Contributions To Venominformatics : Sequence-Structure-Function Studies Of Toxins From Marine Cone Snails. Application Of Order-Statistics Filters For Detecting Membrane-Spanning Helices

Mondal, Sukanta

02 1900

Venomous animals have evolved a vast array of peptide toxins for prey capture and defense. Nature has evolved the venoms into a huge library of active molecules with high selectivity and affinity, which could be explored as therapeutics or serve as a template for drug design. The individual components of venom i.e. toxins are used in ion channel and receptor studies, drug discovery, and formulation of insecticides. ‘Venominformatics is a systematic bioinformatics approach in which classified, consolidated and cleaned venom data are stored into repositories and integrated with advanced bioinformatics tools and computational biology for the analysis of structure and function of toxins.’ Conus peptides (conopeptides), the main components of Conus venom, represent a unique arsenal of neuropharmacologically active molecules that have been evolutionarily tailored to afford unprecedented and exquisite selectivity for a wide variety of ion-channel subtypes and neuronal receptors. Ziconotide (ω-conotoxin MVIIa from Conus magus (Magician's cone snail)), is proven as an intrathecally administered N-type calcium channel antagonist for the treatment of chronic pain (U.S. Food and Drug Administration. Center for Drug Evaluation and Research) attesting to the pharmaceutical importance of Conus peptides. From the point of view of protein sequence and structure analysis, conopeptides can serve as attractive systems for the studies in sequence comparison, pattern extraction, structure–function correlations, protein–protein interactions and evolutionary analysis. Despite their importance and extensive experimental investigations on them, they have been hardly explored through in silico methods. The present thesis is perhaps the first attempt at deploying a multi-pronged bioinformatics approaches for studies in the burgeoning field of conopeptides. In the process of sequence-structure-function studies of conopeptides, we have created several sequence patterns of different conopeptide families and these have been accepted for inclusion in international databases such as PROSITE, the first pattern database to have been developed (http://www.expasy.org/prosite) and INTERPRO (http://www.ebi.ac.uk/interpro). More importantly, we have carried out extensive literature survey on the peptides for which we have defined the patterns to create PROSITE compatible documentation files (PDOC6004, PDOC60025 and PDOC60027). We have also created a series of sequence patterns and associated documentation filesof pharmaceutically promising peptides from plants and venomous animals (including O-conotoxin and P-conotoxin superfamily members) with knottin scaffold. Knottins provide appealing scaffolds for protein engineering and drug design due to their small size, high structural stability, strong sequence tolerance and easy access to chemical synthesis. The sequence patterns and associated documentation files created by us should be useful in protein family classification and functional annotation. Even though patterns might be useful at the family level, they may not always be adequate at the superfamily level due to hypervariability of mature toxins. In order to overcome this problem, we have demonstrated the applicationos of multi-class support vector machines (MC-SVMs) for the successful in silico classification of the mature conotoxins into their superfamilies. TheI- and J-conotoxin-superfamily members were analyzed in greater detail. On the basis of in silico analysis, we have divided the 28 entries previously grouped as I-conotoxin superfamily in UniProtKB/Swiss-Prot (release 49.0) into I1 and I2 superfamilies inview of their having two different types of signal peptides and exhibiting distinct functions. A comparative study of the theoretically modeled structure of ViTx from Conus virgo, a typical member of I2-conotoxin superfamily, reveals the crucial role of C-terminal region of ViTx in blocking therapeutically important voltage-gated potassium channels. Putative complexes created by us of very recently characterized J-superfamily conotoxin p11-4a with Kv1.6 suggest that the peptide interacts with negatively charged extracellular loops and pore-mouth of the potassium channel and blocks the channel by covering the pore as a lid, akin to previously proposed blocking mechanism of kM-conotoxin RIIIK from Conus radiatus to Tsha1 potassium channel. This finding provides a pointer to experimental work to validate the observations made here. Based on differences in the number and distribution of the positively charged residues in other conopeptides from the J-superfamily, we hypothesize different selectivity profile against subtypes of the potassium channels for these conopeptides. Furthermore, the present thesis reports the application of order-statistic filters and hydrophobicity profiles for predicting the location of membrane-spanning helices. The Proposed method is in particular effective for the class of helical membrane proteins, namely the therapeutically important voltage-gated ion channels, which are natural targets of several conotoxins. Our suggested ab initio approach is comparatively better than other spatial filters, confirming to the efficacy of including the concept of order or ranking information for prediction of TM helicdes. Such approaches should be of value for improved prediction performance including in large-scale applications. In addition, anlaysis has been carried out of the role of context in the relationship between form and function for the true PDB hits of some nonCys-rich PROSITE patterns. We have found specific examples of true hits of some PROSITE patterns displaying structural plasticity by assuming significantly different local conformation, depending upon the context. The work was carried out as a part of the research interest in our group in studying structural and other features of protein sequence patterns. The Contributions of the candidate to venominormatics include, creation of protein sequence patterns and information highlighting the importance of the patterns as gleaned from the lteratures for family classification: profile HMM and MC-SVMs for conotoxin superfamily classification; in silico characterization of I1 and I2 conotoxin superfamilies; studies of interaction with Kv1 channels of typical members of I2 and 3 conotoxin superfamilies and development of improved methods for detecting membrane-spanning helices. Chapter I starts with a brief account of venominformatics; bioinformatics for venoms and toxins. Chapter 2 presents a regular expression based classification of Conus peptides. Chapter 3 revisits the 28 entries previously grouped as I-conotoxin superfamily in UniProt Swiss-Prot knowledgebase (release 49.0) having four disulfide bonds with Cys arrangement C-C-CC-CC-C-C and they inhibit or modify ion channels of nerve cells. Chapter 4 describes pseudo-amino acid composition and MC-SVMs approach for conotoxin superfamily classification. Chapter 5 describes in silico detection of binding mode with Kv1.6 channel of J-superfamily conotoxin p114a from bermivorouos cone snail, Conus planorbis. Chapter 6 presents a comparative sequence-structure-function analysis of naturally occurring Cys-rich peptides having the Knottin or inhibitor cystine knot(ICK) scaffold, from different plants and venomous animals based on information available in the knottin database(http://knottin.cbs.cnrs.fr/). Chapter 7 describes the application of order-statistic filters and hydrophobicity profiles for detecting membrane-spanning helices. Chapter 8 describes the role of context in the relationship between form and function for the true PDB hits of some non Cys-rich PROSITE patterns. Chapter 9 summaries the important findings of the present studies on naturally occurring bioactive Cys-rich peptides with emphasis on Conus peptides and their interactions with respective target such as voltage-gated ion channels.

