Relations fonctionnelles entre les voies des hormones thyroïdiennes et WNT dans la physiopathologie intestinale : étude de la fonction de sFRP2 / Functional relations between the thyroïd hormones and WNT pathways in the intestinal physiopathology : study of sFRP2 function

Skah, Seham

27 September 2012

L'épithélium intestinal est un tissu en constant renouvellement, grâce à des cellules souches somatiques présentes dans les cryptes intestinales. Le renouvellement perpétuel et l’homéostasie de ce tissu sont assurés par plusieurs réseaux de signalisation. Il est maintenant admis que la dérégulation de ces mêmes voies est impliquée dans le processus d’initiation et/ou de progression tumorale. Mon laboratoire a décrit l'implication des hormones thyroïdiennes (HT) et de leur récepteur nucléaire TRα1 dans le contrôle de l'homéostasie intestinale, via la régulation de la voie Wnt, jouant un rôle clé dans la physiopathologie de ce tissu. Plus précisément, TRα1 active l’expression et la stabilisation de β-caténine via un mécanisme impliquant le facteur sFRP2. Au cours de ma thèse, j’ai participé, d’une part à l’étude de souris transgéniques surexprimant TRα1 dans l’épithélium intestinal et à l’analyse des mécanismes moléculaires de la régulation croisée entre TRα1 et la voie Wnt canonique dans l’induction des tumeurs intestinales. Nous avons donc démontré un rôle oncogénique de TRα1 dans l’épithélium intestinal. De plus, le mécanisme moléculaire et fonctionnel implique les deux effecteurs de la voie canonique, β-caténine et TCF4. D’autre part, j’ai analysé la fonction de sFRP2 dans la physiopathologie intestinale, et son action sur la voie Wnt. D’une manière intéressante, l’étude de la fonction de sFRP2 nous a permis de révéler son rôle original dans la différenciation des cytotypes épithéliaux. De plus, nous avons montré que sFRP2 est un modulateur positif des voies Wnt canonique et non canonique (JNK). Par ailleurs, l’absence d’expression de sFRP2 a pour conséquence d’augmenter l’apoptose dans les cryptes intestinales et ainsi diminuer le nombre de tumeurs chez des animaux double mutants sFRP2-/-/Apc+/1638N comparé aux simple mutants Apc+/1638N. Ces résultats fournissent des éléments originaux et importants sur les relations fonctionnelles entre les voies des HT et Wnt. / The intestinal epithelium is a tissue constantly renewing through somatic stem cells located within the crypts. Several signalling pathways control this process and the homeostasis in this tissue. It is now recognized that the deregulation of these pathways is involved in the process of initiation and/or progression of intestinal tumors. My laboratory has described the involvement of thyroid hormones (TH) and their nuclear receptor TRα1 in the control of the intestinal homeostasis via the regulation of Wnt pathway, which plays a key role in the intestinal physiopathology. Specifically, TRα1 directly activates the expression of β-catenin and controls its stabilization through a mechanism involving sFRP2 (secreted frizzled-related protein 2). During my thesis, I participated to the characterization of transgenic mice overexpressing TRα1 in the intestinal epithelium. Moreover, I have been involved in the study of the molecular mechanisms of the cross-regulation between TRα1 and the canonical Wnt in the induction of intestinal tumors. We have therefore demonstrated an oncogenic role of TRα1 in the intestinal epithelium. In addition, the molecular and functional mechanisms involve both effectors of the canonical pathway, β-catenin and TCF4. On the other hand, I carried out the study of sFRP2 function in the intestinal physiopathology, and its action on the Wnt pathway. My data strongly suggest that sFRP2 plays an essential role in the differentiation of epithelial cytotypes. In addition, we showed that sFRP2 is a positive modulator of the canonical and non-canonical (JNK) Wnt. For instance, the absence of sFRP2 expression increases the apoptosis in the intestinal crypts and thus reduces the number of tumors in the double mutant sFRP2-/-/Apc+/1638N compared to simple mutant Apc+/1638N. These results provided original and important data of the functional relationships between TH and Wnt pathways.

