Regulation of the Drosophila Initiator Caspase Dronc through Ubiquitylation

Kamber Kaya, Hatem E.

17 January 2017

Apoptosis is a programmed cell death mechanism that is evolutionary conserved from worms to humans. Apoptosis is mediated by initiator and effector caspases. The initiator caspases carry long pro-domains for their interaction with scaffolding proteins to form a cell-death platform, which is essential for their activation. Activated initiator caspases then cleave effector caspases that execute cell death through cleaving downstream targets. In addition to their apoptotic function, caspases also participate in events where caspase activity is not required for cell killing, but for regulating other functions, so-called non-apoptotic functions of caspases. The Drosophila initiator caspase Dronc, the ortholog of mammalian caspase-2 and caspase-9 has a CARD domain that is essential for its interaction with the scaffolding protein Dark to form the apoptosome. Apoptosome formation is crucial for activation of Dronc. Activity of both initiator and effector caspases are further kept in control by the ubiquitin system to avoid inappropriate caspase activity. However, mechanistic details of how the ubiquitin system regulates activation of Dronc are not clear. Therefore, I investigated the ubiquitylation status of Dronc and its function in Drosophila. I found that Dronc is mono-ubiquitylated at Lys78 (K78) in its CARD domain, which blocks its interaction with Dark and formation of the apoptosome. Furthermore, I demonstrated that K78 mono-ubiquitylation plays an inhibitory role in Dronc’s non-apoptotic functions, which may not require its catalytic activity but may be important for the survival of the fly. This thesis study unveils the link between the ubiquitin system and caspases through a regulatory mechanism where a single mono-ubiquitylation event could inhibit both apoptotic and non-apoptotic functions of a caspase.

Apoptosis

Ubiquitin

Drosophila

Dronc

Caspases

Cell Death

Post-Translational Modifications (PTMs)

Apoptosome

Biochemistry

Cell and Developmental Biology

Molecular Biology

Molecular Genetics

The role of protein arginine methylation in T-lymphocyte activation

Geoghegan, Vincent L.

January 2012

T-lymphocytes are an essential cell type of the adaptive immune system. Due to their importance in immune responses and disorders, the molecular mechanisms leading to T-lymphocyte activation have been the subject of extensive research which has translated into important therapeutic developments. Early signalling events involving tyrosine phosphorylation are well characterised. However, later events involving other post-translational modifications are less well understood. Several studies have provided evidence suggesting a role for protein arginine methylation in T-lymphocyte activation. Arginine methylation is an essential post-translational modification in mammals and yet has not been extensively studied. No large scale analysis of arginine methylation sites has been performed. To gain insight into the role of protein arginine methylation in T-lymphocyte activation, the aims of this work were to: 1. Establish whether levels of arginine methylation are altered during Tlymphocyte activation 2. Use mass spectrometry based proteomics to identify arginine methylated proteins in the T-lymphocyte proteome 3. Further characterise an arginine methylated protein important to Tlymphocyte activation Arginine methylation was found to be induced after long term (>20 hours) stimulation of primary T-lymphocytes. Large increases in the main protein arginine methyltransferase, PRMT1, were also observed. Enrichment and labelling methods were developed to detect arginine methylated peptides from T-lymphocytes by mass spectrometry. This resulted in the identification of 265 unique arginine methylation sites in 141 proteins. 204 of the methylation sites were novel and 103 of the proteins had not previously been described as arginine methylated. Individual arginine methylation sites were characterised before and after activation of T-lymphocytes, with some sites showing significant changes in abundance. Among the novel arginine methylated proteins discovered were Dynamin II, WASp and WIPF1. These proteins are involved in re-organisation of the actin cytoskeleton at the immunological synapse formed between a Tlymphocyte and an antigen presenting cell. The functional consequences of the arginine methylation sites inWASp were characterised. WASp is essential for T-lymphocyte activation and some initial evidence showed that one of the arginine methylation sites is important for WASp activation.

616.07

Étude sur l'utilisation de liquides ioniques à base imidazolium pour l'extraction sélective de phosphopeptides

