Miniaturized Techniques for Protein Analysis

Sjödahl, Johan

January 2004

Proteins are a highly diversified group of molecules, andfor their study, advanced analytical tools are required. Inparticular, a need for high-throughput techniques has emergedin order to enable the characterization of large sets ofproteins. In this thesis, improved techniques for proteinseparations as well as new tools for the mass spectrometricanalysis of proteins are described. In the work, presented in the first part of the thesis, arefined extract containing proteases from Antarctic krill (Euphausia superba) was separated and characterized bymeans of capillary electrophoresis (CE) and mass spectrometry(MS). Tailored CE separations of the krill extract revealed thepresence of approximately 50 components. In addition, adetailed CE and MS analysis of fractions, containing individualkrill proteases has been carried out. Trypsin-like proteasesfrom krill exhibited a 12-fold and a 60-fold higher digestionefficiency at 37 °C and 2 °C respectively compared todigests performed with bovine trypsin. Furthermore, thecleavage specificity of the trypsin-like proteases wasstudied. In the last part of the thesis, novel concepts forchip-based nanoelectrospray (nanoESI) and matrix-assisted laserdesorption/ionization (MALDI) mass spectrometry are described.First, a micromachined silicon chip with a two-dimensionalmatrix of out-ofplane nanoESI needles for high-throughputanalysis was fabricated. A two-fold improvement insignal-to-noise reproducibility was obtained. Second, achip-based target for MALDI was developed, which featured pairsof elevated 50×50 µm anchors in close proximity. Theanchors were individually addressable with sample solution. Theminiaturized sample preparations at close distance to eachother allowed a simultaneous ionization of a physicallyseparated sample and standard by one single laser pulse. Thisresulted in a twofold reduction of relative mass errors.Moreover, ion suppression of the analyte was significantlyreduced. The effective utilization of the sample resulted in adetection limit of ca 200 zeptomole of angiotensin I. Key words:Proteins, peptides, proteases, Antarctickrill,Euphausia superba, capillary electrophoresis,fluorosurfactants, mass spectrometry, nanoelectrospray, ESI,MALDI, chip, high-throughput, reproducibility, sensitivity andmass accuracy.

Proteins

peptides

proteases

Antarctic krill

Euphausia superba

capillary electrophoresis

fluorosurfactants

mass spectrometry

nanoelectrospray

ESI

MALDI

chip

high-throughput

reproducibility

sensitivity

mass accuracy

Novel Metal-Mediated Organic Transformations : Focusing on Microwave Acceleration and the Oxidative Heck Reaction

Enquist, Per-Anders

January 2006

Transition metals have played an important role in synthetic organic chemistry for more than a century, and offer catalytic transformations that would have been impossible with classical chemistry. One of the most useful and versatile of the transition metals is palladium, which over the years has catalyzed many important carbon-carbon forming reactions. Popular cross-coupling reactions such as the Suzuki, Stille and the Heck reaction are all catalyzed by palladium, or more correctly, by palladium in its ground state, Pd(0). Recently, interest in palladium(II)-catalyzed transformations has started to grow, partly due to the development of the vinylic substitution reaction, commonly called the oxidative Heck reaction, presented in this thesis. This Pd(II)-catalyzed, ligand-modulated reaction occurs under air at room temperature, and for the first time a general protocol employing a wide range of olefins and arylboronic acids was obtained. Ligand screening showed that the bidentate nitrogen ligand, 2,9-dimethyl-1,10-phenanthroline (dmphen), was the most suitable ligand. Dmphen is believed to facilitate regeneration of active Pd(II), increase catalytic stability and improve the regioselectivity in the reaction. A mechanistic investigation was conducted using electrospray ionization mass spectrometry (ESI-MS), making it possible to observe cationic intermediates in a productive oxidative Heck arylation. The results obtained are in agreement with the previously proposed catalytic cycle. The emerging discipline of high-speed synthesis is making contributions to society’s growing demand for new chemical entities. This inspired the development of two ultrafast, microwave-accelerated carbonylation reactions with dicobalt octacarbonyl acting both as an in situ carbon monoxide supplier and reaction mediator. A wide range of symmetrical benzophenones was produced in only 6 to 10 s, using aryl iodides as the substrate. The second carbonylation reaction provided symmetrical and unsymmetrical ureas in process times ranging from 10 s to 40 minutes using primary and secondary amines.

