, and other report activities in specified conditions. The degradation capability could be directed towards unwanted enzyme activities that cause oxidation and browning of the must. The characterization of interactions between protease and β-glucosidase activities may hold key to producing wines with enhanced aroma and colour potential, as well as the elimination of unwanted enzyme activities. / AFRIKAANSE OPSOMMING: Die herkenbare kultivar karakter van wyn is ‘n kombinasie van absolute en relatiewe konsentrasies van verskeie chemiese komponente. Vlugtige komponente is verantwoordelik vir die geur, of aroma, van wyn en die nie-vlugtige komponente veroorsaak die sensasie van smaak. ‘n Derde, fisiese sensasie, die ‘mondgevoel’, is ook herkenbaar. Dit vorm die omvattende organoleptiese kwaliteit van die wyn. ‘n Paar honderd verskillende komponente is gelyktydig verantwoordelik vir die aroma vrystelling in wyn en omdat daar geen werklike karakter ‘impak’ komponent is nie, kan die aroma van wyn beskryf word as ‘n delikate balans van al die betrokke komponente. Een van die mees belangrike groepe vlugtige komponente is die monoterpene wat ‘n rol speel in beide aroma en smaak. Dit is veral belangrik by Muskaat kultivars, maar hierdie aroma komponente is ook teenwoordig in niemuskaat druif kultivars, waar hulle bydra tot die kultivar karakter en aroma. Monoterpene kom in wyn voor as vry, vlugtige en aromatiese molekules en in geurlose, nie-vlugtige glikosidies-gebonde komplekse. Die gebonde vorm word stadig vrygestel deur ‘n suurhidrolise, maar dit word as onvoldoende beskou vir wyne wat vroeg gedrink word. Dit is dus belangrik dat die vrystelling van geurstowwe verhoog word om die kultivar karakter van die wyn te versterk. Die ensiematiese hidrolise proses behels twee opeenvolgende stappe: eerstens, afhangende van die aard van die voorloper, word die glikosidiese verbinding deur α-L-arabinofuranosidase, α-Lramnosidase, β-D-xilosidase, of β-D-apiosidase gebreek. In die tweede stap word die monoterpeen-alkohol deur β-glukosidase vrygestel. Hierdie ensiematiese afbraak proses verander nie die intrinsieke aromatiese kenmerke van die wyn, soos met suurhidrolise die geval is nie. Pektolitiese ensieme speel ‘n fundamentele rol in selverlenging, sagwording en afbraak van plant materiaal. Hierdie ensieme word gebruik om sap opbrengs te verhoog, aroma en smaak komponente vry te stel uit die doppe, asook om sapverheldering en filtrasie te verbeter. Die pektolitiese ensieme werk op ‘n sinergistiese wyse om pektien in wyn af te breek. Protopektinase produseer wateroplosbare en hoogs gepolimeriseerde pektien uit protopektien, slegs uit niegemetileerde galakturoonsuur eenhede. Pektien metielesterase verwyder metielester groepe van die poligalakturoonsuurketting. Die glikosidiese bindings tussen galakturoonsuur eenhede word deur poligalakturonase afgebreek. Pektien- en pektaat-liase het ‘n β-eliminasie aanslag op die ketting en as gevolg daarvan word dubbelbindings tussen C4 en C5 in die terminale residue gevorm. Vanuit bogenoemde is dit dus duidelik dat ensieme ‘n kardinale rol speel in die wynbereidingsproses. Ongelukkig is daar ‘n verskeidenhied van faktore wat die werking van ensieme in die wynbereidingsproses kan beïnvloed. Een moontlike faktor is die teenwoordigheid van ‘n suur-protease, van fungisidiese en/of gis oorsprong, in die wynmedium, omdat dit ander ensieme as substraat kan benut en degradeer. Suiwer ensiem preparate is gebruik om die ensiem interaksie tussen ‘n gis suur-protease en ‘n verslag aktiwiteit (β-glukosidase) in vitro te ondersoek. ‘n Gebotteleerde wyn en ‘n buffer is gebruik om die in vitro kondisies na te boots. Relatiewe ensiem aktiwiteit is ontleed oor ‘n aantal dae. Beide die ensieme het aktiwiteit getoon in die media, maar gis protease het geen statisties beduidende invloed gehad op die aktiwiteit van die verslag ensiem nie. Daaropvolgend is wyn berei van Sauvignon blanc druiwe, met verskillende ensiempreparaat toevoegings. Die ensiemaktiwiteit is deurlopend tydens fermentasie gemeet. Na afloop van stabilisasie is chemiese, sowel as sensoriese ontledings op die wyn gedoen. Die resultate het bevestig dat gis protease, onder hierdie kondisies, geen beduidende invloed op die verslag aktiwiteit gehad het nie. Die protease se onvermoë om die verslag aktiwiteit beduidend te beinvloed blyk onwaarskynlik aangesien die suurprotease aktief is by lae pH vlakke en dit as die enigste protease voorgestel is wat die fermentasie proses kan oorleef. Dit blyk asof ‘n wyn-verwante faktor, moontlik etanol, hiervoor verantwoordelik kan wees. Dus hou protease geen gevaar in vir die gebruik van kommersiële ensieme in wynbereiding nie. Navorsing kan in die toekoms fokus op meer gedetailleerde ensiem interaksie studies tussen protease en ander ensiem aktiwiteite, in gespesifiseerde kondisies. Die degradasie kapasiteit kan moontlik aangewend word om ongewenste ensiem aktiwiteite, wat byvoorbeeld oksidasie en verbruining veroorsaak, te verminder. Die karakterisering van die interaksies tussen protease en β-glukosidase kan dus die sleutel wees tot die produksie van wyne met verhoogde aroma potensiaal, asook die eliminasie van ongewenste ensiematiese aktiwiteite.

