Clonagem de serino proteases do veneno da cascavel Crotalus durissus terrificus e expressão da giroxina em célula de mamífero / Cloning of serine proteases from the venom of rattlesnake Crotalus durissus terrificus and expression of a gyroxin in mammalian cells

Camila Miyagui Yonamine

05 December 2007

As serino proteases participam de diversos processos fisiológicos (tal como o de coagulação) e patológicos. Essas enzimas estão amplamente distribuídas entre as espécies, são também toxinas dos venenos de serpentes, sendo denominadas SVSPs (snake venom serine proteases). Essas SVSPs são multifuncionais e contêm uma tríade catalítica formada pelos aminoácidos HDS. Algumas SVSPs são comercialmente disponíveis, sendo indicadas para o tratamento de infarto do miocárdio, tromboses e embolia pulmonar. No veneno de Crotalus durissus terrificus estão descritas até o momento, apenas duas SVSPs sendo que a mais estudada é a giroxina que representa cerca de 2,5% do veneno total. No presente estudo foi reportado a clonagem de sete serino proteases amplificadas a partir de uma biblioteca de cDNA de glândula de veneno de um único espécime adulto de Crotalus durissus terrificus. Estes clones foram analisados com relação à organização do cDNA, estrutura e prováveis funções. A construção do modelo tridimensional da giroxina permitiu verificar as similaridades com tripsina, trombina e outras SVSPs. A glicosilação e a presença de muitas pontes dissulfetos dificultam a obtenção das SVSP recombinantes na forma solúvel e com atividade, por expressão em E.coli. Assim, neste trabalho foi abordada a expressão em células de mamífero (que realiza as modificações pós-traducionais) com resultados promissores. Para tanto, o peptídeo sinal de Igk, a seqüência madura e a região 3 UTR da giroxina foram clonados no vetor pED, originando um novo vetor (pED-Giro). Este vetor carrega o peptídeo sinal de Igk, o que possibilitou a secreção da giroxina para o meio de cultura. O vetor pED-Giro foi transfectado em células CHO DXB11 dhfr e COS-7. A giroxina foi detectada no extrato total das células COS-7 por western blot e, em seguida, purificada do meio de cultura com coluna de afinidade (Benzamidina Sepharose) e demonstrado sua integridade pelo ensaio de atividade esterásica. / The serine proteases affect several physiological processes (such as the coagulation cascade) and pathological ones. These enzymes are widely distributed beyond the species; they are also toxins from snake venoms and are called SVSPs (snake venom serine proteases). These SVSPs are multifunctional and have a catalytic triad formed by HDS amino acids. Some of them are commercially available for use in clinical treatment for heart attack, tromboses and pulmonary embolism. So far, in Crotalus durissus terrificus venom only two SVSPs are described and gyroxin is considered the most studied SVSP which represents about 2,5% of the total venom. In the present study was reported the cloning of seven serine proteases amplified from a cDNA library of a venomous gland of a single adult specimen from Crotalus durissus terrificus venom. These clones have been analyzed in relation to the cDNA organization, structure and probable functions. The three-dimensional model of the gyroxin made possible the analysis of similarities with trypsin, thrombin and other SVSPs. The glycosylation and many disulfide bonds of the SVSPs make difficult the expression in E.coli to obtain the soluble recombinant toxin with activity. The expression in mammalian cells is very promising, because it is possible to make pos translation modification and to obtain the recombinant toxin secreted to the culture medium. The IgK signal peptide, the mature sequence and 3\'UTR region of gyroxin were cloned in the pED expression vector resulting in a new vector (pED-Giro). This vector carries the Igk signal peptide, which allows the secretion of the protein to the culture medium. The pED-Giro vector was transfected in CHO DXB11 dhfr and COS-7 cells. The gyroxin was detected in COS-7 total extract by western blot and after, purified from the medium culture and its integrity was confirmed by esterase activity assay.