Physiopathologie intestinale

Hormones thyroïdiennes (HT)

Récepteur nucléaire TRα1

Voie Wnt canonique (Wnt/β-caténine)

Voie Wnt non canonique (JNK)

Intestinal physiopathology

Thyroid Hormones (TH)

Thyroid Receptor TRα1

Canonical Wnt pathway (Wnt/β-catenin)

Non-canonical Wnt pathway (JNK)

Synthèse en parallèle d’hétérocycles dérivés de séquences dipeptidiques et profil d’activité inhibitrice sur les phospholipases A2 sécrétées

Venin, Claire

24 September 2013

Le squelette 1,3,5-triazépane-2,6-dione est un hétérocycle à sept chainons dérivé de dipeptides et accessible en quatre étapes en solution. Une voie de synthèse en parallèle sur support solide de cet hétérocycle a été élaborée. Cette synthèse, qui repose sur les principes de "catch and release" et de cyclo-clivage, a permis la création d’une chimiothèque de plus d’une centaine de composés. Pour augmenter la diversité du squelette 1,3,5-triazépane-2,6-dione, des modifications post-cyclisation peuvent avoir lieu telles que des réactions de N-mono-alkylation ou de N,N-di-alkylation de l’urée, des réactions d’acylation ou bien des réactions de thionation des fonctions carbonyles. De même, la synthèse des cycles analogues aux 1,3,5-triazépane-2,6-diones des tailles plus importantes a été examinée conduisant à l’obtention de plusieurs macrocycles.Les 1,3,5-triazépane-2,6-diones présentent un fort potentiel pour la recherche de molécules d’intérêt thérapeutique puisque le cycle est rigide, non-planaire et possède une bonne capacité de distribution des pharmacophores dans l’espace. Des molécules de cette famille présentent une activité inhibitrice modérée mais spécifique sur les phospholipases A2 secrétées humaines de type V et X. La recherche de nouveaux inhibiteurs de sPLA2 par une étude de relation structure/activité, par création d’une pince à calcium ou par simulation moléculaire a conduit à l’identification de nouveaux composés actifs. / The 1,3,5-triazepane-2,6-dione scaffold is a seven membered heterocycle derived from dipeptides and accessible in a four steps synthesis in solution. A parallel solid phase synthesis of this heterocycle was developed. This strategy, based on "catch and release" and cyclo-cleavage processes, had created a library containing more than one hundred compounds. To increase the diversity of 1,3,5-triazepane-2,6-dione moieties, some post-cyclisation modifications were performed, e.g. urea N-mono-alkylation or N,N-di-alkylation, acylation, and carbonyl thionation. Synthesis of larger cycles was also investigated and several macrocycles were obtained.The 1,3,5-triazepane-2,6-diones have a strong pharmacological interest, because their cycle is rigid, non-planar and can allow multiple presentation of pharmacophores in space. Some 1,3,5-triazepane-2,6-diones have shown a small but specific activity on the groups V and X of the human secreted phospholipases A2. Structure/activity relationships, clamp synthesis to bind calcium or virtual screening were the strategies used to identify new active compounds.

Hétérocycle

Dipeptide

Chimiothèque

Urée

Synthèse en parallèle

Synthèse sur support solide

Thiourée

Macrocycles

Phospholipases A2 sécrétées

Heterocycle

Dipeptide

Library

Urea

Parallel synthesis

Synthesis on solid support

Thiourea

Macrocycles

Secreted phospholipase A2

Sekretované aspartátové proteasy kvasinky Candida parapsilosis: štěpení prekursoru a sekrece / Candida parapsilosis secreted aspartic proteinases: processing and secretion

Vinterová, Zuzana

January 2015

Candida parapsilosis is an emerging human opportunistic pathogen causing a wide spectrum of potentially life-threatening infections in immunocompromised hosts. One of the most important virulence factors of Candida spp. is a production of secreted aspartic proteinases (Saps). Presented thesis is mainly focused on the study of secreted aspartic proteinase 1 (Sapp1p) of C. parapsilosis, its processing and secretion under variable conditions and by use of various experimental models. Sapp1p is secreted by C. parapsilosis cells into the extracellular space as a completely processed and fully active enzyme. Experiments studying the C. parapsilosis cell wall (CW) confirmed the prolonged presence of completely processed Sapp1p on the cell surface (CW- Sapp1p). Proteolytic activity assay performed with the intact cells showed that CW-Sapp1p is proteolytically active prior to its release into the extracellular space and is capable of substrate cleavage. Biotinylation experiments with consecutive MS analysis revealed that CW-Sapp1p biotinylation is incomplete but saturable process, leaving partially unlabelled molecules. The accessibility of individual lysine residues in the Sapp1p molecule varied, with exception of four residues that were labelled in all of our experiments performed. The final step of...