Wine and wine making

Glucosidases

Proteolytic enzymes

Wine -- Flavor and odor

Enzymes -- Industrial applications

Theses -- Viticulture and oenology

Avaliação de proteases extracelulares de linhagem Chryseobacterium sp. Kr6 e purificação e caracterização de uma metaloprotease queratinolítica / Evaluation of extracellular proteases from Chryseobacterium sp. Kr6 strain and purification and characterization of a keratinolytic metalloprotease

Riffel, Alessandro

17 March 2006

A linhagem queratinolítica Chryseobacterium sp. Kr6 mostrou-se com possibilidade de aplicação em processos envolvendo queratinólise, principalmente na hidrólise de penas de frango e depilação de couro bovino. No presente trabalho avaliou-se o efeito da composição do meio sobre o crescimento e atividade proteolítica deste isolado e uma protease queratinolítica (queratinase) foi purificada e caracterizada. O microrganismo mostrou-se adaptado à utilização de queratina como substrato durante o crescimento, produziu diferentes proteases dependendo do meio utilizado e a maior atividade proteolítica foi atingida quando utilizado meio de cultivo com penas como única fonte de carbono e nitrogênio. A adição de fonte extra de nutrientes resultou em uma parcial repressão catabólica. Uma protease extracelular (Q1) foi purificada cerca de 14 vezes utilizando cromatografia de interação hidrofóbica em Phenyl-Sepharose CL 4B e gel filtração em Superose H12R. Q1 mostrou ser uma proteína monomérica com peso molecular de 64 KDa determinado por SDS-PAGE e pH e temperatura ótimos de 8,5 e 50°C respectivamente. O perfil de inibição indica tratar-se uma metaloprotease e as seqüências internas dos peptídeos resultantes de digestão tríptica mostraram homologia ao sítio ativo e de ligação ao Zn da família M14 (Carboxipeptidase). A atividade proteolítica foi estimulada pela presença de íons Ca2+ e Mg2+ e inibida por Cu2+, Zn2+, Al2+, Hg 2+ e agentes redutores. Q1 apresentou atividade queratinolítica sobre o substrato keratin azure, mas não foi capaz de hidrolisar penas de frango sugerindo a necessidade de outras enzimas durante o processo de degradação de penas. Utilizando os iniciadores degenerados desenhados com base na seqüência dos peptídeos, foi amplificado um fragmento de 470 pb correspondente a uma região do possível gene desta metaloproteína utilizando DNA e cDNA como molde. A seqüência do fragmento pode estar sendo expressa, mas não apresentou similaridade e homologia a proteínas conhecidas e portando, indicativa de uma nova metaloprotease. / The strain Chryseobacterium sp. kr6 shown to be useful for biotechnological purposes such as hydrolysis of poultry feathers and de-hairing of bovine pelts. The effect of media composition on the protease production and growth by this strain was studied and a keratinolytic protease (keratinase) was purified and characterized. The strain was adapted to use keratin as substrate to growth, produced different proteases in different media composition and the higher proteolytic activity was reached when used feather as only source of carbon and nitrogen. The addition of sources of nutrients has resulted in partially repressed catabolism. An extracellular protease Q1) was purified 14-fold by chromatography using the hydrophobic interaction Phenyl-Sepharose CL 4B column and gel filtração in Superose 12HR. SDS-PAGE indicated that the Q1 is a monomeric protein with molecular mass of 64 KDa. and optima pH and temperature were 8,5 e 50°C, respectively. The inhibition profile indicates to be a Zn-metalloprotease and analysis of tryptic peptides sequence revealed sequence homology to the conserved active site and Zn binding site, which may characterize keratinase Q1 as a member of M14 metalloprotease family (Carboxipeptidase). The activity was stimulated by of Ca2+ and Mg2+ and inhibited by Cu2+, Zn2+, Al2+, Hg 2+ and reducing agents. Q1 presented keratinolytic activity under substrate keratin azure, but was unable to hydrolyze poultry feather, suggesting the requirement by other enzymes in the feather hydrolysis mechanism. Degenerate primers amplified a 470 bp, corresponding to a probable gene region of this metalloprotein, with DNA and cDNA. The sequence is being expressed but do not showed similarity and homology to known proteins, thus indicating a new metalloprotease.

bactérias aeróbicas gram-negativos

enzimas proteolíticas

Escleroprotein

esderoproteinas

gram-negative bactéria

metalloprotease

metaloprotease

Proteinase

proteinase

proteolytic enzymes

Funcionalidade e caracterização das propriedades físico-químicas, biológicas e estruturais da uricase modificada por PEGlação. / Functionality and characterization of physiscal-chemical, biological and structural properties of uricase modified by PEGlation.