clonagem

Crotalus

expressão

giroxina

serino proteases

animal cells

cloning

enzyme

escherica coli

mammary glands

serine proteinases

snakes

thrombin

trypsin

venoms

Caracterização da atividade tríptica do copépodo harpacticoida Tisbe biminiensis

FRANÇA, Renata Cristina da Penha

08 May 2007

Submitted by (edna.saturno@ufrpe.br) on 2017-02-20T11:52:01Z No. of bitstreams: 1 Renata Cristina da Penha Franca.pdf: 1679353 bytes, checksum: 9703d2a013a1d783ae4e0d394ef6d0f9 (MD5) / Made available in DSpace on 2017-02-20T11:52:01Z (GMT). No. of bitstreams: 1 Renata Cristina da Penha Franca.pdf: 1679353 bytes, checksum: 9703d2a013a1d783ae4e0d394ef6d0f9 (MD5) Previous issue date: 2007-05-08 / Tisbe biminiensis is a potential live prey for many species of aquatic animals since its nutritional value is better than those found in other feed organisms commonly used in crustacean and fish larvivultures. Live food seems to be a source of exogenous enzymes which eases food digestion of fish and crustacean early life stages. The aim of this work was to study alkaline proteases from the harpacticoida copepod Tisbe biminiensis by evaluating the effects of pH, temperature and specific inhibitors on the proteolytic activity. Proteases were also studied by SDS-PAGE and zymograms. Crude extract from T. biminiensis showed a total proteolytic activity of 0.39 mU/mg of protein and tryptic activity of 2.33 mU/mg. Optima pH and temperature were 9.0 and 55oC, respectively. The enzymes were thermostable at temperature ranging from 25 to 50oC. The enzymatic activity was strongly inhibited by the trypsin specific inhibitors TLCK (100%), SBTI (100%) and benzamidine (91%).However, EDTA, PMSF and b mercaptoethanol caused only a slight inhibition (35, 35 and 7%, respectively). The results show that alkaline proteases are present on crude extract of Tisbe biminiensis. The highest effects of trypsin inhibitors on enzyme activity suggest that this enzyme plays an important role in protein digestion. T. biminiensis is an important source of live prey to fish and crustacean larvae in nature and partially replace others live food commonly used in aquaculture because they contribute with both exogenous enzymes for the digestion processes and other nutrients required during development of aquatic animals and contribute to development of aquaculture. / Os copépodos harpacticóides são microcrustáceos que servem como alimento vivo preferencial na natureza para diversas espécies de larvas de organismos aquáticos sendo nutricionalmente superiores quando comparados a outros alimentos vivos comumente utilizados nas larviculturas. O alimento vivo é uma importante fonte de enzimas exógenas que contribui para o processo digestivo dessas larvas que por não estarem com o sistema digestivo completamente formado, dependem das enzimas provenientes do alimento vivo para um melhor aproveitamento dos ingredientes da dieta,apresentando consequentemente melhores desempenhos na taxa de crescimento e sobrevivência. Este trabalho teve como objetivo caracterizar as proteases alcalinas do copépodo harpacticóide Tisbe biminiensis através de parâmetros cinéticos e físico-químicos como: pH e temperatura ótima, efeito de inibidores, estabilidade térmica, além da caracterização eletroforética por SDS-PAGE e zimograma. O extrato bruto do T. biminiensis apresentou uma atividade proteolítica total de 0,39 U/mg de proteínas sendo a atividade tríptica de 2,33 U/mg. A atividade enzimática apresentou uma temperatura ótima de 55ºC e pH ótimo de 9,0 e mostrou-se estável termicamente no intervalo de 25 a 50ºC. A atividade enzimática foi fortemente inibida por inibidores específicos de tripsina, TLCK (100±1%), SBTI (100±2%), benzamidina (91±10%), e não houve inibição significativa com os inibidores: EDTA (35±1%), PMSF (35±1%), b- mercaptoetanol (7±11%). Estes resultados demonstraram que a principal protease alcalina presente no extrato bruto do T. biminiensis foi a tripsina, exercendo importante papel na digestão protéica destes animais e este copépodo pode contribuir como fonte de enzimas exógenas para o processo digestivo nas larvas de organismos aquáticos.