Organic chemistry

palladium(II)

oxidative Heck reaction

high-throughput-chemistry

microwave acceleration

dicobalt octacarbonyl

in situ carbonylation

urea

diaryl ketones

ESI-MS

Organisk kemi

Spéciation dans les phases organiques des systèmes d'extraction liquide-liquide contenant un malonamide et un acide dialkylphosphorique

Muller, Julie

25 May 2012

Le but de la thèse est d'améliorer la compréhension des équilibres chimiques mis en jeu lors de l'extraction des actinides(III) et des lanthanides(III) dans le procédé hydrométallurgique DIAMEX-SANEX de retraitement du combustible nucléaire usé. Il s'agit de décrire au mieux les différents équilibres chimiques pour améliorer la modélisation des propriétés extractantes de ce procédé. La phase organique est constituée d'un mélange d'extractants : un malonamide, le DMDOHEMA, et un acide dialkylphosphorique, le HDEHP, dilués dans un alcane. Ce mélange extractant présente un comportement singulier comparé au comportement des deux extractants seuls. On observe un effet synergique vis-à-vis de l'extraction d'Eu(III) et Am(III) en milieu acide (HNO3 ≈ 1 mol/L en phase aqueuse) et un effet antagoniste à faible acidité (pH < 1). Dans le but de comprendre ce comportement, des études de spéciation moléculaires ont été réalisées après extraction de Ln(III) et Am(III) par diverses techniques spectroscopiques complémentaires (spectrométrie de masse à ionisation électrospray, spectroscopie IR, spectrométrie RMN, spectrofluorimétrie laser à résolution temporelle, spectrophotométrie UV-Visible) mais également par des calculs de chimie quantique pour optimiser la géométrie des complexes formés. Les différentes techniques ont montré l'existence de complexes mixtes incluant les deux extractants, thermodynamiquement plus stables que les complexes unitaires, permettant d'expliquer la synergie sur l'extraction des cations métalliques. L'existence d'un adduit entre les deux extractants, venant consommer les extractants libres, expliquerait l'effet antagoniste observé à faible acidité.

extraction liquide-liquide

spéciation moléculaire

propriétés extractantes

malonamide

acide dialkylphosphorique

IR

UV-Visible

ESI-MS

RMN

SLRT

Elucidation de la structure des métabolites secondaires d'Hypoxylon fragiforme par spectrométrie de masse haute résolution et réactions ions-molécules en phase gazeuse

Svilar, Ljubica

11 October 2012

Les champignons produisent une grande variété de composés/métabolites biologiquement actifs qui peuvent être utilisés à des fins médicinales et pharmaceutiques. Les mitorubrines, membres de la famille des azaphilones, constituent un ensemble particulièrement intéressant de métabolites secondaires, présentant une grande étendue d'activités biologiques (e.g. antimicrobienne, antibactérienne, antipaludique). Ce travail présente le développement de plusieurs approches de spectrométrie de masse permettant de résoudre la diversité structurelle naturelle et la complexité des azaphilones extraits des champignons Hypoxylon fragiforme. La première partie de ce manuscrit est dédiée au développement et à la validation d'une méthodologie analytique impliquant la chromatographie liquide couplée à la spectrométrie de masse haute résolution pour la détection efficace et précise de traces d'azaphilones dans des extraits fongiques complexes. En outre, des expériences de spectrométrie de masse en mode tandem (par dissociation induite par collision, CID) et d'échange hydrogène/deutérium ont été effectuées pour élucider et caractériser les azaphilones et leurs analogues azotés chez Hypoxylon fragiforme. La deuxième partie est consacrée à l'application de ces différentes stratégies analytiques pour la caractérisation approfondie d'une nouvelle famille de métabolites secondaires dérivés des azaphilones, les mitorubramines. Enfin, ces différents métabolites secondaires ont été purifiés pour confirmer leur structure chimique par spectroscopie RMN