Etude de peptides sécrétés par le champignon mycorhizien à arbuscules Rhizophagus irregularis / Study of the role of secreted peptides by the arbuscular mycorrhizal fungus Rhizophagus irregularis

Le Marquer, Morgane

31 October 2018

La symbiose mycorhizienne à arbuscules (MA) est une association bénéfique établie entre les membres d'un ancien sous-phylum de champignons, les Gloméromycètes, et les racines de la majorité des plantes terrestres. Les champignons MA procurent de l'eau et des minéraux (azote et phosphore principalement) à leur plante hôte et obtiennent de cette dernière des molécules carbonées sous forme d'hexoses et de lipides. Des études récentes ont montré que certaines protéines sécrétées par les champignons MA peuvent être des régulateurs importants de l'association (Kloppholz et al., 2011 ; Tsuzuki et al., 2016). Notre objectif était d'identifier de nouvelles protéines fongiques contribuant à la mise en place de la symbiose. Des protéines prédites pour être préférentiellement sécrétées par le champignon MA Rhizophagus irregularis dans les racines ont été identifiées au début de ma thèse (Kamel et al., 2017). Certaines d'entre-elles présentaient une structure ressemblant aux précurseurs de phéromones sexuelles d'Ascomycètes. Ces protéines sont connues pour être maturées dans les voies de sécrétion en petits peptides qui sont ensuite sécrétés. Leur reconnaissance par un récepteur couplé à la protéine G (GPCR) aboutit à la fusion cellulaire de deux types sexuels opposés. Dans le cas de R. irregularis, seule la reproduction clonale a été décrite, mais des données génomiques récentes remettent en question son statut d'organisme asexué (Ropars et al., 2016). Une grande partie de ma thèse a été dédiée à la caractérisation fonctionnelle de ce type de peptides chez R. irregularis. Nous avons montré que deux peptides étaient effectivement produits et sécrétés par R. irregularis. L'utilisation de peptides synthétiques nous a permis de mettre en évidence que l'un d'eux stimulait la colonisation de M. truncatula mais était également perçu par le champignon lui-même, induisant la transcription de son propre gène précurseur et d'un GPCR. Ce peptide stimulateur de la symbiose est composé de seulement trois acides aminés et il peut être produit à partir de trois précurseurs protéiques. Par des approches de génétique inverse (HIGS et VIGS), nous avons confirmé l'importance de ces précurseurs dans l'établissement de la symbiose.[...] / Arbuscular Mycorrhizal (AM) symbiosis is a beneficial association established between members of an ancient subphylum of fungi, the Glomeromycotina, and the roots of the majority of terrestrial plants. AM fungi provide water and minerals (mainly nitrogen and phosphorus) to their host plant in exchange for organic carbon in the form of hexoses and lipids. Recent studies have shown that certain proteins secreted by AM fungi are important symbiosis regulators (Kloppholz et al., 2011, Tsuzuki et al., 2016). Our aim was to identify new fungal proteins involved in the establishment of symbiosis. Proteins predicted to be preferentially secreted by the AM fungus Rhizophagus irregularis in the roots were identified at the beginning of my thesis (Kamel et al., 2017). We noticed that some of them had a structure resembling the sex pheromone precursors of Ascomycota. These proteins are known to be processed in the secretory pathway into small peptides which are then secreted. Their recognition by a G protein-coupled receptor (GPCR) leads to cell fusion of two opposite sex types. In the case of R. irregularis, only clonal reproduction has been described. However, recent genomic data question its status as an asexual organism (Ropars et al., 2016). A large part of my thesis was dedicated to the functional characterization of this type of processed peptides in R. irregularis. We show that two of them are actually produced and secreted by R. irregularis. Treatments with synthetic forms of these peptides revealed that one of them stimulated the colonization of M. truncatula but was also perceived by the fungus itself, inducing the transcription of its own precursor gene and of a GPCR gene. This symbiosis-stimulating peptide is composed of only three amino acids and can be produced from three different protein precursors. Using reverse genetics (HIGS and VIGS), we confirmed the importance of these precursors in the symbiosis establishment. [...]

Symbiose mycorhizienne à arbuscules

Rhizophagus irregularis

Peptide sécrété

Phéromone

KEX2

Récepteur couplé à la protéine G

Host-induced gene silencing

Peptide CLE

Arbuscular mycorrhizal symbiosis

Rhizophagus irregularis

Secreted peptide

Pheromone

KEX2

G protein-coupled receptor

Host-Induced Gene Silencing

CLE peptide

Isolierung, Identifizierung und funktionelle Charakterisierung der Metallo-Aminopeptidase CaApe2 — Ein experimenteller Beitrag zur Beurteilung des kariogenen Potentials von Candida albicans / Identification and characterization of a metallo-aminopeptidase from Candida albicans (CaApe2)