Protease alcalina

Tripsina

Tisbe biminiensis

Copépodo harpacticóide

Exogenous enzymes

Trypsin

Copepod

Funcionalização da superfície de nanopartículas superparamagnéticas encapsuladas por quitosana para a imobilização de proteínas / Surface functionalization of superparamagnetic nanoparticles encapsulated by chitosan for protein immobilization

José Silva de Sousa

18 January 2011

A nanociência e a nanotecnologia vêm abrindo inúmeros desenvolvimentos de dispositivos e sistemas em escala nanométrica, com novas organizações moleculares, propriedades e funções distintas. Nesse contexto, as nanopartículas magnéticas poliméricas são compósitos formados por materiais magnéticos com tamanhos de partículas entre 1 e 100 nm combinados com polímeros funcionais. São materiais bem conhecidos e têm sido amplamente estudados devido às suas aplicações em diversas áreas tecnológicas. Nas áreas biológica e médica, as aplicações incluem separação e imobilização de enzimas e proteínas, melhoria nas técnicas de imagem de ressonância magnética para diagnóstico e sistemas de liberação controlada de fármacos. Neste trabalho, proteínas foram imobilizadas na superfície de um biopolímero combinado com partículas superparamagnéticas de magnetita para formar o compósito magnético. Utilizou-se o biopolímero quitosana, reticulada e funcionalizada com glutaraldeído, aplicável em ensaios biológicos. Obtiveram-se 3 tipos de compósitos magnéticos, os quais foram nomeados QM1Glu, QM2NaGlu e QM3Glu. Foram caracterizados por difratometria de raios X, microscopia eletrônica de varredura, magnetometria de amostra vibrante, calorimetria exploratória diferencial, termogravimetria e espectroscopia por infravermelho. Foram avaliados quanto à imobilização das proteínas albumina de soro bovino (SAB), colágeno e tripsina. A imobilização das proteínas no biopolímero ocorreu em 30 min de incubação. O compósito magnético de quitosana não funcionalizada (QM3) também foi avaliado. Para a tripsina verificou-se que QM3 apresentou maior potencial de imobilização do que QM3Glu. Após 30 dias, QM3-Trip e QM3Glu-Trip ainda apresentavam a tripsina ativada. Foram demonstradas a atividade e a cinética enzimática da QM3Glu-trip com o substrato BApNA. / Nanoscience and nanotechnology have opened up numerous developments of devices and systems on the nanometer scale, with new molecular organization, properties and functions. In this context, the polymeric magnetic nanoparticles are composites formed by magnetic materials with a particle size between 1 and 100 nm combined with functional polymers. They are well-known and have been widely studied because of its applications in various technology areas. Applications on the biological and medical areas include separation and immobilization of enzymes and proteins, improved techniques of magnetic resonance imaging and diagnostic systems for controlled drug delivery. In this work, proteins were immobilized on the surface of a biopolymer combined with superparamagnetic particles of magnetite. The biopolymer chitosan was used, cross-linked and functionalized with glutaraldehyde, applicable to the biological assays. Three types of magnetic composites were obtained, which were called QM1Glu, QM2NaGlu and QM3Glu. They were characterized by X-ray diffraction, scanning electron microscopy, vibrating sample magnetometry, differential scanning calorimetry, thermogravimetry and infrared spectroscopy. They were evaluated concerning the immobilization of the proteins bovine serum albumin (BSA), collagen and trypsin. The study showed that the immobilization of proteins on the biopolymer occurred in 30 min of incubation. The magnetic composite of nonfunctionalized chitosan (QM3) was also evaluated. For trypsin, it was found that the immobilization potential of QM3 was higher than that observed for QM3Glu. After 30 days, the trypsin of the QM3-Trip and QM3Glu-Trip was still with activity. The activity and the enzyme kinetics of the QM3Glu-Trip with the substrate BApNA were demonstrated.

albumina de soro bovino

colágeno

magnetita

nanopartículas superparamagnéticas

quitosana

tripsina

bovine serum albumin

chitosan

collagen

magnetite

superparamagnetic nanoparticles

trypsin

The involvement of the three main inflammatory bowel disease pathways and the secretion of trypsin proteolytic activity on intestinal epithelial cells / Interactions entre les voies inflammatogènes impliquées dans les maladies inflammatoires chroniques de l’intestin et l’activité protéolytiques de la muqueuse intestinale