Membrane Spanning Helices

Snail - Biophysics

Toxins - Structures

Venominformatics

Conopeptides

Conotoxins

Cys-rich Peptides

Membrane-Spanning Helices

Cone Snail Toxins

Knottin Scaffold

Inhibitor Cystine Knot (ICK)

PROSITE Patterns

Conotoxin Superfamily Classification

Conus Peptides

Conus planorbis

Biophysics

Structural Studies on Bacterial Adenylosuccinate Lyase and Sesbania Mosaic Virus Protease

Banerjee, Sanchari

January 2014

The three-dimensional structures of biological macromolecules and molecular assemblies are becoming increasingly important with the changing methodologies of drug discovery. The structures aid in understanding of protein function at the molecular level: be it a macromolecular assembly, a cytosolic enzyme or an intermembrane receptor molecule. X-ray crystallography is the most powerful technique to obtain the three-dimensional structures of such molecules at or near atomic resolution. With such a wide-spread importance, crystallography is an integral part of structural biology and also of the current drug discovery programs. The present thesis mainly deals with application of the crystallographic techniques for understanding the structure and function of adenylosuccinate lyase (ASL) from bacterial pathogens Salmonella typhimurium and Mycobacterium tuberculosis as well as its non-pathogenic counterpart Mycobacterium smegmatis. Studies were also carried out to understand the structure-function relationship of the protease in the plant virus Sesbania Mosaic Virus (SeMV). The thesis has been divided into six chapters. The first chapter contains an introduction to nucleotide synthesis and ASL superfamily of enzymes known as the aspartase/fumarase superfamily based on the published literature. Chapter 2 provides the details of the techniques used for the investigations presented in this thesis. Chapters 3-5 deal with the structural and functional studies carried out on ASL from the three bacterial organisms. Chapter 6 deals with the simulation studies carried out on SeMV protease. Mechanism and importance of nucleotide synthesis is introduced in Chapter 1, with special emphasis on purine de novo and salvage pathways. ASL is introduced as an important enzyme for purine synthesis. Its superfamily, the aspartase/fumarase superfamily of enzymes is described in detail with respect to its structure, function and pathophysiology. Objectives of the present study are outlined towards the end of the chapter. The experimental and computational techniques utilized during the course of my research are described in Chapter 2. These techniques include gene cloning, protein expression and purification, kinetic and biophysical characterization of proteins, crystallization, X-ray diffraction, data collection and processing, structure solution, refinement, model building, validation and structural analysis, phylogenetic studies, molecular docking and molecular dynamic simulation studies. Adenylosuccinate lyase is an important enzyme participating in purine biosynthesis. With the emergence of drug resistant variants of various pathogens, ASL has been recognized as a drug target against microbial infections. Chapter 3 deals with the structural and functional characterization of ASL from Salmonella typhimurium. Two constructs of the StASL gene were cloned and expressed leading to the purification of truncated (residues 1-366) and full-length (residues 1-456) polypeptides. Crystallization of the two polypeptides resulted in three independent structures. The full-length structure was very similar to the E. coli ASL structure consistent with 95% amino acid sequence identity between the two polypeptides. However, the truncated structures showed large distortions, especially of the active site residues, accounting for the catalytic inactivity of the truncated polypeptide in spite of retaining all residues considered important for function. The full-length ASL was catalytically active. A unique feature observed in StASL, not reported in other ASLs, was its allosteric regulation by the substrate. Kinetic studies also revealed hysteretic behavior of the enzyme. The electron density map of the full-length structure showed two novel densities on the molecular 2-fold axis into each of which a molecule of cadavarine could be fitted. Docking studies revealed a ligand-binding site at the inter-subunit interface between the two observed densities which might represent a potential allosteric site. Combining the structural and kinetic results, a possible morpheein model of allosteric regulation of StASL was hypothesized. Chapter 4 deals with the crystallographic and kinetic investigations on ASL from Mycobacterium smegmatis and Mycobacterium tuberculosis. MsASL and MtbASL were cloned, purified and crystallized. The X-ray crystal structure of MsASL was determined at 2.16 Å resolution. It is the