Freitas, Debora da Silva

28 February 2011

A PEGlação é uma bem sucedida estratégia nano-biotecnológica que envolve a ligação covalente do polietilenoglicol (PEG) a uma droga para melhorar sua farmacocinética, farmacodinâmica e perfil imunológico, e portanto, aumentar seu efeito terapêutico. Atualmente, a PEGlação é usada para modificar proteínas, peptídeos, oligonucleotídeos e fragmentos de anticorpos. A Uricase (EC 1.7.3.3, UC) é uma enzima pertencente à classe das oxidorredutases, responsável pela oxidação do ácido úrico, produzindo alantoína. Essa enzima é encontrada em muitos organismos vivos como: bactérias, leveduras, fungos, vegetais e animais. Entretanto, durante a evolução das espécies o gene da UC tornou-se inativo, por isso, em humanos a UC é inativa. Nesse sentido, a UC adquiriu destaque como um potencial fármaco uricolítico, devido à necessidade do desenvolvimento de novos agentes terapêuticos no tratamento de hiperuricemia e gota. Neste estudo, a uricase recombinante purificada de Candida sp (UC-r) e a de rim bovino (UC-b) foram modificadas por PEGlação com mPEG-p-nitrofenil carbonato (mPEG-pNP) e 2-O-mPEG-4,6-dicloro-s-triazina (mPEG-CN), produzindo conjugados com considerável atividade enzimática residual UC-r-mPEG-pNP (87%), UC-r-mPEG-CN (75%) e UC-b-mPEG-pNP (75%), UC-b-mPEG-CN (50%).Além disso, os conjugados obtidos com a UC-r e UC-b apresentaram valores de KM menores do que as enzimas nativas, indicando que a PEGlação conferiu uma interessante propriedade aos conjugados, que permitiu um aumento da afinidade da UC-r e UC-b pelo ácido úrico. O efeito do pH e da temperatura sobre a UC-r e UC-b modificadas indicou que os conjugados obtidos foram mais ativos em pH próximo ao fisiológico e mais estáveis do que a respectiva enzima nativa. As formas PEGladas da UC-r e UC-b foram mais resistentes à ação de diferentes proteases e mantiveram-se estáveis em soro humano, indicando que a PEGlação favoreceu a resistência a degradação proteolítica. Análises espectroscópicas de dicroísmo circular (CD) e infravermelho (FTIR) não apresentaram nenhuma diferença relevante entre a estrutura protéica da UC-r nativa e PEGlada. Estudos in vivo com coelho e camundongos Balb/c mostraram que a UC-r nativa induziu uma intensa resposta imune sendo altamente imunogênica. Por outro lado, a UC-r PEGlada quando injetada cronicamente em camundongos não induziu qualquer resposta detectável de anticorpos. Esses resultados indicam uma suficiente redução da imunogenicidade dessa enzima, devido à conjugação do mPEG-pNP ou mPEG-CN, tornando-a adequada para um possível uso terapêutico. Portanto, nesse trabalho, os resultados obtidos com a UC-r de Candida sp, mostram que dois conjugados apresentaram interessantes propriedades físico-química, biológicas e imunológicas, que permitiram um significativo avanço na transformação de uma enzima de origem fúngica em