Pönisch, Roman

09 February 2009

Die Hefe Candida albicans ist ein fakultativ humanpathogener Mikroorganismus, der insbesondere bei immungeschwächten Patienten schwere Erkrankungen der Haut und Schleimhäute sowie der inneren Organe hervorrufen kann. Seit langer Zeit wird eine Beteiligung des Hefepilzes an der Ätiopathogenese der Zahnkaries diskutiert, vor allem aufgrund der Säure-bildung, die zur Demineralisation der Zahnhartsubstanz beitragen kann. Hydrolytische Enzyme ermöglichen vermutlich die Gewebeinvasion von Candida albicans. In der vorliegenden Arbeit wurde ein sezerniertes peptidolytisches Enzym aus der Zellwand des Mikroorganismus isoliert, identifiziert und funktionell charakterisiert. Die mittels massenspektrometrischer Analyse der tryptischen Peptide und Datenbankrecherche ermittelte Primärstruktur und die Ergebnisse der funktionellen Charakterisierung ließen eine Identifi-zierung des peptidolytischen Enzyms als neutrale Arginin/Alanin/Leucin-spaltende Metallo-Aminopeptidase (CaApe2) zu, die durch den ORF CaO19.5197 (GenBank RefSeq XM 705313) kodiert wird. Mithilfe der Proteinanalytik wurde Serin-88 als N-terminale Aminosäure ermittelt. Die Aminosäuren 88 bis 954 des hypothetischen Genprodukts ergeben eine nominale Molekularmasse von 97,607 kDa. CaApe2 weist gleich hohe Ähnlichkeit mit den paralogen Genprodukten ScAap1 und ScApe2 auf, was eine Duplikation und Subfunktionalisierung des phylogenetischen Vorläufergens in Saccharomyces cerevisiae nahe legt. Die fehlende kollagenolytische Wirksamkeit von CaApe2 spricht gegen eine direkte Rolle des Enzyms in der Pathogenese der Dentinkaries von Candida albicans, schließt aber eine unterstützende Funktion nicht aus. Die Kollagendegradation durch aufgeschlossene Zellen und Kulturüberstand einer Flüssigkultur von Candida albicans wurde im sauren und neutralen Milieu mithilfe der Hydroxyprolin-Bestimmung untersucht. Dabei war keine Kollagenolyse mit Aktivitätsmaximum im neutralen Bereich nachweisbar. Im sauren pH-Bereich konnte eine deutliche Hydrolyse von säureunlöslichem Typ-I-Kollagen und auch von demineralisierter Dentinmatrix durch Kulturmedium gezeigt werden. Diese Kollagenolyse kann auf die bereits umfangreich charakterisierten sezernierten Aspartylproteinasen zurückgeführt werden. Die in der Literatur beschriebene Korrelation zwischen dem Ausmaß des Kariesbefalls und der Quantität der Besiedelung mit Candida albicans legt eine Beteiligung des Hefepilzes an der Kariogenese nahe. Auch die in der vorliegenden Arbeit gezeigte Fähigkeit von Candida albicans zur Dentinkollagendegradation unterstützt die Hypothese einer Kariogenität der Hefe. / The proteolytic potential of the pathogenic fungus Candida albicans was evaluated by the identification and functional characterization of a peptidolytic enzyme isolated from the cell wall of the microorganism. Determination of basic structural and kinetic data identified a neutral arginine/alanine/leucine-specific metallo-aminopeptidase of unknown function termed CaApe2 which is encoded by ORF CaO19.5197 (GenBank RefSeq XM_705313). Mass spectrometric tryptic peptide analysis and N-terminal protein sequencing revealed serine-88 to represent the N-terminus of CaApe2. The isolated CaApe2 protein shares equally high similarity with the gene products ScAap1 and ScApe2 suggesting duplication of a phylogenetically ancient precursor gene in Saccharomyces cerevisiae. The observed failure to cleave human type-I and type-IV collagen in vitro challenges a direct role secreted CaApe2 might play in the degradation of extracellular matrix components during host colonization, but does not exclude per se a contribution of the aminopeptidase to the pathogenicity of C. albicans.

Aminopeptidase

CaApe2

Candida albicans

Enzymreinigung

Sezernierte Aspartylproteinase

SAP

Kollagendegradation

Kollagenhydrolyse

Dentinkaries

Aminopeptidase

CaApe2

Candida albicans

gene structure

purification

hydrolysis of collagen

secreted aspartylproteinases

SAP

caries

dentin

ddc:610

rvk:YP 3304

Olfactory ensheathing cell mediated mechanisms of neurite outgrowth and axon regeneration