Solà Tapias, Núria

13 April 2018

Les maladies inflammatoires chroniques de l'intestin (MICI) se caractérisent par une inflammation sévère de l'intestin grêle et du côlon et comprennent la maladie de Crohn (MC) et la rectocolite hémorragique (RCH). Les MICI sont des maladies complexes faisant intervenir des facteurs génétiques : certains senseurs bactériens, l'autophagie et le stress du réticulum endoplasmique. Un défaut de barrière de l'épithélium digestif est également fortement impliqué dans la physiopathologie du processus inflammatoire. La fonction barrière de l'épithélium digestif est assurée par plusieurs types cellulaires, synthétisant entre autres, des peptides antimicrobiens (PAM) et des mucines. Dans les MICI, une augmentation de la perméabilité intestinale et une perte de muco-sécrétion ont été décrites. Les protéases jouent un rôle fondamental dans la digestion du bol alimentaire mais également dans le maintien de l'homéostasie intestinale en activant ou dégradant divers motifs moléculaires, ou in induisant des signaux spécifiques aux cellules par l'activation de quatre récepteurs : les PARs (Protease-Activated Receptor). Dans les MICI, un excès d'activité protéolytique de type trypsine est observé. L'origine de cette activité est théoriquement attribuée aux cellules immunitaires, à une surproduction pancréatique ou au microbiote, mais les cellules épithéliales intestinales semblent également être une source majeure de protéases. L'objectif de mon projet de thèse visait à étudier l'impact des principales voies impliquées dans les MICI sur l'homéostasie des protéases épithéliales et le rôle de celles-ci dans la déstabilisation de la fonction de barrière. Nos résultats ont confirmé un excès de protéases à sérine dans les cellules épithéliales de patients atteint de MC ou de RCH. In vitro, sur des monocouches de cellules Caco-2, l'induction de l'autophagie diminuait la libération apicale de protéase de type trypsine, alors que le senseur bactériens NOD2 n'avait aucun effet. A l'inverse, une stimulation du Stress du réticulum endoplasmique (SRE) par la Thapsigargin, induisait une libération accrue de protéases actives de type trypsine au pôle apical des cellules. [...] / Crohn's disease (CD) and Ulcerative colitis (UC) are two forms of Inflammatory Bowel Disease (IBD), a chronic inflammatory pathology affecting the digestive tract. Patients suffer from relapsing flares, diarrhea, abdominal pain and bleeding. Although the molecular mechanisms of IBD are poorly understood, recent data suggest that IBD occurs in genetically predisposed individuals developing an abnormal immune response to intestinal microbes after, being exposed to specific environmental triggers. Genetic studies have reported more than 170 polymorphisms susceptible to be involved in IBD pathogenesis. The strongest associations have highlighted three main pathways altered in IBD including bacterial sensing (NOD2, CD), autophagy (ATG16L1 and IRGM, CD) and endoplasmic reticulum stress (ER-Stress) (XBP1, UC). The role of intestinal barrier function is also strongly implicated in IBD pathogenesis, and is modulated by factors present in the lumen derived from microbiota, food or at a molecular level, by factors such as proteases. In IBD pathophysiology, the inflammatory process is characterized by impaired intestinal biology including disruption of tight junctions and leaky gut, decreased amount of Paneth and Goblet cells, and translocation of luminal antigens triggering inflammation. Previous studies have demonstrated an increased level of active serine proteases in the stools and tissues of IBD patients, supposing that proteases originate from infiltrated immune cells, pancreatic secretion or microbiota. However, our team has reported that intestinal epithelial cells are a major source of serine proteases, in particular trypsin-like enzymes, are released by a stressed epithelium in pathogenic context such as irritable bowel syndrome. In this project, we aimed at better understanding whether the three main pathways involved in IBD (Nod2, autophagy, ER-stress) could be linked to an epithelial release of trypsin and reciprocally, if epithelial trypsin is able to induce or modulate these three IBD pathways. We confirmed that trypsin-like activity was significantly higher in biopsies from UC and CD patients compared to healthy controls. In Caco-2 monolayers cultured in transwells, secreted trypsin-like proteolytic activity remained stable upon NOD2 stimulation but decreased under autophagy induction. Thapsigargin (Tg) stimulation a well-known ER-stress inducer, enhanced the apical release of trypsin-like activity in Caco2 cells. [...]

Stress du réticulum endoplasmique

Activité protéolytiques

Endoplasmic reticulum stress

Inflammatory Bowel Disease

Trypsin protease activity

Designing functional magnetic nanoparticles with flame spray pyrolysis for bio-applications