uma droga, com uma possível aplicação terapêutica no tratamento de hiperuricemia e gota. / PEGylation is a successful nanobiotechnology strategy that involves the covalent attachment of polyethylene glycol (PEG) to a drug to improve its pharmacokinetic, pharmacodynamic, and immunological profiles, and thus, enhance its therapeutic effect. Currently, PEGylation is used to modify proteins, peptides, oligonucleotides, antibody fragments, and small organic molecules. Uricase (EC 1.7.3.3, UC) is an enzyme belonging to the class of oxidorreductases responsible for the oxidation of uric acid, producing allantoin. This enzyme is found in many living organisms such as bacteria, yeasts, fungi, plants and animals. However, during the evolution of the species gene became inactive UC, therefore, in humans UC is inactive. Accordingly, UC has acquired prominence as a potential drug uricolytic due to the need of developing new therapeutic agents for the treatment of hyperuricemia and gout. In this study, purified recombinant uricase from Candida sp (UC-r) and ox kidney (UC-b) were modified by PEGylation with mPEG-p-nitrophenyl-carbonate (mPEG-pNP) and 2-O-mPEG-4,6-dichloro-s-triazine (mPEG-CN), producing conjugates with considerable residual enzyme activity UC-r-mPEG-pNP (87%), UC-r-mPEG-CN (75%) and UC-b-mPEG-pNP (75%),UC-b-mPEG-CN (50%). In addition, conjugates obtained with the UC-r and UC-b had lower KM values than native enzymes, indicating that the PEGylation gave an interesting property the conjugate that increased the affinity of UC-r and UC-b by uric acid. The effect of pH and temperature on the modified UC-r and UC-b indicated that the conjugates were more active at pH close to the physiological and more stable than its native enzyme. PEGylated forms of UC-r and UC-b were more resistant to the action of different proteases and remained stable in human serum, indicating that the PEGylation favored resistance to proteolytic degradation. Spectroscopic analysis of circular dichroism (CD) and infrared (FTIR) did not show any relevant difference in protein structure between native and PEGylated UC-r. In vivo studies with rabbit and Balb/c mice showed that UC-r native elicited an intense immune response being highly immunogenic. On the other hand, the PEGlated UC-r when chronically injected into mice did not induce any detectable response to antibodies. These results indicate a sufficient reduction of immunogenicity of this enzyme, due to conjugation of mPEG-pNP or mPEG-CN, making it suitable for possible therapeutic use. Therefore, the results obtained with the UC-r of Candida sp, showed that two conjugates have interesting physical-chemical, biological and immunological, which allowed a significant advance in the transformation of an enzyme of fungal origin in a drug with a possible application therapeutic in the treatment of hyperuricemia and gout.