first report of an apo-ASL structure with a partially ordered active site C3 loop. Diffracting crystals of MtbASL could not be obtained and a model for its structure was derived using MsASL as a template. Most of the active site residues were found to be conserved with the exception of Ser 148 and Gly 319 of MsASL. Ser 148 is structurally equivalent to a threonine in most other ASLs. Gly 319 is replaced by an arginine residue in most ASLs. The two enzymes were catalytically much less active when compared to ASLs from other organisms. Arg319Gly substitution and reduced flexibility of the C3 loop might account for the low catalytic activity of mycobacterial ASLs. The low activity is consistent with the slow growth rate of Mycobacteria, their high GC containing genomes as well as with their dependence on other salvage pathways for the supply of purine nucleotides. Chapter 5 deals with the identification of the catalytic residues important for ASL catalysis in view of the earlier conflicting reports on the identity of these residues. pH-dependent kinetic studies were performed on full-length StASL. The theory behind these studies is also described in this chapter. Two residues with pKa values of 6.6 and 7.7 were identified as essential for the enzymatic activity. These results were interpreted along with structural comparison of MsASL and other superfamily enzymes with ordered C3 loops. They suggest that His 149 and either Lys 285 or Ser 279 of MsASL are the residues most likely to function as the catalytic acid and base, respectively. The final Chapter 6 of the thesis deals with the structural and dynamic studies carried out on Sesbania mosaic virus (SeMV) protease. The chapter begins with a general introduction to viruses, followed by a brief summary of SeMV. The goal of this study is to understand the interactions between the protease and VPg at a structural level using the information available from biochemical studies. Crystallographic studies initiated for the mutant H275APro and Y315APro were unsuccessful due to the insolubility of the proteins. Co-crystallization or soaking experiments of wild type protease with cognate peptides were unsuccessful due to the inability of the enzyme to bind to its substrates in the absence of VPg. Higher resolution structure of wild type protease did not yield any new insights when compared to the earlier reported structure determined at a lower resolution. In the absence of structural insights, molecular dynamic simulations were carried out on wild type protease structure and in silico generated mutants using GROMACS package. The studies showed the importance of flipping of residue Phe 301 and opening-closing of the loop region corresponding to residues 301-308 for the catalytic mechanism. The thesis concludes with Future perspectives of the various studies carried out on ASL and SeMV protease. The atomic coordinates determined from the work presented in this thesis have been deposited in the PDB and the assigned PDB codes are reported in the respective chapters. Publications cited in the thesis are listed in the Bibliography section.

Structural Biology

Bacterial Adenylosuccinate Lyase

Sesbania Mosaic Virus Protease

X-ray Crystallography

Microbial Infections

Purine Biosynthesis

Bacterial Pathogens

Asparatase/Fumarase Superfamily

Nucleotide Synthesis

Molecular Biophysics

Studium ligandů fosfatas z rodiny haloacidních dehalogenas / Study of Ligands for Phosphatases from the Haloacid Dehalogenase Superfamily

Brinsa, Vítězslav

January 2020

Phosphatases of the haloacid dehalogenase superfamily are one of the cell's tools for dephosphorylation of many diverse endogenous and exogenous compounds. This work is aimed at enzymes Tt82 and cytosolic purine 5'-nucleotidase II (cN-II), two members of this large enzyme superfamily. The Tt82 originates in the hyperthermophilic archaeon Thermococcus thioreducens. Up to date, there is only a small amount of knowledge about properties and biological function of this enzyme. Based on its sequence and structure, it was predicted that the Tt82 should possess a phosphatase catalytic activity. Consequently, potential substrates of the Tt82 were proposed by the molecular docking. In this work, the phosphatase activity of the Tt82 was confirmed together with several of its substrates: AMP, D-glucose 1-phosphate, D-glucose 6-phosphate and p-nitrophenyl phosphate (pNPP). Activity towards AMP and pNPP was then characterized by steady-state kinetics at 37 řC and 60 řC. In consistence with its thermophilic origin, the Tt82 showed markedly higher activity towards both substrates at 60 řC. Nonetheless, the effectivity of the Tt82 catalytic activity towards these substrates was actually very low. This leads to assumption, that the identified substrates are probably not biologically relevant. On the other hand, it is quite...