Li, Dan, Chemical Sciences & Engineering, Faculty of Engineering, UNSW

January 2009

Magnetic nanoparticles (MNPs) hold great promise in the fields of biology and medicine. The synthesis of functional MNPs with precisely controlled crystallographic, physicochemical, and magnetic properties on a large scale still remains the challenge today. This thesis reports the exploration of liquid-fed flame spray pyrolysis (FSP) in the synthesis of functional MNPs, their surface modifications, and potential bio-applications. Superparamagnetic and ferromagnetic maghemite (γ-Fe2O3) nanoparticles, and silica-coated maghemite (SiO2/γ-Fe2O3) nanocomposites were synthesised using FSP. The size of γ-Fe2O3 was controllable from 6 to 53 nm, with morphology evolving from a disordered near-spherical shape to fully ordered 2-D hexagonal/octagonal platelet. The saturation magnetisation (Ms) increased from 21 to 74 emu/g with increasing particle size, up to 13 nm when Ms approached the bulk γ-Fe2O3 characteristics. In the case of SiO2/γ-Fe2O3, three distinct morphologies, namely the single segregated γ-Fe2O3 core- SiO2 shell, transitional mixed morphologies, and multi γ-Fe2O3 cores embedded in submicron SiO2 shell, were obtained. The core size, composite size, and morphology of γ- Fe2O3 were tunable by varying %SiO2 loading and the use of a quartz tube enclosure during flame synthesis. The magnetic behaviour correlated well with the crystal microstructure. Following the core particle design, protein adsorption-desorption behaviour on FSP-madeMNPs was studied. Bovine serum albumin (BSA) adsorption was found to follow the Langmuir isotherm, with high binding capacities (150−348 mg BSA/g particle) and fast association constants. Electrostatically governed BSA orientations were proposed for different particle-buffer systems. The adsorbed BSA was effectively recovered by pH-shift using K2HPO4. Subsequently, terminal amine, aldehyde, carboxylic, epoxy, mercapto and maleimide functionality were anchored onto the FSP-made γ-Fe2O3 particles. These versatile functional groups led to conjugation of active trypsin. The immobilised trypsin exhibited superior durability with >60% residual activity after one week, and excellent reusability for >5 cycles. The trypsin-conjugated MNPs are promising carriers in proteomics, demonstrating good substrate specificity with equivalent or better sequence coverage compared to free trypsin in insulin and BSA digestion. In another application, a refined silanisation procedure simultaneously reduced γ-Fe2O3 to Fe3O4, and generated thiol enriched surface for matrix metalloproteinase-2 (MMP-2) conjugation. The highly active MMP-2-conjugated MNPs could potentially enhance the interstitial transport of macromolecule/nanoparticles in drug delivery.