Azaphilone

mitorubramines

Hypoxylon fragiforme

LC-ESI-MS

LTQOrbitrap

MSn

triple quadripole

échanges H/D en phase gazeuse

Contribution à l'étude du lien entre Annonaceae et parkinsonisme : identification et quantification d'acétogénines par déréplication; métabolisation de phase I et approche de la distribution de l'annonacine

Le Ven, Jessica

03 February 2012

Dans les Antilles françaises, une proportion anormalement élevée de parkinsonismes atypiques sporadiques - des tauopathies - est observée. Un lien avec la consommation de plantes de la famille des Annonaceae, en particulier Annona muricata L. (corossol) a été démontré. Les acétogénines d'Annonaceae, des inhibiteurs puissants du complexe I de la chaine respiratoire mitochondriale, sont considérées comme des toxines candidates. L'annonacine, une acétogénine représentative, majoritaire dans A. muricata, est neurotoxique in vitro et in vivo. L'Agence Française de Sécurité Sanitaire des Aliments a exprimé ses doutes quant à ce problème de santé publique. Elle insiste sur l'importance d'évaluer l'exposition des consommateurs d'Annonaceae aux acétogénines, et de déterminer les paramètres pharmacocinétiques de ces molécules. Au cours de cette thèse, nous avons cherché à répondre à ces interrogations, avec l'annonacine pour modèle. Après l'analyse structurale d'acétogénines étalons, une méthode de déréplication puissante et innovante a été mise au point par CLHP-ESI-LTQ-Orbitrap® avec infusion post-colonne de lithium. Les profils complets des acétogénines d'extraits bruts issus d'un nectar d'A. muricata et d'un alcool d'Annona cherimolia Mill. (annone, chérimole) ont été élucidés, mettant en évidence une composition plus complexe et plus variée que celle envisagée dans la littérature. A. cherimolia n'avait pas été identifiée comme une source d'exposition jusqu'à maintenant. Des données quantitatives ont été obtenues par CLHP-DAD-MS, à partir d'une quinzaine d'échantillons de produits commerciaux, confirmant une exposition humaine importante à ces molécules par voie alimentaire, via des produits d'origines géographiques, de statuts et de modes d'obtention variés. Des travaux préliminaires d'étude du passage de l'annonacine à travers des membranes biologiques ont été amorcés (modèles de barrières intestinale - Caco-2 - et hémato-encéphalique - hCMEC/D3). Une étude de métabolisation de phase I de l'annonacine sur microsomes de foie de Rat a permis d'identifier 25 métabolites mono-hydroxylés par CLHP-ESI-LTQ-Orbitrap®. Seuls trois d'entre eux sont observés avec des microsomes humains. Ces métabolites ont été obtenus par hémisynthèse (bioconversion, catalyse par porphyrines) et leur structure a été déterminée. Les résultats montrent que cette étape de métabolisation n'est pas cruciale dans le devenir de l'annonacine, et ne peut expliquer de susceptibilité différentielle aux acétogénines. Après la présentation de rappels concernant les Annonaceae, les parkinsonismes et leurs formes atypiques guadeloupéennes et tropicales, puis d'aspects méthodologiques en spectrométrie de masse, nos travaux de phytochimie analytique, d'analyse métabolique, d'hémisynthèse et de détermination structurale sont présentés, et discutés en regard d'un problème de santé publique potentiellement large et préoccupant.