Prognostički značaj određivanja koncentracija citokina članova superfamilije tumor nekrozis faktora alfa kod obolelih od sepse / Concentrations of the tumor necrosis factor alfa superfamily members as a prognostic factors in sepsis

Lendak Dajana

30 September 2015

<p>Uvod: Nespecifičnost kliničke slike sepse, velike individualne razlike u odgovoru organizma na infekciju kao i neophodnost adekvatne inicijalne procene težine kliničke slike, toka i ishoda bolesti, čine istraživanja biomarkera koji bi doprineli pravovremenom postavljanju dijagnoze i adekvatnoj prognozi bolesti izuzetno značajnim. Do sada je ispitivano preko 200 biomarkera od kojih ni jedan nije pokazao zadovoljavajuću senzitivnost i specifičnost. Uloga B limfocita u patogenezi sepse pri tome je nedovoljno istražena. Članovi superfamilije tumor-nekrozis faktora alfa: A proliferation inducing ligand (APRIL), Bcell activating factor (BAFF) i solubilni transmembrane activator and calcium modulator cyclophilin ligand interactor (sTACI) su citokini koji imaju ključnu ulogu u homeostazi B limfocita. Cilj istraživanja bio je da se ispita dijagnostički i prognostički značaj citokina članova superfamilije tumor nekrozis faktora alfa (APRIL, BAFF, sTACI) za procenu težine kliničke slike, razvoja multiorganske disfunkcije (MODS) u prvih 48h hospitalizacije i letalnog ishoda sepse. Ispitanici i metode: Istraživanjem je obuhvaćeno 150 obolelih od sepse lečenih na Klinici za infektivne bolesti i Odeljenju anestezije i reanimacije Kliničkog centra Vojvodine i 30 zdravih dobrovljnih davalaca krvi. Kod svih bolesnika evidentirani su demografski i ostali podaci iz istorije bolesti kao i laboratorijske analize u okviru rutinske dijagnostike sepse. Iz dodatnih 5ml venske krvi svim ispitanicima određene su koncentracije APRIL-a, BAFF-a, sTACI-ja ELISA metodom komercijalnim testovima proizvođača R&amp;D Systems. Rezultati pokazuju da su koncentracije sva tri citokina (APRIL, BAFF i sTACI) statistički značajno povi&scaron;ene kod obolelih od sepse u odnosu na zdravu populaciju (p&lt;0.001), pri čemu APRIL pokazuje najveću senzitinvost (99%) i specifičnost (97%). Najveći dijagnostički značaj BAFF-a ogleda se u sposobnosti distinkcije između sepsi uzrokovanih Gram pozitivnim i Gram negativnim bakterijama (p=0,03). U predikciji razvoja MODS-a i letalnog ishoda sepse multivarijantnom regresionom analizom kao nezavisni prediktori pokazali su se jedino antiinflamatorni biomarker sTACI receptor i klinička procena pacijenta iskazana kroz APACHE II i SOFA skor. Senzitivnost i specifilnost sTACI receptora u predikciji razvoja MODS-a i letalnog ishoda daleko nadma&scaron;uje do sada rutinski kori&scaron;ćen prokalcitonin. Zaključak: Dobijeni rezultati ukazuju na to da su citokini koji učestvuju u regulaciji funkcije B limfocita značajni dijagnostički i prognostički parametri u sepsi. Predominacija antiinflamatornog odgovora na koju ukazuju povi&scaron;ene koncentracije sTACI receptora pokazala se pored APACHE II i SOFA skora kao jedini nezavisni prediktor razvoja MODS-a i letalnog ishoda septičnih bolesnika. Neophodna su dalja istraživanja u pravcu određivanja momenta kada u imunskom odgovoru organizam prelazi iz stanja dominacije proniflamatornog u dominaciju antiinflamatornog odgovora radi pravovremenog reagovanja imunomodulatornom terapijom.</p> / <p>Introduction: The nonspecific clinical presentation of sepsis and great individual response variations, as well as huge significance of adequate early prognosis of its clinical course and outcome made sepsis biomarkers research extremely significant. The properties of more than 200 biomarkers have been evaluated for prognostic value, but none have adequate specificity and sensitivity. The role of the B cells in sepsis pathogenesis also remains unclear. Tumor necrosis factor alpha (TNF-&alpha;) superfamily members: A proliferation inducing ligand (APRIL), Bcell activating factor (BAFF) and soluble transmembrane activator and calcium modulator cyclophilin ligand interactor (sTACI) are key factors in B cell biology. The aim of the study was to evaluate the diagnostic and prognostic significance of determining the concentrations of tumor necrosis factor alpha superfamily members for the prediction of MODS development in the first 48h of hospitalization as well as outcome prediction.<br />Subjects and methods: The study included 150 patients suffering from sepsis treated at the Clinic for infectious diseases and Department for anesthesiology and reanimatology of the Clinical center of Vojvodina, and 30 healthy volunteer blood donors. The demographic and other data regarding routine blood analysis performed during sepsis treatment of the patients has been acquired from their hospitalization documentation. Additional 5 ml of venous blood was taken from the patients and the concentrations of APRIL, BAFF and sTACI have been determined using the ELISA method by using R&amp;D Systems commercial kit&rsquo;s. Results: There is a statistically significant difference in concentrations of APRIL, BAFF and sTACI between healthy blood donors and septic patients (p&lt;0.001). APRIL showed the highest sensitivity (99%) and specificity (97%) in distinguishing sepsis from healthy subjects. BAFF showed statistically significant higher concentrations in Gram positive than in Gram negative sepsis (p=0,03). In the multivariate logistic regression analysis, only anti-inflammatory cytokine sTACI and APACHE II or SOFA score remained significant predictors of MODS and lethal outcome. sTACI showed greater sensitivity and specificity for MODS and outcome prediction then the widely used procalcitonin.&nbsp; Conclusions: The concentrations of TNF superfamily members, the main regulators of B cell function, have a significant diagnostic and prognostic value in predicting sepsis course and outcome. The predomination of the anti-inflammatory response, as being pointed out by elevated concentrations of sTACI receptors, has proved to be the only independent predictor, besides APACHE II and SOFA score, in MODS and lethal outcome development in sepsis. Further research is needed in order to accurately determine the exact moment when the immunological response shifts from the predominance of the pro-inflammatory response to the predominance of the anti-inflammatory response, so as to ensure the timely application of therapy that modulates the immunological response.</p>