flame spray pyrolysis

magnetic particles

functionalisation

particle characterisation

iron oxide nanoparticles

silica coated magnetic particles

bovine serum albumin

silane

trypsin

Progress of Weak Affinity Chromatography as a Tool in Drug Development

Meiby, Elinor

January 2013

Weak Affinity Chromatography (WAC) is a technology that was developed to analyse weak (KD > 10-5 M) although selective interactions between biomolecules. The focus of this thesis was to develop this method for various applications in the drug development process.   Fragment Based Drug Discovery is a new approach in finding new small molecular drugs. Here, relatively small libraries (a few hundreds to a few thousands of compounds) of fragments (150 – 300 Da) are screened against the target. Fragment hits are then developed into lead molecules by linking, growing or merging fragments binding to different locations of the protein’s active site. However, due to the weakly binding nature of fragments, methods that are able to detect very weak binding events are needed. In this thesis, WAC is presented as a new robust and highly reproducible technology for fragment screening. The technology is demonstrated against a number of different protein targets – proteases, kinases, chaperones and protein-protein interaction (PPI) targets. Comparison of data from fragment screening of 111 fragments by WAC and other more established technologies for fragment screening, such as surface plasmon resonance (SPR) and nuclear magnetic resonance (NMR), validates WAC as a screening technology. It also points at the importance of performing fragment screening by multiple methods as they complement each other.   Other applications of WAC in drug development are also presented. The method can be used for chiral separations of racemic mixtures during fragment screening, which enables affinity measurements of individual enantiomers binding to the target of interest. Further, analysis of crude reaction mixtures is shown. By these procedures, the affinity of the product can be assessed directly after synthesis without any time-consuming purification steps. In addition, a high performance liquid chromatography (HPLC) system for highly efficient drug partition studies was developed by stable immobilization of lipid bilayer disks – lipodisks – on a high performance silica support material. These lipodisks are recognized model membranes for drug partition studies. A WAC system with incorporated membrane proteins into immobilized lipodisks has also been produced and evaluated with the ultimate objective to study affinity interactions between ligands and membrane proteins. / Ett läkemedel utövar sin funktion genom att påverka aktiviteten hos ett protein i kroppen då det binder till dess aktiva säte. Förändringen i aktivitet leder till fysiologiska förändringar i kroppen beroende på vilken funktion proteinet har. Med läkemedelsmolekyl avses här en liten organisk molekyl. Fragment-baserad läkemedelsutveckling är en ny metod for att ta fram nya läkemedel. Metoden fungerar genom att man bygger läkemedelsmolekyler utifrån mindre fragment som binder till målproteinet. Fragmenten hittar man genom att screena hela bibliotek av olika fragment mot samma målprotein för att urskilja de som binder till proteinets aktiva säte. Fördelen med den här metoden är bl. a. att med mindre molekyler som utgångspunkt kan en större del av antalet möjliga kombinationer av atomer representeras med ett mindre antal fragment än för större molekyler. Normalt utgörs ett fragmentbibliotek enbart av några hundra till några tusen substanser. Eftersom fragmenten är små har de få interaktionspunker och binder relativt svagt. De svaga bindningarna är svåra att se och mycket känsliga metoder behövs.   Svagaffinitetskromatografi är en vätskekromatografisk metod som utvecklades för att studera svaga men mycket selektiva bindningar mellan biomolekyler. Den här avhandlingen syftar till att utveckla metoden för olika användningsområden inom läkemedelsutveckling, främst som en ny metod för fragment-screening. Här mäter man interaktionen mellan ett protein och ett fragment. Proteinet kopplas till ett material som sedan packas i en kolonn i formen av en cylinder. När provet pumpas igenom kolonnen kommer de analyter med affinitet till proteinets aktiva säte att fördröjas på kolonnen i relation till hur starkt de interagerar med målproteinet.   I den här avhandlingen presenteras fragment-screening med svagaffinitetskromatografi gentemot ett antal olika typer av målproteiner. Resultatet överensstämmer väl med andra metoder för fragment-screening. Analys av reaktionsblandningar med svagaffinitetskromatografi demonstreras också. Därmed kan bindningen mellan en produkt i en reaktionsblandning och ett målprotein mätas direkt utan föregående uppreningssteg av reaktionsblandningen. Lipodiskar är små diskformade modellmembran som kan användas för att bl. a. mäta hur effektivt läkemedlet tas upp i kroppen vid behandling. Ett system med immobiliserade lipodiskar i en kolonn utvecklades med det framtida målet att kunna arbeta med membranproteiner med svagaffinitetskromatografi.   Detta arbete utgör en del i att utveckla svagaffinitetskromatografi som en lättillgänglig och relativt billig metod för användning inom industrin och akademin för läkemedelsutveckling.

weak affinity chromatography

fragment based drug discovery

fragment screening

thrombin

trypsin

cyclin G-associated kinase

Hsp90

Pin1

cyclooxygenase

lipodisks

Aspects relating to the occurrence of an inhibitor of tissue plasminogen activator in Erythrina caffra thunb. plants and in vitro cultures.

Meyer, Hendrik Johannes.