Ativação enzimática

Biological phenomena

Enzimas proteolíticas

Enzyme activation

Enzyme tests

Fenômenos biológicos

Nucleotídeos

Nucleotides

Oligonucleotídeos

Oligonucleotides

Proteolytic enzymes

Testes enzimáticos

Avaliação de proteases extracelulares de linhagem Chryseobacterium sp. Kr6 e purificação e caracterização de uma metaloprotease queratinolítica / Evaluation of extracellular proteases from Chryseobacterium sp. Kr6 strain and purification and characterization of a keratinolytic metalloprotease

Alessandro Riffel

17 March 2006

A linhagem queratinolítica Chryseobacterium sp. Kr6 mostrou-se com possibilidade de aplicação em processos envolvendo queratinólise, principalmente na hidrólise de penas de frango e depilação de couro bovino. No presente trabalho avaliou-se o efeito da composição do meio sobre o crescimento e atividade proteolítica deste isolado e uma protease queratinolítica (queratinase) foi purificada e caracterizada. O microrganismo mostrou-se adaptado à utilização de queratina como substrato durante o crescimento, produziu diferentes proteases dependendo do meio utilizado e a maior atividade proteolítica foi atingida quando utilizado meio de cultivo com penas como única fonte de carbono e nitrogênio. A adição de fonte extra de nutrientes resultou em uma parcial repressão catabólica. Uma protease extracelular (Q1) foi purificada cerca de 14 vezes utilizando cromatografia de interação hidrofóbica em Phenyl-Sepharose CL 4B e gel filtração em Superose H12R. Q1 mostrou ser uma proteína monomérica com peso molecular de 64 KDa determinado por SDS-PAGE e pH e temperatura ótimos de 8,5 e 50°C respectivamente. O perfil de inibição indica tratar-se uma metaloprotease e as seqüências internas dos peptídeos resultantes de digestão tríptica mostraram homologia ao sítio ativo e de ligação ao Zn da família M14 (Carboxipeptidase). A atividade proteolítica foi estimulada pela presença de íons Ca2+ e Mg2+ e inibida por Cu2+, Zn2+, Al2+, Hg 2+ e agentes redutores. Q1 apresentou atividade queratinolítica sobre o substrato keratin azure, mas não foi capaz de hidrolisar penas de frango sugerindo a necessidade de outras enzimas durante o processo de degradação de penas. Utilizando os iniciadores degenerados desenhados com base na seqüência dos peptídeos, foi amplificado um fragmento de 470 pb correspondente a uma região do possível gene desta metaloproteína utilizando DNA e cDNA como molde. A seqüência do fragmento pode estar sendo expressa, mas não apresentou similaridade e homologia a proteínas conhecidas e portando, indicativa de uma nova metaloprotease. / The strain Chryseobacterium sp. kr6 shown to be useful for biotechnological purposes such as hydrolysis of poultry feathers and de-hairing of bovine pelts. The effect of media composition on the protease production and growth by this strain was studied and a keratinolytic protease (keratinase) was purified and characterized. The strain was adapted to use keratin as substrate to growth, produced different proteases in different media composition and the higher proteolytic activity was reached when used feather as only source of carbon and nitrogen. The addition of sources of nutrients has resulted in partially repressed catabolism. An extracellular protease Q1) was purified 14-fold by chromatography using the hydrophobic interaction Phenyl-Sepharose CL 4B column and gel filtração in Superose 12HR. SDS-PAGE indicated that the Q1 is a monomeric protein with molecular mass of 64 KDa. and optima pH and temperature were 8,5 e 50°C, respectively. The inhibition profile indicates to be a Zn-metalloprotease and analysis of tryptic peptides sequence revealed sequence homology to the conserved active site and Zn binding site, which may characterize keratinase Q1 as a member of M14 metalloprotease family (Carboxipeptidase). The activity was stimulated by of Ca2+ and Mg2+ and inhibited by Cu2+, Zn2+, Al2+, Hg 2+ and reducing agents. Q1 presented keratinolytic activity under substrate keratin azure, but was unable to hydrolyze poultry feather, suggesting the requirement by other enzymes in the feather hydrolysis mechanism. Degenerate primers amplified a 470 bp, corresponding to a probable gene region of this metalloprotein, with DNA and cDNA. The sequence is being expressed but do not showed similarity and homology to known proteins, thus indicating a new metalloprotease.