Localization and regulation of trpv4 channels in CILIATED epithelia

Lorenzo Moldero, Ivan

24 July 2008

La neteja del moc i dels patògens dels pulmons, i el transport de gàmets i embrions en els òrgans reproductius de les femelles són funcions clau en els epitelis ciliats, tals com aquells que es troben presents en les vies respiratòries i l'oviducte. La taxa de transport mucociliar és funció de la freqüència de batut ciliar (CBF) i aquesta freqüència és augmentada per increments en la concentració de Ca2+ intracelul·lar. El canal catiònic "transient potential vanilloid 4" (TRPV4) intervé en l'entrada de Ca2+ en resposta a estímuls mecànics i osmòtics. L'expressió del TRPV4 en l'epiteli ciliat de les vies respiratòries i de l'oviducte és confirmada mitjançant la localització per immunofluorescència del canal iònic a la membrana apical de l'epiteli ciliat i polaritzat, allà on la senyalització de Ca2+ és requerida per la regulació de la CBF. Cèl·lules ciliades de la tràquea de ratolins TRPV4-/- no expressen el canal TRPV4, no responen a l'activador específic del TRPV4, el 4&#945;-phorbol 12,13-didecanoate (4&#945;-PDD) i presenten respostes de Ca2+ reduïdes a temperatures mitjanes (~25ºC- 8ºC), un altre estímul dels canals TRPV4. L'activació dels canals TRPV4 per solucions altament viscoses i per hypotonicitat depèn de l'activació de la via de la fosfolipasa A2(PLA2)i la subseqüent producció de àcid epoxieicosatrienoic (EET). En condicions de baixa activació de la PLA2, estímuls mecànics i hipotònics alliberen ATP per a l'activació de la via de la fosfolipasa C (PLC)-inositol trifosfat (IP3) per contribuir a l'activació dels canals TRPV4. Descrivim que el metabòlit IP3 sense ser un agonista per ell mateix, sensibilitza el TRPV4 per a l'activació de EET, essent aquest un mecanisme general. L'acoblament funcional entre els canals TRPV4 de la membrana plasmàtica i els receptors de IP3 (IP3R) és necessari tant per iniciar com mantenir la senyalització oscil·latòria del Ca2+ desencadenada per estímuls viscosos i hipotònics. Un dels principals activadors de la CBF, la adenosina-5'-trifosfat (ATP), desencadena una resposta cel·lular mediada per Ca2+ en la que es desencadena tant l'alliberament de Ca2+ des dels dipòsits intracel·lulars com l'entrada de Ca2+. És destacable la contribució de el TRPV4 en l'augment de la CBF mediada per ATP. És més, el nostre treball implica als canals TRPV4 exclusivament en l'entrada de Ca2+ activada per receptor (ROCE). Tot plegat, aquesta tesi doctoral mostra el paper dels canals TRPV4 en l'acoblament d'estímuls fisiològics tipus mecànic, osmòtic i químic a la regulació de la CBF en l'epiteli ciliat destinat al transport mucociliar. / Clearance of mucus and pathogenic agents from lungs and the transport of gametes and embryos in the female reproductive organs are key functions of ciliated epithelia such as those present in the airways and the oviduct. The rate of mucociliary transport is a function of ciliary beat frequency (CBF) and this, in turn, is increased by increases in intracellular calcium. Transient potential vanilloid 4 (TRPV4)cation channel mediates Ca2+ influx in response to mechanical and osmotic stimuli. TRPV4 expression in ciliated epithelia from airways and oviduct is confirmed by immunofluorescence localization of the channel at the apical membrane of the polarized ciliated epithelia, where the Ca2+ signalling is required for CBF regulation. Ciliated tracheal cells from TRPV4-/-mice show no TRPV4 expression, neither increases in intracellular Ca2+ and CBF in response to the TRPV4-specific activator 4&#945;- phorbol 12,13- idecanoate (4&#945;-PDD), and reduced responses to mild temperatures (~25ºC - 38ºC), another TRPV4-activating stimulus. TRPV4 gating by high viscous loads and hypotonicity depends on phospholipase A2 (PLA2) pathway activation and subsequent production of epoxyeicosatrienoic acid (EET). Under conditions of low PLA2 activation, mechanical and hypotonic stimuli use extracellular ATP release-mediated activation of phospholipase C (PLC)-inositol triphosphate(IP3)signalling to support TRPV4 gating. We describe that IP3, without being an agonist itself, sensitizes TRPV4 to EET activation. Besides, the functional coupling between plasma membrane TRPV4 channels and IP3 receptors (IP3R) is required to initiate and maintain the cellular oscillatory Ca2+ signal triggered by high viscous loads and hypotonic stimuli. One of the main CBF activators, adenosine-5'-triphosphate (ATP), triggers both Ca2+ release from intracellular Ca2+ stores and Ca2+ entry. Interestingly, TRPV4 contributes to ATP-induced increase in CBF. Furthermore, our work implicates TRPV4 channel exclusively in receptor-operated Ca2+ entry. Collectively, this PhD thesis shows the role of TRPV4 channels coupling physiologically relevant mechanical, hypotonic and chemical stimuli to CBF regulation in motile ciliary epithelia.