Acétogénines d'Annonaceae

Annona cherimolia Mill

Annona muricata L

Annonacine

CLHP-ESI-LTQ-Orbitrap®

Déréplication

Parkinsonisme atypique

Nerotoxine environnementale

Metal-Assisted Hydrolysis of Biological Molecules

Cepeda, Sarah Shealy

28 April 2009

In Chapter I is a general description of novel metal complexes which hydrolytically cleave peptides, proteins, DNA, and other biological molecules. These reagents are becoming the more important as potential therapeutic agents. A panel of ligands was investigated for coordination to ZrIV and other metals in groups 4, 5, and 6 to effect the greatest degree of hydrolysis. Chapter II describes a ZrIV complex which is capable of hydrolyzing a 30 amino acid peptide, insulin chain B, with amino acid specificity. Oxidized insulin chain B peptide was hydrolyzed after only 4 h of treatment at pH 7.0 and 60 °C using ZrCl4 in the presence of 4,13-diaza-18-crown-6. MALDI-TOF and ESI LC-MS mass spectra indicated that insulin chain B was hydrolyzed by ZrIV at the Gly8-Ser9, Ser9-His10, and Gly20-Glu21 amide bonds within the oligopeptide. To our surprise, the cysteine sulfonic acid sequences Cys(SO3H)7-Gly8 and Cys(SO3H)19-Gly20 were also cleaved. To the best of our knowledge, this constitutes the first example of metal-assisted hydrolysis of a Cys(SO3H)-Xaa amide bond. This is significant in light of the fact that cysteine sulfonic acid formation in proteins is triggered by oxidative stress and has been associated with amyloid fibril formation, Parkinson’s disease, and other deleterious, physiological processes. Chapter III describes the metal-assisted hydrolysis of sphingomyelin which is a principle phospholipid component of animal cell membranes. The sphingomyelin assays showed evidence of metal-assisted hydrolysis after 20 h of treatment at lysosomal pH 4.8 and cytosolic pH 7.0 at both physiological temperature 37 °C and 60 °C. The metal ion CeIV was the most reactive, followed by ZrIV, and then HfIV. The goal of this work is to develop metal-based reagents to reverse the lethal build-up of sphingomyelin that occurs in lysosomes of patients suffering from Niemann-Pick disease.

ESI-MS

Sphingomyelin

Cholesterol

Vesicle

Micelle

Triton X-100

MALDI-TOF

Metals

Zirconium(IV)

Insulin chain B

Cleavage

Cerium(IV)

Hydrolysis

Chemistry

Proteome Analysis Of Blumeria Graminis F. Sp. Hordei Inoculated Barley

Ozgazi, Nese

01 September 2009

Blumeria graminis f. sp. hordei is a biotroph pathogen that causes powdery mildew disease in barley. In this study, Pallas01 and Pallas03 barley lines having Mla1, Ml (Al2) and Mla6, Mla14 R-genes were inoculated with Bgh103(64/01) race of the Blumeria graminis f. sp. hordei having avirulence and virulence to Pallas01 and Pallas03, respectively. The proteins were isolated from the three biological replicates of 12, 24, and 48 hpi samples following the method in Rampitsch et al., 2006. These there biological replicates of three time points together with the mock inoculated plant proteins were separated on 2D-PAGE using IPG strips of 4-7 pH values as three technical replicates, resulting 108 gels. The gels were analyzed using PdQuest (Bio Rad) in order to assess up- or down-regulated protein spots by comparing against controls and the samples having resistance or susceptible responses with each other. According to the analysis, 36 proteins were found to be differentiated and among them 18 proteins were found up-regulated and 8 proteins were found down-regulated. The spots were manually v excised and subjected to the nano-LC-ESI-MS/MS analysis (Proteome Factory, Germany). The MASCOT algorithm was used for identification of the possible proteins. The experimental pI and MW values were used for selecting the differentiated proteins from the mass results. The relative abundance of each of the 38 identified polypeptides was calculated in terms of spot intensity. The majority of the most abundant proteins were found to be carbohydrate metabolism related. The relative distribution of the proteins into four main functional categories was taken into consideration. Statistical tests (Students&amp / #8223 / T-test) were carried among the identified proteins in order to reveal statistically significant proteins throughout the study. By making a WoLF PSORT search, subcellular localization of the proteins was predicted. Accordingly, most of the proteins were found to be located in cytoplasm or chloroplast.