Witheford Richter, Miranda

11 1900

The capacity of the olfactory neuraxis to undergo neuronal replacement and axon targeting following injury, has led to scrutiny concerning the molecular and physical determinants of this growth capacity. This is because injury to the central nervous system, in contrast, leads to permanent disconnection of neurons with targets. Olfactory ensheathing cells (OECs), a specialized glial cell, may contribute to olfactory repair, and have been used to promote recovery from spinal cord injury. However, there mechanisms underlying OEC-induced regeneration are poorly appreciated. To understand these mechanisms, OECs from the lamina propria (LP OECs) or olfactory bulb (OB OECs) were transplanted into a lesion of the dorsolateral funiculus. While both cells demonstrated reparative capacities, LP and OB OECs differentially promoted spinal fibre growth; large-diameter neurofilament-positive, CGRP-positive, and serotonergic fibres sprouted in response to both LP and OB OEC transplantation, whereas substance-P and tyrosine hydroxylase-positive neurons grew more extensively following OB or LP OEC transplantation, respectively. To further understand the growth of spinal cord neurons in response to OECs, a proteomic analysis of OEC secreted factors was performed, identifying secreted protein acidic and rich in cysteines (SPARC) as a mediator of OEC-induced outgrowth in vitro. To test the contributions of SPARC to spinal cord repair after OEC transplantation, cultures of LP OECs from SPARC null and wildtype (WT) mice were transplanted into a crush of the dorsolateral funiculus. Substance P and tyrosine hydroxylase positive axon sprouting was significantly reduced in SPARC null OEC-treated animals, suggesting that individual factors may contribute to OEC-promoted regeneration. To investigate the effect of OECs on corticospinal (CST) neurons, an in vitro assay was developed using postnatal day 8 CST neurons. Coculture of CST neurons with OB OECs produced extensive axon elongation. Application of OB OEC secreted factors increased CST neurite branching, but did not increase axon elongation. In contrast, plating of CST neurons on OB OEC plasma membrane resulted in extensive axon elongation. Furthermore, the OB OEC plasma membrane could overcome CST neurite outgrowth inhibition induced by an outgrowth inhibitor. Together these findings provide insight into OEC mechanisms of neurite outgrowth and axon regeneration.

Spinal cord injury

Transplantation

Corticospinal

Axon guidance

Nervous system

Proteomics

Cell adhesion molecules

Plasma membrane

Astrocytes

Glia

Rubrospinal

Lesion

Angiogenesis

Tyrosine hydroxylase

Regeneration

Olfactory system

Osteonectin

In vitro

Olfactory ensheathing cell mediated mechanisms of neurite outgrowth and axon regeneration

Witheford Richter, Miranda

11 1900

The capacity of the olfactory neuraxis to undergo neuronal replacement and axon targeting following injury, has led to scrutiny concerning the molecular and physical determinants of this growth capacity. This is because injury to the central nervous system, in contrast, leads to permanent disconnection of neurons with targets. Olfactory ensheathing cells (OECs), a specialized glial cell, may contribute to olfactory repair, and have been used to promote recovery from spinal cord injury. However, there mechanisms underlying OEC-induced regeneration are poorly appreciated. To understand these mechanisms, OECs from the lamina propria (LP OECs) or olfactory bulb (OB OECs) were transplanted into a lesion of the dorsolateral funiculus. While both cells demonstrated reparative capacities, LP and OB OECs differentially promoted spinal fibre growth; large-diameter neurofilament-positive, CGRP-positive, and serotonergic fibres sprouted in response to both LP and OB OEC transplantation, whereas substance-P and tyrosine hydroxylase-positive neurons grew more extensively following OB or LP OEC transplantation, respectively. To further understand the growth of spinal cord neurons in response to OECs, a proteomic analysis of OEC secreted factors was performed, identifying secreted protein acidic and rich in cysteines (SPARC) as a mediator of OEC-induced outgrowth in vitro. To test the contributions of SPARC to spinal cord repair after OEC transplantation, cultures of LP OECs from SPARC null and wildtype (WT) mice were transplanted into a crush of the dorsolateral funiculus. Substance P and tyrosine hydroxylase positive axon sprouting was significantly reduced in SPARC null OEC-treated animals, suggesting that individual factors may contribute to OEC-promoted regeneration. To investigate the effect of OECs on corticospinal (CST) neurons, an in vitro assay was developed using postnatal day 8 CST neurons. Coculture of CST neurons with OB OECs produced extensive axon elongation. Application of OB OEC secreted factors increased CST neurite branching, but did not increase axon elongation. In contrast, plating of CST neurons on OB OEC plasma membrane resulted in extensive axon elongation. Furthermore, the OB OEC plasma membrane could overcome CST neurite outgrowth inhibition induced by an outgrowth inhibitor. Together these findings provide insight into OEC mechanisms of neurite outgrowth and axon regeneration.