hypotonicity

viscosity

ATP

TRPV4

receptor operated-calcium entry

ion channel

TRP superfamily

inositol-1 4 5-triphosphate

phospholipase A2

ciliary cell culture

patch-clamp

immunofluorescence

calcium imaging

cell volume regulation

ciliary beat frequency

ciliated epithelia

mucus transport

cilia

oviduct

airways

61

616.2

Proteínas de movimiento de la familia 30K:interacción con membranas biológicas y factores proteicos y su implicación en el transporte viral

Peiró Morell, Ana

30 March 2015

Para que el proceso infeccioso de un virus de plantas tenga éxito la progenie viral tiene que propagarse desde las primeras células infectadas al resto de la planta; inicialmente se moverá célula a célula a través de los plasmodesmos (PDs) hasta alcanzar el sistema vascular, lo cual le permitirá invadir las partes distales de la planta. En este proceso, las proteínas de movimiento (MPs), junto con la colaboración de otros actores secundarios, desempeñan un papel relevante. El conocimiento de la posible asociación de las MPs con estructuras u orgánulos celulares así como de la interacción con factores del huésped es de vital importancia para poder desarrollar estrategias antivirales que permitan una mejora en la producción de los cultivos. Además, este tipo de estudios no sólo han posibilitado un mayor conocimiento de las respuestas al estrés en plantas sino que han sido pioneros en desentrañar los mecanismos de translocación intercelular de factores celulares implicados en los procesos de desarrollo de las plantas. Las MPs virales se clasifican en familias/grupos en función de su grado de similitud. Los virus, cuyas MPs pertenecen a la Superfamilia 30K, expresan una única MP encargada de orquestar el movimiento intra- e intercelular de genoma viral. En el Capítulo 1 de la presente Tesis se ha caracterizado la asociación de la MP del Virus del mosaico del tabaco (TMV), miembro tipo de la familia 30K, al sistema de endomembranas. Mediante el uso de aproximaciones in vivo se ha estudiado la eficiencia de inserción de sus regiones hidrofóbicas (HRs) en la membrana del retículo endoplasmático (ER). Nuestros resultados demuestran que ninguna de las dos HRs de la MP es capaz de atravesar las membranas biológicas y que la alteración de la hidrofobicidad de la primera HR es suficiente para modificar su asociación a la membrana. En base a los resultados obtenidos, proponemos un modelo topológico en el cual la MP del TMV se encontraría fuertemente asociada a la cara citosólica de la membrana del ER, sin llegar a atravesarla. La observación de que i), el modelo propuesto es compatible con otros motivos, previamente caracterizados, de la MP de TMV y ii), concuerda con la topología descrita para otras MPs de la familia 30K, permite cuestionar el modelo establecido desde el año 2000 para la MP de TMV así como predecir, en base a la conservada estructura secundaria de las MPs de esta familia, una topología similar para todos sus componentes. Para el transporte intercelular de los virus de plantas se han descrito tres modelos en base a la capacidad de transportar complejos ribonucloeprotéicos, a través de PD modificados, formados por el RNA viral y la MP (ej. MP de TMV) más la proteína de cubierta (ej. MP del virus del mosaico del pepino, CMV) o la capacidad de transportar viriones a través estructuras tubulares formadas por la MP (ej. MP del Virus del mosaico del caupí, CPMV). A pesar de las diferencias observadas entre los tres modelos, las MPs representativas de cada uno de ellos pertenecen a la misma familia 30K y son funcionalmente intercambiables (MPs de TMV, CMV, CPMV, Virus del mosaico del Bromo -BMV- o Virus de los anillos necróticos de los prunus -PNRSV-) por la MP del Virus del mosaico de la alfalfa (AMV), para el transporte a corta distancia. Con el objeto de comprender la versatilidad que presentan las MPs en cuanto al movimiento viral, hemos analizado la capacidad de estas MPs heterólogas de transportar sistémicamente el genoma quimérico del AMV. El estudio ha revelado que todas las MPs analizadas permiten el transporte del genoma quimera a las partes distales de la planta, independientemente del modelo descrito para el transporte a corta distancia, aunque requieren la extensión de los 44 aminoácidos C-terminales de la MP del AMV. Además, para todas las ellas, excepto para la MP del TMV, se ha establecido una relación entre la capacidad de movimiento local y la presencia del virus en las hojas no inoculadas de la planta, indicando la existencia de un umbral de transporte célula a célula, por debajo del cual, el virus es incapaz de invadir sistémicamente la planta. Durante el proceso de infección viral, las MPs interaccionan tanto con otras proteínas de origen viral como de la planta huésped. La interacción entre las MPs y dichos factores de la planta afectan a la patogénesis viral, facilitando u obstaculizando el movimiento intra- o intercelular del virus. En el Capítulo 3 del presente trabajo hemos demostrado la interacción entre la MP del AMV y dos miembros de la familia de Patellinas de arabidopsis, Patellin 3 (atPATL3) y Patellin 6 (atPATL6), mediante el sistema de los dos híbridos de levadura y ensayos de reconstitución bimolecular de la fluorescencia. Nuestros resultados, en general, demuestran que la interacción entre la MP-PATLs obstaculizaría un correcto direccionamiento de la MP al PD, dando lugar a un movimiento intracelular menos eficiente de los complejos virales, que forma la MP, y disminuyendo el movimiento célula a célula del virus. Podríamos estar hablando de un posible mecanismo de defensa de la planta, dirigido a evitar la invasión sistémica del huésped. En este sentido, las MPs virales pueden ser buenos candidatos para el desarrollo de estrategias antivirales dado que cualquier respuesta de defensa de la planta que, a priori, reduzca el transporte célula a célula del virus, puede representar la diferencia entre una infección local o sistémica, como hemos observado en el Capítulo 2 del presente trabajo. Los virus, a su vez, también son capaces de evolucionar hacia variantes más eficaces, que permitan superar las diferentes barreras defensivas de la planta huésped. En este contexto hemos identificado a la MP del Virus del bronceado del tomate (TSWV) como determinante de avirulencia en la resistencia mediada por el gen Sw-5. Del mismo modo, comprobamos que el cambio de 1-2 residuos de amino ácidos de la MP de TSWV fue suficiente para superar la resistencia pero que a la vez, y posiblemente debido a las altas restricciones que conlleva el reducido genoma de un virus, afectaron a la eficiencia de la MP. / Peiró Morell, A. (2014). Proteínas de movimiento de la familia 30K:interacción con membranas biológicas y factores proteicos y su implicación en el transporte viral [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/48471 / TESIS