bactérias aeróbicas gram-negativos

enzimas proteolíticas

esderoproteinas

metaloprotease

proteinase

Escleroprotein

gram-negative bactéria

metalloprotease

Proteinase

proteolytic enzymes

Changes in endosome-lysosome pH accompanying pre-malignant transformation.

Jackson, Jennifer Gouws.

January 2005

The mechanisms by which altered processing, distribution and secretion of proteolytic enzymes occur, facilitating degradation of the extracellular matrix in invasive and metastatic cells, are not fully understood. Studies on the MCF-10 A breast epithelial cell line and its premalignant, c-Ha-ras-transfected MCF-10AneoT counterpart have shown that the ras-transfected cell line has a more alkaline pH. The objective of this study was to determine which organelles of the endosome-lysosome route were alkalinized and shifted to the cell periphery after ras-transfection. Antibodies to the hapten 2,4-dinitrophenyl (DNP), required for pH studies, were raised in rabbits and chickens using DNP-ovalbumin (DNP-OVA) as immunogen. Cationised DNP-OVA (DNP-catOVA) was also inoculated to increase antibody titres. Anti-hapten and carrier antibody titres were assessed. In rabbits, cationisation seems useful to increase anti-DNP titres if a non-self carrier protein (OVA) is used. In chickens, cationisation of DNP-OVA seems necessary to produce a sustained anti-OVA (anti-self) response (implying a potential strategy for cancer immunotherapy). Oregon Green® 488 dextran pulse-chase uptake and fluorescent microscopy, and (2,4-dinitroanilino)-3'-amino-N-methyldipropylamine (DAMP) uptake, immunolabelling for DNP (a component of DAMP) and unique markers for the early endosome (early endosome antigen-I, EEAI), the late endosome (cation-independent mannose-6-phosphate receptor, CI-MPR) and the lysosome (small electron dense morphology and lysosome-associated membrane protein-2, LAMP-2) and electron mlcroscopy was performed. The pH of late endosomes and lysosomes in the ras-transfected MCF-10AneoT cell line were found to be relatively alkalinised and Iysosomes shifted toward the cell periphery. The acidic pH of late endosomes is required to release precursor cysteine and aspartic proteases from their receptors (e.g. CI-MPR), process the precursors to active proteases and to allow receptor recycling. The more alkaline pH observed potentially explains the altered processing of proteases in rastransfected cells. Alkalinisation ofthe cytosol may affect the cytoskeleton responsible for, among other things, the positioning and trafficking of various organelles, causing relocation of Iysosomes toward the cell periphery and actin depolymerisation. This may enable fusion of Iysosomes with the plasma membrane and the release of proteolytic enzymes, facilitating the observed invasive phenotype. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2005.

Hydrogen-ion concentration.

Endosomes.

Lysosomes.

Proteolytic enzymes.

Immunoglobulins.

Cell organelles.

Metastasis.

Cancer--Research.

Cancer drug discovery and development.

Theses--Biochemistry.