Spinal cord injury

Transplantation

Corticospinal

Axon guidance

Nervous system

Proteomics

Cell adhesion molecules

Plasma membrane

Astrocytes

Glia

Rubrospinal

Lesion

Angiogenesis

Tyrosine hydroxylase

Regeneration

Olfactory system

Osteonectin

In vitro

Structural and Related Studies on Mycobacterial Lectins

Patra, Dhabaleswar

January 2014

This thesis is concerned with the first ever X-ray crystallographic and complimentary solution studies on mycobacterial lectins. Lectins, described as multivalent carbohydrate binding proteins of non-immune origin, are found in all kingdoms of life. As explained in the introductory chapter, those from plants and animals are the best characterized in terms of structure and function. Although not that extensive, important studies have been carried out on viral, fungal and parasite lectins as well. Bacterial lectins studied so far can be classified in to fimbrial, surface and secretory (or toxic). Applications of lectins include blood typing, cell separation and purification of glycoconjugates, mitogenic stimulation of lymphocytes, mapping of neuronal pathways and drug targeting and delivery. The work reported in the thesis lies at the intersection of two major long range programs in this laboratory, one on lectins and the other on mycobacterial proteins. Three putative lectins Rv1419 and Rv2813 from M. tuberculosis and MSMEG_3662 from M. smegmatis were chosen for exploratory studies on the basis of preliminary genomic searches. Exploratory studies on Rv1419, Rv2813 and MSMEG_3662 are described in the second chapter. MSMEG_3662 contains two domains, a LysM domain and a lectin domain (MSL) connected by a long polypeptide chain. The two M. tuberculosis proteins, full length MSMEG_3662 and MSL were cloned, expressed, purified and characterized. Rv2813 did not show any appreciable agglutination activity. It showed ATPase activity. Clearly the protein was not a lectin. Rv1419, full length MSMEG_3662 and MSL exhibited lectin characteristics. Among them, Rv1419 and MSL could be crystallized. Preliminary X-ray diffraction studies on them were carried out. Rv1419 could be successfully expressed only once. However, that was enough for the determination of crystal structure and the glycan array analysis of the lectin (Chapter 3). The monomeric lectin has a β-trefoil fold. It has high affinity for LacNAc and its Neu5Ac derivatives. Modeling studies using complexes of homologous structures, led to the identification of two carbohydrate binding sites on the lectins. Sequence comparisons of Rv1419 with homologous proteins with known structures and phylogenetic analysis involving them provide interesting insights into the relationship among trefoil lectins from different sources. X-ray crystal structure analysis of MSL and its complexes with mannose and methyl-α-mannose, the first comprehensive effort of its kind on a mycobacterial lectin, reveals a structure very similar to β-prism II fold lectins from plant sources, but with extensive unprecedented domain swapping in dimer formation (Chapter 4). The two subunits in a dimer often show small differences in structure, but the two domains, not always related by 2-fold symmetry, have the same structure. Each domain carries three sugar-binding sites, similar to those in plant lectins, one on each Greek key motif. The occurrence of β-prism II fold lectins in bacteria, with characteristics similar to those from plants, indicates that this family of lectins is of ancient origin and had evolved into a mature system before bacteria and plants diverged. In plants, the number of binding sites per domain varies between one and three, whereas the number is two in the recently reported lectin domains from Pseudomonas putida and Pseudomonas aeruginosa. An analysis of the sequences of the lectins and the lectin domains shows that the level of sequence similarity among the three Greek keys in each domain has a correlation with the number of binding sites in it. Furthermore, sequence conservation among the lectins from different species is the highest for that Greek key which carries a binding site in all of them. Thus, it would appear that carbohydrate binding influences the course of the evolution of the lectin. LysM domains have been recognized in bacteria and eukaryotes as carbohydrate-binding protein modules, but the mechanism of their binding to chitooligosaccharides is underexplored. Binding of a full length MSMEG_3662 containing LysM and lectin (MSL) domains to chitooligosaccharides has been studied using isothermal titration calorimetry and fluorescence titration (Chapter 5). This investigation demonstrates the presence of two binding sites of non-identical affinities per dimeric MSL-LysM molecule. Affinity of the molecule for chitooligosaccharides correlates with the length of the carbohydrate chain. Its binding to chitooligosaccharides is characterized by negative cooperativity in the interactions of the two domains. Apparently, the flexibility of the long linker that connects the LysM and MSL domains plays a facilitating role in this recognition. The LysM domain in MSL-LysM, like other bacterial domains but unlike plant LysM domains, recognizes equally well peptidoglycan fragments as well as chitin polymers. Interestingly, in the present case two LysM domains are enough for binding to peptidoglycan in contrast to the three reportedly required by the LysM domains of Bacillus subtilis and Lactococcus lactis. Also, the affinity of MSL-LysM for chitooligosaccharides is higher than that of LysM-chitooligosaccharide interactions reported so far. A part of the work presented in this thesis has been reported in the following publications: • Patra D, Mishra P, Surolia A, Vijayan M. 2014. Structure, interactions and evolutionary implications of a domain-swapped lectin dimer from Mycobacterium smegmatis. Glycobiology, 24:956-965. • Patra D, Sharma A, Chandran D, Vijayan M. 2011. Cloning, expression, purification, crystallization and preliminary X-ray studies of the mannose-binding lectin domain of MSMEG_3662 from Mycobacterium smegmatis. Acta Crystallogr Sect F Struct Biol Cryst Commun, 67:596-599. • Patra D, Srikalaivani R, Misra A, Singh DD, Selvaraj M, Vijayan M. 2010. Cloning, expression, purification, crystallization and preliminary X-ray studies of a secreted lectin (Rv1419) from Mycobacterium tuberculosis. Acta Crystallogr Sect F Struct Biol Cryst Commun, 66:1662-1665.