18 March 2014

A double sandwich enzyme-linked immunosorbent assay (ELISA) was developed to quantify the proteinaceous inhibitor of tissue plasminogen activator (t-PA) which occur in the tissue of Erythrina caffra Thunb. Using the ELISA the t-PA inhibitor could be detected in nanogramme quantities on the micro titer plate. The concentration of the t-PA inhibitor was determined in different tissues of Erythrina caffra. t-PA inhibitor concentrations in the order of 1 000 microgrammes per gramme protein were found in the seeds. Relatively small quantities of t - PA inhibitor, in the order of 10 to 50 microgrammes per gramme protein, occurred in root, shoot, leaf and living bark material. The t-PA inhibitor was found to accumulate in a similar way to the storage proteins in developing seeds. The accumulation of the inhibitor is at a relatively low level during the early period of seed development but increases exponentially just before the seeds reach their maximum size. The t-PA inhibitor content of the cotyledons decreased drastically during the process of germination and subsequent seedling development. The disappearance of the inhibitor be the result of total degradation of the molecule can or partial proteolysis with the modified molecule still being present in the tissue. An attempt was made to increase the t-PA inhibitor content of excised leaves of Erythrina caffra with protein inducing substances such as polyamines, precursors of ethylene and phytic acid. The protein inducing compounds included cell wall hydrolysates of Erythrina caffra, the marine alga Ecklonia maxima Osbeck (Papenfuss) as well as Lycopersicon esculentum Mill which induced the, synthesis of proteinase inhibitors suggested to be involved in the defense mechanism of plants. None of the substances used, increased the t-PA inhibitor content of excised leaves or in vitro cultures of Erythrina caffra. It is suggested that the t-PA inhibitor is probably not involved in a defense mechanism of Erythrina caffra. A callus and suspension culture derived from shoot tissue was developed to determine the occurrence of the t-PA inhibitor in vitro. The optimal nutrient medium for the growth of callus was the salts and vitamins of MURASHIGE and SKOOG (1962). The medium was supplemented with 3 % sucrose, 0. 1 gramme per litre meso - inositol, 10 micromoles per litre benzyl adenine and 5 micromoles per litre 2,4- dichlorophenoxyacetic acid . Different auxins and cytokinins had a similar growth stimulatory effect on the growth of callus derived from a number of organs of Erythrina caffra. The callus from different organs did however, grow at different rates on the same nutrient medium. Callus derived from leaf, shoot, and cotyledonary tissue grew at similar rates on the nutrient media of MURASHIGE and SKOOG (1962), SCHENK and HILDEBRANDT (1972) and B5 (GAMBORG, MILLER and OJIMA, 1968) despite large differences in the concentration of the nutrients in the three nutri.ent media. The source of nitrogen and ratio of nitrate to ammonium was critical to the growth of callus cultures . The optimal concentration of nitrate and ammonium was 30 millimoles per litre . The growth of callus from different organs was significantly affected by the concentration of sucrose in the nutrient medium. A concentration of 3% was optimal for callus growth. Temperature had a significant effect on the growth of callus. The optimal temperature for callus growth was 25 °C. A shoot cell suspension culture was established and maintained at the same temperature and on the same medium as the callus cultures but with a ten times lower concentration of growth regulators. A low shake speed was essential for the growth of the suspension culture. Maximum growth was obtained at a shake speed of 60 rpm. Relatively low quantities of t-PA inhibitor, in the order of 1 to 5 microgrammes per gramme protein, was detected in the suspension cultures. An attempt was made to increase the t-PA inhibitor content of the suspension cultures with the pro te in i nduc i ng compounds used on excised leaves, but without success. However, the t-PA inhibitor content of the suspension culture was significantly increased with a ten times increase in the sulphate content of the nutrient medium. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1990.

Erythrina--South Africa--Composition.

Fabaceae--South Africa--Composition.

Trypsin inhibitors.

Plant tissue culture.

Theses--Botany.

Effect of α-lactalbumin and β-lactoglobulin hydrolysates on markers of metabolic syndrome

Lagace, Melissa

07 September 2012

The effects of peptides derived from β-lactoglobulin and α-lactalbumin on metabolic syndrome were studied. α-lactalbumin and β-lactoglobulin were hydrolyzed with trypsin, alcalase, flavourzyme, or a combination of alcalase and flavourzyme and fractionated. Angiotensin coverting enzyme inhibition of the < 1 kDa fraction of alcalase hydrolyzed β-lactoglobulin was 95 %. Antioxidant activity of the < 1 kDa fraction of β-lactoglobulin hydrolyzed with a combination of alcalase and flavourzyme was 18 %. Stimulated adipocytes incubated with the < 1 kDa fraction of β-lactoglobulin hydrolyzed with either trypsin or alcalase produced 30 pg/mL of interleukin 6. Adiponectin and glucose transporter type 4 secretions increased 1.1 and 0.86 fold respectively during incubation with the < 1 kDa fraction of β-lactoglobulin hydrolyzed with a combination of alcalase and flavourzyme. Results indicate that β-lactoglobulin peptides formed with alcalase and a combination of alcalase and flavourzyme influence markers associated with metabolic syndrome and may be useful as functional foods or nutraceuticals.

metabolic

whey

inflammation

hypertension

diabetes

hydrolysis

syndrome

lactalbumin

lactoglobulin

interleukin

adipocyte

macrophage

glucose

adiponectin

alcalase

flavourzyme

trypsin

oryzae

lichenformis

peptide

Effect of α-lactalbumin and β-lactoglobulin hydrolysates on markers of metabolic syndrome