QH Genetics 426-470

Mass Spectrometric Sequencing Of Acyclic And Cyclic Peptides

Sabareesh, V

08 1900

Elucidation of the primary structure of peptides and proteins de novo by mass spectrometry (MS) has become possible with the advent of tandem MS methods. The most widely used chemical method due to Edman (Edman & Begg, 1967) has shortcomings with regard to N- terminal blocked peptides, cyclic peptides and posttranslational modifications, for example phosphorylation (Metzger, 1994). However, mass spectrometric sequencing methods are increasingly becoming applicable for a variety of peptides and proteins, including N- and C- termini modified peptides and cyclic peptides (Jegorov et al., 2003; Sabareesh & Balaram, 2006; Sabareesh et al., 2007). Further, conventional and tandem mass spectrometry have proven useful in the detection of post-translational modifications (Hansson et al., 2004; Nair et al., 2006; Mandal et al., 2007). This thesis details mass spectrometric sequencing of acyclic and cyclic peptides, involving tandem MS methods carried out using both electrospray ionization (ESI) ion trap (Esquire 3000 plus, Bruker Daltonics) and matrix assisted laser desorption and ionization time-of-flight/time-of-flight (MALDI TOF/TOF) (Ultraflex TOF/TOF, Bruker Daltonics) instruments. The peptides are either chemically synthesized or isolated from diverse natural sources. Synthetically designed peptides possessing modified N- and C- termini and peptaibols from the soil fungus Trichoderma constitute the acyclic peptides. The cyclic peptides include backbone cyclized depsipeptides from the fungus Isaria and disulfide bonded peptides from the venom of marine cone snails. Chapter 1 gives an account of various concepts of mass spectrometry, tandem mass spectrometry and peptide fragmentation chemistry, providing necessary background information for the following chapters. Chapter 2 describes the fragmentation studies of [M + H]+ and [M + Na]+ adducts of six neutral peptides with blocked N- and C- termini investigated using an electrospray ion trap mass spectrometer. The N- terminus of these synthetically designed peptides is blocked with a tertiarybutyloxycarbonyl (Boc) group and the C- terminus is esterified. These peptides do not possess sidechains that are capable of complexation and hence the backbone amide units are the sole sites of protonation and metallation. The cleavage pattern of protonated adducts is strikingly different from that of sodium adducts. While the loss of the N- terminal blocking group happens quite readily in the case of MS/MS of [M + Na]+, the cleavage of C- terminal methoxy group seems to be a facile process in the case of MS/MS of [M + H]+. Fragmentation of the protonated adducts yields only bn ions, while yn and an type ions are predominantly formed from the fragmentation of sodium adducts. The an ions arising from the fragmentation of [M + Na]+ lack the N-terminal Boc group (termed as an*). MS/MS of [M + Na]+ species also yields bn ions of substantial lower intensities, that lack the N- terminal Boc group (bn*). Comparison of the fragmentation of [M + H]+ with [M + Na]+ of the peptides chosen in this study reveal that the combined use of both protonated and sodium adducts should prove useful in de novo sequencing of peptides that possess modified N- and C- termini, particularly naturally occurring neutral peptides, for example, peptaibols. Chapter 3 describes about the ESI-MS/MS investigation of an HPLC fraction from the soil fungus Trichoderma, which aided in identification of microheterogeneous trichotoxin peptaibols in that fraction. Dramatic differences were noted between the fragmentation spectra of [M + H]+ and [M + Na]+ species. While b-type ions were noted from the former, the latter yielded a-, b-and y- type ions (the same feature was noted in the cases presented in the previous chapter). Inspection of the isotope pattern of b-ions yielded from the dissociation of H+ species, clearly revealed the presence of three microheterogeneous trichotoxin sequences; two isobars (1718 Da), each possessing one Glu residue and another completely neutral peptide (1717 Da). The microheterogeneity is due to Gly ↔ Ala, Iva ↔ Aib and Gln ↔ Glu replacements and exchanges (Iva: DIva: R-Isovaline; Aib: α-aminoisobutyric acid). The MS/MS of [M + Na]+ adduct predominantly yielded product ions from the neutral peptaibol. Further, the fragmentation patterns of H+ and Na+ adducts of two N-acetyl peptide esters were found to be very similar to that of the neutral peptaibol component. The results presented in this chapter establish that under the electrospray ion trap conditions, the fragmentation patterns of the H+ and Na+ adducts of model peptides that possess modified N- (Boc and acetyl) and C- termini are indeed very similar to that of the neutral trichotoxin. Chapter 4 delineates the applicability of liquid chromatography coupled to conventional and tandem electrospray ionization mass spectrometry (LC-ESI-MS, LC-ESI-MS/MS, LC-ESI-MS3) for the screening of novel cyclic hexadepsipeptide metabolites directly from the crude hyphal extract of the fungus Isaria. The fungal strain was grown on a solid medium (potato carrot agar), which yields aerial hyphae growing erect from the basal mycelial colony (Ravindra et al., 2004). A total of ten microheterogeneous components were identified to belong to the isariin class of cyclodepsipeptides from the LC-ESI-MS and LC-ESI-MS/MS analysis of the crude hyphal extract. Out of ten, six are determined to be new and the remaining four are previously reported isariins A-D. The primary structures of isariins A-D were