Mycobacterial Lectins

Fimbrial Lectins

X-ray Crystallography

Bacterial Surface Lectins

Secreted Toxic Lectins

Lectins

Mycobacterium Smegmatis Proteins

Mycobacterium Tuberculosis Proteins

Putative Lectins

Carbohydrate-Binding Proteins

Bacterial Proteins

Rv1419

MSMEG_3662

Molecular Biophysics

Mechanisms of exosome biogenesis and secretion / Mécanismes de biogénèse et sécrétion des exosomes

Colombo, Marina

22 November 2012

Les exosomes sont des vésicules membranaires de 30 à 100 nm de diamètre, formées dans les endosomes multivésiculaires et sécrétées par la plupart des cellules. Les propriétés biophysiques et biochimiques des exosomes ainsi que les mécanismes permettant leur biogénèse et sécrétion ont fait l’objet de nombreuses études. Cependant, ces derniers sont encore méconnus, limitant l'analyse des fonctions des exosomes in vivo. Au moins deux mécanismes ont été proposés pour la biogénèse des exosomes : un mécanisme nécessiterait l’action de protéines impliquées dans le tri endosomal, les ESCRT (« endosomalsorting complex required for transport »). Un autre mécanisme serait indépendant de leur fonction. La sécrétion des exosomes, une fois générés dans les endosomes, requiert la petite GTPase, Rab27a, comme montré dans un modèle cellulaire humain. Mes travaux de thèse ont porté sur l’étude des mécanismes moléculaires impliqués dans la biogénèse et la sécrétion des exosomes. Une première étude visant à analyser la fonction de Rab27a dans des cellules murines, m’a permis de mettre en évidence l’existence de différentes populations d’exosomes, dont la sécrétion dépend ou non de Rab27a. Une deuxième étude a eu pour objectif d’analyser l’implication des ESCRT dans la biogénèse des exosomes dans des cellules HeLa CIITA. Le criblage d’une librairie d’ARN d’interférence dirigés contre les différentes protéines ESCRT, a permis l’identification de 7 molécules potentiellement impliquées dans cette voie : HRS, STAM1, TSG101, leur inactivation induisant la diminution de la sécrétion des exosomes. L’inactivation de CHMP4C, VPS4B,VTA1 et ALIX, au contraire, l’augmente. L’inhibition de l’expression de ces candidats suivie de l’analyse des exosomes sécrétés a démontré l’hétérogénéité des vésicules sécrétées, et une modification de leur taille et de leur composition protéique par rapport aux cellules contrôle. Plus particulièrement, l’inactivation d’ALIX induit une augmentation de lasécrétion d‘exosomes de plus grande taille, et l’enrichissement sélectif en molécules de CMH de classe II. En accord, j’ai montré que les cellules inactivées pour ALIX, aussi bien des cellules HeLa que des cellules dendritiques humaines ont une plus forte expression de CMH de classe II à la surface et dans des compartiments intracellulaires. Ces résultats suggèrent l’implication de certains membres de la famille ESCRT dans la voie de biogenèse et sécrétion des exosomes, ainsi qu’un rôle potentiel d’Alix dans le trafic des molécules CMH de classe II, et dans la modulation de la composition protéique des exosomes. / Exosomes are small membrane vesicles with sizes ranging from 30 to 100 nm in diameter, which are formed in multivesicular endosomes and secreted by most cell types. Numerous studies have focused on the biophysical and biochemical properties of exosomes, as well as the mechanisms of biogenesis and secretion of these vesicles. However, these aspects are not fully understood, which limits the analysis of the functions of exosomes in vivo. At least two mechanisms have been proposed for the biogenesis of exosomes : one would rely on the function of proteins involved in endosomal sorting, the ESCRT family (for “endosomal sorting complex required for transport”). Another mechanism would be independent of their activity. Once exosomes are formed in endosomes, their secretion requires the small GTPase RAB27A, as shown in a human cell line. The objective of my PhD project was to gain insights into the molecular mechanisms that drive exosome biogenesis and secretion. A first study performed to analyze the function of Rab27a in murine cells allowed me to show the existence of different populations of exosomes, dependent or not on Rab27a for their secretion. A second study was aimed at analyzing the involvement of ESCRT proteins in exosome biogenesis in HeLa-CIITA cells. Seven molecules potentially involved in this process were identified on the basis of the screening of an RNA interference library directed against the different ESCRT proteins: the inactivation of HRS, STAM1 and TSG101 induced a decrease in exosome secretion, whereas the down regulation of CHMP4C, VPS4B, VTA1 and ALIX increased it. Gene expression of the different candidate proteins was inhibited and exosomes secreted by these cells were analyzed: we showed the heterogeneity of the secreted vesicles, as well as an alteration of their size and protein composition, as compared to control cells. In particular, the inactivation of ALIX induced an increase in the secretion of larger vesicles, and the selective enrichment of these vesicles in MHC class II molecules. Accordingly, I showed that both HeLa-CIITA and human primary dendritic cells inactivated for ALIX possess a higher expression of MHC class II molecules at the cell surface and in intracellular compartments. These results suggest that some members of the ESCRT family are involved in the exosome biogenesis and secretion pathway, and propose a potential role of ALIX in the trafficking of MHC class II molecules and in the modulation of the protein composition of exosomes.