Sanon, Samantha Herntz

04 1900

La phosphorylation des protéines constitue l’une des plus importantes modifications post-traductionnelles (PTMs) et intervient dans de multiples processus physiologiques tels, la croissance, la différenciation cellulaire, l’apoptose, etc. En dépit de son importance, l’analyse des phosphoprotéines demeure une tâche difficile en raison de leur nature dynamique (car la phosphorylation des protéines est un processus réversible) et de leur faible abondance relative. En effet, la détermination des sites de phosphorylation est souvent difficile car les phosphopeptides sont souvent difficiles à détecter par des méthodes d’analyse chromatographique classique et par spectrométrie de masse (MS). De récentes études ont démontré que les nombreuses méthodes d’enrichissement de phosphopeptides existantes ne sont pas complètes, et que le nombre total de phosphopeptides détectés ne chevauchent pas complètement ces méthodes. C’est pour cela qu’il existe une nécessité de combler les lacunes des méthodes d’enrichissement existantes afin d’avoir des analyses phosphoprotéomiques plus complètes. Dans cette étude, nous avons utilisé les liquides ioniques (LI), plus particulièrement les sels d’imidazolium, comme une technique d’enrichissement alternative, dans le but de favoriser une extraction sélective de phosphopeptides présents en solution. Les sels d’imidazolium ont donc été utilisés en raison de leurs propriétés physico-chimiques "facilement" ajustables selon la nature des substituants sur le noyau imidazolium et la nature de l’anion. Les sels de monoimidazolium et de bis-imidazolium possédant respectivement des chaînes linéaires à 4, 12 et 16 atomes de carbone et ayant différents anions ont été synthétisés et utilisés pour effectuer des extractions liquide-liquide et solide-liquide des phosphopeptides en solution. Dans un premier temps, des extractions liquide-liquide ont été réalisées en utilisant un liquide ionique (LI) ayant une chaine linéaire de 4 atomes de carbone. Ces extractions réalisées avec le bis(trifluoromethanesulfonyl) amide de 3-butyl-1-methylimidazolium (BMIM-NTf2) et l’hexafluorophosphate de 3-butyl-1-methylimidazolium (BMIM-PF6) n’ont pas montré une extraction notable du PPS comparativement au PN. Dans un deuxième temps, des extractions solide-liquide ont été réalisées en fonctionnalisant des particules solides avec des sels d’imidazolium possédant des chaines linéaires de 12 ou 16 atomes de carbone. Ces extractions ont été faites en utilisant un phosphopentapeptide Ac-Ile-pTyr-Gly-Glu-Phe-NH2 (PPS) en présence de 2 analogues acides non-phosphorylés. Il a été démontré que les sels d’imidazolium à chaine C12 étaient meilleurs pour extraire le PPS que les deux autres peptides PN (Ac-Ile-Tyr-Gly-Glu-Phe-NH2) et PE (Ac-Glu-Tyr-Gly-Glu-Phe-NH2) L’électrophorèse capillaire (CE) et la chromatographie liquide à haute performance couplée à la spectrométrie de masse (LC-MS) ont été utilisées pour quantifier le mélange des trois peptides avant et après extraction ; dans le but de mesurer la sélectivité et l’efficacité d’extraction de ces peptides par rapport à la composition chimique du liquide ionique utilisé. / Protein phosphorylation is one of the most important post-translational modifications because it is involved in multiple physiological processes such as growth, differentiation, apoptosis, etc. Despite its importance, the analysis of phosphoproteins remains a difficult task due to their dynamic nature (phosphorylation of proteins is a reversible process) and their low abundance. Indeed, the determination of phosphorylation sites is difficult because phosphopeptides are often difficult to detect by conventional chromatographic analysis and by mass spectrometric (MS) methods. Recent studies have shown that the existing methods of enrichment of phosphopeptides are not complete, and the total number of phosphopeptides detected does not overlap completely with those detected by these methods. The gaps in existing enrichment methods need to be filled in order to have more complete phosphoproteomic analyses. In the current study, ionic liquids (IL), specifically imidazolium salts, have been used in an alternative enrichment technique with potential for selective extraction of phosphopeptides from solution. Imidazolium salts were chosen because their physicochemical properties are readily adjustable depending on the nature of the substituent attached to the imidazolium core and the counter-anion. Monoimidazolium and bis-imidazolium salts with linear chains having respectively 4, 12, and 16 carbon atoms and with different anions were synthesized and used to carry out liquid-liquid and solid-liquid extractions of a phosphorylated peptide from a solution. At first, liquid-liquid extractions were carried out using an ionic liquid (IL) with a linear chain of 4 carbon atoms. These extractions performed with bis (trifluoromethanesulfonyl) amide 3-butyl-1-methylimidazolium (BMIM-NTf2) and hexafluorophosphate 3-butyl-1-methylimidazolium (BMIM-PF6) did not show a considerable extraction of PPS comparatively to the PN. Secondly, solid-liquid extractions were done by first functionalizing solid-phase particles with the imidazolium salts. The extractions were carried out using the phosphopentapeptide Ac-pTyr-Ile-Gly-Glu-Phe-NH2 (PPS) and its acidic non-phosphorylated analogues. It has been shown that the C12 chain imidazolium salts were better to extract PPS than the other two peptides PN (Ac-Ile-Tyr-Gly-Glu-Phe-NH2) and PE (Ac-Glu-Tyr-Gly-Glu-Phe-NH2). The extraction efficiency of these peptides was estimated by capillary electrophoresis (CE) and high performance liquid chromatography coupled with mass spectrometry (LC-MS).

Protéines

Phosphorylation

Phosphopeptide

Synthèse

Sels d’imidazolium

Extraction liquide- liquide

Extraction solide-liquide

Électrophorèse capillaire (CE)

Proteins

Post-translational modifications (PTMs)

Synthesis

peptides

Imidazolium salts

Liquid-liquid extraction

Solid-liquid extraction

Capillary Electrophoresis (CE)

Mass Spectrometric Analyses of Post-Translationally Modified Proteins / Massenspektrometrische Analyse post-translational modifizierter Proteine

Hsiao, He-Hsuan

09 August 2010

No description available.

500 Naturwissenschaften

Biology (incl. Psychology)

ChopNSpice

Kalziumphosphat-Präzipitation (CPP)

Glykosylierungen

Massenspektrometrie (MS)

Phosphorylierungen

Pseudo-Neutral-Loss Scan

SUMOylierungen

ChopNSpice

Calcium Phosphate Precipitation (CPP)

Glycosylation

Mass Spectrometry (MS)

Phosphorylation

Post-Translational Modifications (PTMs)

Pseudo-Neutral-Loss Scan

SUMOylation

58.3

WA 320: Spektroskopie {Biologie}

WA 330: Chromatographie {Biologie}

WA 340: Elektrophorese {Biologie}