from the fungi Isaria cretacea and Isaria felina (Vining & Taber 1962; Deffieux et al., 1981) and the fungal strain used in this study resembles Isaria felina (Sabareesh et al., 2007). Isariins are backbone cyclized hexadepsipeptides composed of a D-β-hydroxy acid possessing a hydrocarbon sidechain and five α-amino acids; one of the α-amino acids is a D-amino acid (Vining & Taber 1962; Deffieux et al., 1981). The detection of fragment ions due to loss of CO concomitant with the loss of H2O from the protonated precursor ion ([M + H]+) ascertained the cyclic depsipeptide nature of both the known and the new components. The fragmentation behavior of the [M + H]+ of known isariins facilitated sequence determination of the new components. Therefore, the configuration of the amino acids and the β-hydroxy acid of the new components is assumed to be same as that of the reported peptides. The microheterogeneity of the ten sequences is due to changes in the D-β-hydroxy acid (residue 1) and the adjoining α-amino acid (residue 6), whose carbonyl is linked to the hydroxyl function by an ester linkage. The number of methylene units ((-CH2)n) in the hydrocarbon sidechain of the residue 1 differs between 2 and 8 and the variability of the residue 6 is limited to Ala/Val. The ester oxygen atom was chosen as the preferable site of protonation causing ring-opening, based on the observed distribution of the fragment ions. Chapter 5 demonstrates the utility of the LC-ESI-MS and LC-ESI-MS/MS methods in the identification and characterization of six microheterogeneous backbone cyclized hexadepsipeptides, isaridins, directly from the crude hyphal extract of the fungus Isaria. Among the six components, four were found to be novel. The other two peptides, isaridins A and B were identified earlier from this laboratory (Ravindra et al., 2004). The isaridins are characterized by the presence of unusual amino acids such as N-methylated residues, β-methylproline (β-MePro) and hydroxyleucine (HyLeu) (Ravindra et al., 2004). The cyclic nature of both the known and the new peptides were confirmed from the observation of peaks due to loss of CO and H2O from the protonated precursor ion ([M + H]+). However, unlike isariins (Chapter 4), the intensity of the peak corresponding to [M + H - H2O]+ was noted to be of very low intensity, in the case of isaridins. Detection of product ion peak due to [M + H - CO2]+ suggests an additional dissociation pathway involving cleavage at the depsipeptide linkage and is supportive of the cyclic depsipeptide nature (Eckart, 1994). The sequencing of the newly detected components was enabled by understanding the fragmentation mechanism of the known isaridins. The tertiary amide nitrogens of the N-methylated residues were regarded as the preferable sites of protonation leading to ring-opening, as noted from the fragmentation spectra. The microheterogeneity in the sequences was identified using the diagnostic product ions obtained from the protonated precursor of the known isaridins. The microheterogeneity can be attributed to the variations of two residues; Pro ↔ β-MePro and N-MePhe ↔ N-MeLxx (Lxx: Leu, Ile, alloIle). The recently reported ‘isarfelins’ from the fungus Isaria felina (Guo et al., 2005) were reassigned as ‘isaridins’. The reassignment was based on very similar fragmentation profiles observed for the [M + Na]+ adduct of isaridins and isarfelins; further, the fungal strain used in this study resembles Isaria felina (Sabareesh et al., 2007). Chapter 6 presents mass spectrometric sequencing of disulfide bonded peptides from marine cone snails (conopeptides), using the MALDI LIFT MS/MS method. Lo959, a single disulfide bonded octapeptide isolated from Conus loroisii, was identified to belong to the class of contryphans (Sabareesh et al., 2006). Contryphans are small single disulfide bonded conopeptides, whose length is in the range of 7-11 residues and are rich in tryptophan. A significant feature of the contryphans is the presence of conserved DTrp (DW) at the 3rd residue within the disulfide loop (Sabareesh et al., 2006). Lo959 displays an unusual behavior under reverse phase chromatographic conditions, typical of the DW containing contryphans (Jacobsen et al., 1998). It undergoes slow conformational interconversion on the chromatographic time scale exhibiting two distinct peaks. The presence of DW at the 4th position in Lo959 was established by comparing the chromatographic profiles of natural peptide with that of two chemically synthesized peptides, one containing LW (4) and another possessing DW (4). De novo sequencing of the two peptides Ar1446 and Ar1430 from Conus araneosus established that they belonged to M-superfamily of conotoxins, in particular m-2 branch. M-superfamily conotoxins are three-disulfide bonded peptides characterized by the consensus cysteine framework, CC…C…C…CC (Corpuz et al., 2005). Ar1446 and Ar1430 are fourteen residue long peptides, each possessing three disulfide bonds. The peptides have the cysteine scaffold typical of the M-superfamily, as shown above. Specifically, the peptides belong to m-2 branch of M-superfamily, where the fourth and fifth cysteines are separated by two residues (Corpuz et al., 2005). The sequences of the peptides were derived following chemical and enzymatic modifications. The carboxamidomethylation reaction established the presence of three disulfide bonds. Indeed, the sequences were deduced from the MALDI LIFT MS/MS of [M + H]+ of the tryptic peptides. The sequences of the two peptides are almost identical and they differ only at residue 12; hydroxyproline in Ar1446, proline in Ar1430.