Plant virus

Movement protein (MP)

30K Superfamily

Membrane association

Membrane protein topology

Tobacco mosaic virus (TMV)

Alfalfa mosaic virus (AMV)

AMV system

Intercellular movement

Systemic movement

Patellin

Ilarvirus

Avr

Competition assays

Movement protein NSm

Tospovirus, Sw-5 resistance gene

Transient expression.

Rôle des signaux pro-survie du récepteur Fas/CD95 dans le cancer colorectal : importance du dialogue moléculaire entre Fas et l’EGFR (Epidermal Growth Factor Receptor) / Dissecting the Fas life-death signaling pathways in colorectal cancer : importance of the Fas-Epidermal growth factor receptor (EGFR) crosstalk

Ta, Ngoc Ly

25 October 2018

Le cancer colorectal (CCR) est la troisième maladie maligne la plus fréquente et la deuxième cause de décès par cancer. La famille des récepteurs tyrosine kinases transmembranaires ErbB a été identifiée comme l'un des principaux moteurs du développement et de la progression du CCR et l'un de ses membres les plus connus, le récepteur du facteur de croissance épidermique (EGFR / ERBB1 / Her1), considéré comme l'une des cibles les plus importantes en traitement CRC. Deux autres membres de la famille ErbB, les récepteurs Her2 et Her3, apparaissent également comme de nouvelles cibles importantes pour le CRC en raison de la mutation somatique, de l’amplification génique ou de la résistance aux traitements anti-EGFR. La protéine transmembranaire, Fas (TNFRSF6 / CD95), est un membre de la superfamille des récepteurs du facteur de nécrose tumorale (TNFRSF). Il peut transmettre des signaux multiples qui mènent à des destins de cellules complètement différents. Selon les contextes cellulaires, Fas initie la mort cellulaire par apoptose, essentielle pour arrêter les réponses immunitaires chroniques et prévenir l'auto-immunité et le cancer, ou pour stimuler la survie, la prolifération et la motilité des cellules, ce qui favorise l'auto-immunité, la croissance cancéreuse et les métastases. Avec des preuves de plus en plus nombreuses de la signalisation pro-survie médiée par Fas, les activités de promotion du cancer chez les patients atteints de cancer sont maintenant reconnues comme étant significatives et cliniquement pertinentes. Bien que cette polyvalence de signalisation ait été particulièrement bien démontrée dans le cancer du côlon, les mécanismes moléculaires qui sous-tendent les voies de survie sont encore largement inconnus. Dans ce contexte, l'objectif principal de mon doctorat Le projet visait à étudier l’importance du crosstalks entre les membres de la famille Fas et ErbB et, plus particulièrement, à déterminer si la signalisation Fas pouvait influencer la signalisation de l’EGFR favorisant le cancer.Plus précisément, je décris comment l’état de phosphorylation de la tyrosine Fas influence fortement la signalisation de la voie EGFR dans les cellules colorectales. Mes données démontrent que Fas dans son état prosurvival, phosphorylé à Y291 (pY291-Fas), interagit en effet avec EGFR et que cette interaction intensifie significativement la signalisation de l'EGFR dans les cellules cancéreuses colorectales anti-EGFR via la voie Yes-1 / STAT3. Le pY291-Fas s'accumule dans le noyau lors du traitement par EGF et favorise la localisation nucléaire du phospho-EGFR et du phospho-STAT3, l'expression de la cycline D1, l'activation des voies Akt et MAPK médiées par STAT3 et enfin la prolifération et la migration cellulaires. De plus, je découvre également le rôle potentiel que Her3 pourrait jouer avec Fas dans la libération des cellules cancéreuses colorectales de l'inhibition anti-EGFR.Tous ensemble mon doctorat des études permet de mieux comprendre le rôle des voies de survie de