Exosomes

Biogénèse

Sécrétion

Vésicules sécrétées

Protéines ESCRT

Protéines SNARE

Protéines RAB

Endosomes multivésiculaires

ALIX

CMH de classe II

Rab27a

Exosomes

Biogenesis

Secretion

Secreted vesicles

ESCRT proteins

SNARE proteins

RAB proteins

Multivesicular endosomes

ALIX

MHC class II

Rab27a

Olfactory ensheathing cell mediated mechanisms of neurite outgrowth and axon regeneration

Witheford Richter, Miranda

11 1900

The capacity of the olfactory neuraxis to undergo neuronal replacement and axon targeting following injury, has led to scrutiny concerning the molecular and physical determinants of this growth capacity. This is because injury to the central nervous system, in contrast, leads to permanent disconnection of neurons with targets. Olfactory ensheathing cells (OECs), a specialized glial cell, may contribute to olfactory repair, and have been used to promote recovery from spinal cord injury. However, there mechanisms underlying OEC-induced regeneration are poorly appreciated. To understand these mechanisms, OECs from the lamina propria (LP OECs) or olfactory bulb (OB OECs) were transplanted into a lesion of the dorsolateral funiculus. While both cells demonstrated reparative capacities, LP and OB OECs differentially promoted spinal fibre growth; large-diameter neurofilament-positive, CGRP-positive, and serotonergic fibres sprouted in response to both LP and OB OEC transplantation, whereas substance-P and tyrosine hydroxylase-positive neurons grew more extensively following OB or LP OEC transplantation, respectively. To further understand the growth of spinal cord neurons in response to OECs, a proteomic analysis of OEC secreted factors was performed, identifying secreted protein acidic and rich in cysteines (SPARC) as a mediator of OEC-induced outgrowth in vitro. To test the contributions of SPARC to spinal cord repair after OEC transplantation, cultures of LP OECs from SPARC null and wildtype (WT) mice were transplanted into a crush of the dorsolateral funiculus. Substance P and tyrosine hydroxylase positive axon sprouting was significantly reduced in SPARC null OEC-treated animals, suggesting that individual factors may contribute to OEC-promoted regeneration. To investigate the effect of OECs on corticospinal (CST) neurons, an in vitro assay was developed using postnatal day 8 CST neurons. Coculture of CST neurons with OB OECs produced extensive axon elongation. Application of OB OEC secreted factors increased CST neurite branching, but did not increase axon elongation. In contrast, plating of CST neurons on OB OEC plasma membrane resulted in extensive axon elongation. Furthermore, the OB OEC plasma membrane could overcome CST neurite outgrowth inhibition induced by an outgrowth inhibitor. Together these findings provide insight into OEC mechanisms of neurite outgrowth and axon regeneration. / Medicine, Faculty of / Graduate

Spinal cord injury

Transplantation

Corticospinal

Axon guidance

Nervous system

Proteomics

Cell adhesion molecules

Plasma membrane

Astrocytes

Glia

Rubrospinal

Lesion

Angiogenesis

Tyrosine hydroxylase

Regeneration

Olfactory system

Osteonectin

In vitro