Peptides - Mass Spectrometry

Peptides - Fragmentation

Tandem Mass Spectrometry

Cyclic Peptides

Acyclic Peptides

Electrospray Ionization (ESI)

Conus Araneosus

Isaria

Natural Peptides

Biochemistry

Miniaturized Techniques for Protein Analysis

Sjödahl, Johan

January 2004

<p>Proteins are a highly diversified group of molecules, andfor their study, advanced analytical tools are required. Inparticular, a need for high-throughput techniques has emergedin order to enable the characterization of large sets ofproteins. In this thesis, improved techniques for proteinseparations as well as new tools for the mass spectrometricanalysis of proteins are described.</p><p>In the work, presented in the first part of the thesis, arefined extract containing proteases from Antarctic krill (<i>Euphausia superba</i>) was separated and characterized bymeans of capillary electrophoresis (CE) and mass spectrometry(MS). Tailored CE separations of the krill extract revealed thepresence of approximately 50 components. In addition, adetailed CE and MS analysis of fractions, containing individualkrill proteases has been carried out. Trypsin-like proteasesfrom krill exhibited a 12-fold and a 60-fold higher digestionefficiency at 37 °C and 2 °C respectively compared todigests performed with bovine trypsin. Furthermore, thecleavage specificity of the trypsin-like proteases wasstudied.</p><p>In the last part of the thesis, novel concepts forchip-based nanoelectrospray (nanoESI) and matrix-assisted laserdesorption/ionization (MALDI) mass spectrometry are described.First, a micromachined silicon chip with a two-dimensionalmatrix of out-ofplane nanoESI needles for high-throughputanalysis was fabricated. A two-fold improvement insignal-to-noise reproducibility was obtained. Second, achip-based target for MALDI was developed, which featured pairsof elevated 50×50 µm anchors in close proximity. Theanchors were individually addressable with sample solution. Theminiaturized sample preparations at close distance to eachother allowed a simultaneous ionization of a physicallyseparated sample and standard by one single laser pulse. Thisresulted in a twofold reduction of relative mass errors.Moreover, ion suppression of the analyte was significantlyreduced. The effective utilization of the sample resulted in adetection limit of ca 200 zeptomole of angiotensin I.</p><p><b>Key words:</b>Proteins, peptides, proteases, Antarctickrill,<i>Euphausia superba</i>, capillary electrophoresis,fluorosurfactants, mass spectrometry, nanoelectrospray, ESI,MALDI, chip, high-throughput, reproducibility, sensitivity andmass accuracy.</p>