Fas dans la signalisation ErBb dans le CRC. Fait important, en démontrant un lien entre l'émergence d'une résistance aux traitements anti-ErbB et le signal de Fas pro-survie, mon travail justifie le développement d'une thérapie ciblée Fas / phospho-Fas comme nouvelle option thérapeutique pour surmonter les anti-EGFR, chez les patients présentant une résistance anti-EGFR secondaire. / Colorectal cancer (CRC) is the third most common malignant disease and the second most frequent cause of cancer-related death. The ErbB family of transmembrane receptor tyrosine kinases has been identified as a major driver of the development and progression of CRC and one its best-known member, the epidermal growth factor receptor (EGFR /ERBB1/Her1), considered one of the most important targets in CRC treatment. Two others members of the ErbB family, the receptors Her2 and Her3, also emerge as important new targets for CRC due to the somatic mutation, gene amplification or resistance to the anti-EGFR therapies. The transmembrane protein, Fas (TNFRSF6/CD95), is a member of the tumor necrosis factor receptor superfamily (TNFRSF). It can transmit multiple signals that lead to completely different cell fates. Depending on cellular contexts, Fas either initiates cell death by apoptosis, which is essential for shutting down chronic immune responses and preventing autoimmunity and cancer, or stimulates cell survival, proliferation, and motility, which can promote autoimmunity, cancer growth, and metastasis. With increasing evidence of Fas-mediated pro-survival signaling, the cancer-promoting activities of Fas are now recognized as significant and clinically relevant. While this signaling versatility has been particularly well demonstrated in colon cancer, the molecular mechanisms underlying the survivals pathways are still largely unknown. In this context, the main aim of my Ph.D. project was to study the importance of the crosstalks between Fas and the ErbB family members and more specifically to determine whether the Fas signaling could influence the cancer-promoting signaling of EGFR.More precisely, I describe how the Fas tyrosine phosphorylation status strongly influences the signaling of the EGFR pathway in colorectal cells. My data demonstrate that Fas in its prosurvival state, phosphorylated at Y291 (pY291-Fas), indeed interacts with EGFR and that this interaction significantly intensifies EGFR signaling in anti-EGFR-resistant colorectal cancer cells via the Yes-1/STAT3-mediated pathway. The pY291-Fas accumulates in the nucleus upon EGF treatment and promotes the nuclear localization of phospho-EGFR and phospho-STAT3, the expression of cyclin D1, the activation of STAT3-mediated Akt and MAPK pathways, and finally the cell proliferation and migration. Additionally, I also uncover the potential role that Her3, may play along with Fas, in the colorectal cancer cell escape from anti-EGFR inhibition. All together my Ph.D. studies provide a better understanding of the role of the Fas survival pathways in the ErBb signaling in CRC. Importantly, by demonstrating a connection between the emergence of resistance to anti-ErbB therapies and the Fas pro-survival signal, my work provides a rationale for the development of Fas/phospho-Fas targeted therapy as a new therapeutic option for overcoming anti-EGFR, in patients with secondary anti-EGFR resistance.

Akt

Cancer colorectal

Famille ErbB

Inhibition de l'EGFR

Fas

Her2

Her3

Translocation nucléaire

Prolifération

Résistance

STAT3

Migration

Akt

Colorectal cancer

ErbB family

Epidermal growth factor receptor

EGFR inhibition

Fas

Her2

Her3

Nuclear translocation

Proliferation

Resistance

STAT3

Migration