Lagace, Melissa

07 September 2012

The effects of peptides derived from β-lactoglobulin and α-lactalbumin on metabolic syndrome were studied. α-lactalbumin and β-lactoglobulin were hydrolyzed with trypsin, alcalase, flavourzyme, or a combination of alcalase and flavourzyme and fractionated. Angiotensin coverting enzyme inhibition of the < 1 kDa fraction of alcalase hydrolyzed β-lactoglobulin was 95 %. Antioxidant activity of the < 1 kDa fraction of β-lactoglobulin hydrolyzed with a combination of alcalase and flavourzyme was 18 %. Stimulated adipocytes incubated with the < 1 kDa fraction of β-lactoglobulin hydrolyzed with either trypsin or alcalase produced 30 pg/mL of interleukin 6. Adiponectin and glucose transporter type 4 secretions increased 1.1 and 0.86 fold respectively during incubation with the < 1 kDa fraction of β-lactoglobulin hydrolyzed with a combination of alcalase and flavourzyme. Results indicate that β-lactoglobulin peptides formed with alcalase and a combination of alcalase and flavourzyme influence markers associated with metabolic syndrome and may be useful as functional foods or nutraceuticals.

metabolic

whey

inflammation

hypertension

diabetes

hydrolysis

syndrome

lactalbumin

lactoglobulin

interleukin

adipocyte

macrophage

glucose

adiponectin

alcalase

flavourzyme

trypsin

oryzae

lichenformis

peptide

Designing functional magnetic nanoparticles with flame spray pyrolysis for bio-applications

Li, Dan, Chemical Sciences & Engineering, Faculty of Engineering, UNSW

January 2009

Magnetic nanoparticles (MNPs) hold great promise in the fields of biology and medicine. The synthesis of functional MNPs with precisely controlled crystallographic, physicochemical, and magnetic properties on a large scale still remains the challenge today. This thesis reports the exploration of liquid-fed flame spray pyrolysis (FSP) in the synthesis of functional MNPs, their surface modifications, and potential bio-applications. Superparamagnetic and ferromagnetic maghemite (γ-Fe2O3) nanoparticles, and silica-coated maghemite (SiO2/γ-Fe2O3) nanocomposites were synthesised using FSP. The size of γ-Fe2O3 was controllable from 6 to 53 nm, with morphology evolving from a disordered near-spherical shape to fully ordered 2-D hexagonal/octagonal platelet. The saturation magnetisation (Ms) increased from 21 to 74 emu/g with increasing particle size, up to 13 nm when Ms approached the bulk γ-Fe2O3 characteristics. In the case of SiO2/γ-Fe2O3, three distinct morphologies, namely the single segregated γ-Fe2O3 core- SiO2 shell, transitional mixed morphologies, and multi γ-Fe2O3 cores embedded in submicron SiO2 shell, were obtained. The core size, composite size, and morphology of γ- Fe2O3 were tunable by varying %SiO2 loading and the use of a quartz tube enclosure during flame synthesis. The magnetic behaviour correlated well with the crystal microstructure. Following the core particle design, protein adsorption-desorption behaviour on FSP-madeMNPs was studied. Bovine serum albumin (BSA) adsorption was found to follow the Langmuir isotherm, with high binding capacities (150−348 mg BSA/g particle) and fast association constants. Electrostatically governed BSA orientations were proposed for different particle-buffer systems. The adsorbed BSA was effectively recovered by pH-shift using K2HPO4. Subsequently, terminal amine, aldehyde, carboxylic, epoxy, mercapto and maleimide functionality were anchored onto the FSP-made γ-Fe2O3 particles. These versatile functional groups led to conjugation of active trypsin. The immobilised trypsin exhibited superior durability with >60% residual activity after one week, and excellent reusability for >5 cycles. The trypsin-conjugated MNPs are promising carriers in proteomics, demonstrating good substrate specificity with equivalent or better sequence coverage compared to free trypsin in insulin and BSA digestion. In another application, a refined silanisation procedure simultaneously reduced γ-Fe2O3 to Fe3O4, and generated thiol enriched surface for matrix metalloproteinase-2 (MMP-2) conjugation. The highly active MMP-2-conjugated MNPs could potentially enhance the interstitial transport of macromolecule/nanoparticles in drug delivery.

flame spray pyrolysis

magnetic particles

functionalisation

particle characterisation

iron oxide nanoparticles

silica coated magnetic particles

bovine serum albumin

silane

trypsin