Proteins

peptides

proteases

Antarctic krill

Euphausia superba

capillary electrophoresis

fluorosurfactants

mass spectrometry

nanoelectrospray

ESI

MALDI

chip

high-throughput

reproducibility

sensitivity

mass accuracy

Identification et caractérisation des principaux fragments du collagène de type II du cartilage équin, produit in vitro par l'enzyme cathepsine K

Théroux, Kathleen

12 1900

La dégradation protéolytique du collagène de type II est considérée comme étant un facteur majeur dans le processus irréversible de dégradation de la matrice cartilagineuse lors d’ostéoarthrose. Outre les collagénases de la famille des métaloprotéinases de la matrice (MMP-1, -8, -13), la cathepsine K est parmi les seules enzymes susceptibles de dégrader la triple hélice intacte du collagène de type II, devenant ainsi un élément pertinent pour les recherches sur l’ostéoarthrose. L’objectif à court terme de notre étude consiste en l’identification et la caractérisation de sites de clivage spécifiques de la cathepsine K sur le collagène de type II équin. La technique d’électrophorèse SDS-PAGE 1D permet la visualisation des produits de digestion et la validation des résultats de la caractérisation moléculaire des fragments protéolytiques. La caractérisation est réalisée en combinant la digestion trypsique précédant l’analyse HPLC-ESI/MS. Les résultats ont permis d’établir les sites, présents sur la carte peptidique de la molécule de collagène de type II équin, des 48 résidus prolines (P) et 5 résidus lysines (K) supportant une modification post-traductionnelle. De plus, 6 fragments majeurs, différents de ceux produits par les MMPs, sont observés par SDS-PAGE 1D puis confirmés par HPLC-ESI/MS, correspondant aux sites suivants : F1 [G189-K190], F2 [G252-P253], F3 [P326-G327], F4 [P428-G429], F5 [P563-G564] et F6 [P824-G825]. Le fragment F1 nouvellement identifié suggère un site de clivage différent de l’étude antérieure sur le collagène de type II bovin et humain. L’objectif à long terme serait le développement d’anticorps spécifiques au site identifié, permettant de suivre l’activité protéolytique de la cathepsine K par immunohistochimie et ÉLISA, dans le cadre du diagnostic de l’ostéoarthrose. / The proteolytic degradation of type II collagen is believed to be mainly an irreversible event in the process of cartilage matrix degradation in osteoarthritis. Cathepsin K is the most active enzyme protease outside the matrix metalloproteinase (MMP) family (MMP 13, -8, -1) capable of degrading the intact triple helical type II collagen. The short term objective of our study was to characterize the specific cleavage sites of CK on type II collagen. Our long term goal is to develop antibodies specific to these sites to develop biomarkers to detect it’s cleavage, for the early diagnosis of OA. Thus, in order to achieve our first goal, Cathepsin K cleavage of equine type II collagen was first examined by SDS-PAGE electrophoresis. Molecular characterization of proteolytic fragments, and therefore cleavage sites, was performed using tryptic digestion followed by LC-ESI/MS analysis to establish a comprehensive peptide map which was used as a template to identify specific proteolytic cleavage by cathepsin K. Comprehensive peptide mapping provided information on post-translational modifications and permitted the identification of 48 proline (P) and 5 lysine (K) residues that were subject to post translational modification. Six major fragments were observed on 1D SDS-PAGE and confirmed by HPLC-ESI/MS including F1 [189-190], F2 [252-253], F3 [326-327], F4 [428-429], F5 [563-564] and F6 [824-825]. The observed F1 fragment showed that cleavage was three residues N-terminal to the site reported previously for bovine type II collagen. These new findings will be used to develop new analytical methods to quantify biomarkers associate to equine type II collagen degradation in osteoarthritis patient and/or to support the development of new treatments.

Cathepsine K

Cathepsin K

Cheval

Horse

Collagénase

Collagène de type II

Type II collagen

HPLC-ESI/MS

Ostéoarthrose

Osteoarthritis

Peptides