Proteases and programmed cell death in fungi

Wilkinson, Derek

January 2011

Programmed cell death in animals, plants and protists is in part regulated by a variety of proteases, including cysteine aspartyl proteases, (caspases, paracaspases and metacaspases), cathepsins, subtilisin-like serine proteases, vacuolar processing enzymes and the proteasome. The role of different proteases in the cell death responses of the fungi is however largely unknown. A greater understanding of the fungal cell death machinery may provide new insights into the mechanisms and evolution of PCD and potentially reveal novel targets for a new generation of antifungal drugs. The role of a metacaspase encoding gene, MCA1, in the cell death response of the human pathogen Candida albicans pathogen has been investigated by functional analysis. MCA1 deletion not only alters the sensitivity of cells to a number of cell death stimuli, it also enhances virulence in an insect model. C. albicans shows altered cell and colony morphology on Lee’s medium. Evidence is presented to suggest that these functions appear to be dependent upon active mitochondria. In this study it has also been shown that key caspase substrates may be conserved between humans and the yeasts Saccharomyces cerevisiae and Candida albicans. Many substrates, particularly those which are essential, have retained their caspase cleavage motifs. 14 protease mutants displayed altered activity against caspase 1, 3, 6 or 8 substrates during acetic acid-induced PCD and caspase 1-like activity appeared to be particularly associated with PCD. Using a novel bioinformatic analysis of experimental LC-MS/MS data, changes in the degradation patterns of the proteome (destructome) following acetic acid-induced cell death have been investigated in wild-type yeast. In addition, potential native substrates of the yeast Mca1 have also been identified. The future challenge is to characterise the destructome of different proteases under a range of cell death conditions. In this way it may be possible to identify key components of the cell death machinery and their substrates and so reveal the most promising targets for future therapeutics.

571.936

Plasmas micro-ondes d'argon à la pression atmosphérique : diagnostics et applications au nettoyage de surfaces / Atmospheric pressure argon microwave plasmas : diagnostics and applications to surface cleaning

Noel, Cédric

13 May 2009

Les travaux présentés dans ce mémoire concernent l’étude des plasmas d’argon créés dans une cavité résonnante micro-ondes fonctionnant à la pression atmosphérique et leur application au nettoyage de surface. Tout d’abord, une étude des enjeux du nettoyage de surfaces industrielles est présentée ainsi qu’un état de l’art des solutions existantes et leurs limitations, mettant en évidence l’intérêt des plasmas comme alternative, notamment ceux fonctionnant en cavité résonnante micro-ondes à pression atmosphérique dont les particularités sont présentées. Dans le cas de l’argon, ces décharges présentent la particularité de ne pas être homogènes mais constituées de un ou plusieurs filaments de faibles diamètres, dépendant des conditions expérimentales. L’étude de la filamentation de ces décharges est l’objet du second chapitre où il a été mis en évidence les corrélations, dans le cas d’un filament unique, entre ses dimensions, sa température et la puissance dissipée et qu’il existait un seuil de puissance au-delà duquel la filamentation apparaissait. Une modélisation électromagnétique simple a été réalisée permettant de décrire l’influence des paramètres principaux de la décharge sur la filamentation. Le troisième chapitre présente les résultats de la caractérisation d’un filament d’argon par absorption laser en plasma continu et pulsé. L’effet de l’addition d’oxygène y est également présenté. Le dernier chapitre concerne l’étude de l’application des post-décharges micro-ondes à la pression atmosphérique créées dans des mélanges argon-azote et argon-oxygène au nettoyage de surface. On y étudie notamment l’interaction de ces post-décharges avec des molécules organiques modèles (acide stéarique et 1-octadécène). L’analyse de surface avec des techniques d’analyse d’extrême surface par spectrométrie de masse (ToF-SIMS et FTMS) a permis d’améliorer notre compréhension des mécanismes de nettoyage / The present work deals with the study of argon microwave plasmas generated in resonant cavity at atmospheric pressure and their application to surface cleaning. First, a study of the aim of surface cleaning of industrial surfaces is presented, followed by a state of the art of existing solutions and their limitations, showing the interest of plasmas as an alternative, especially atmospheric pressure microwave resonant cavity plasmas. In the case of argon, these plasmas have the particularity to be inhomogeneous and constituted of one or many small diameter filaments, depending on experimental conditions. The study of the filamentation of these discharges is the subject of the second chapter. In the case of one filament, correlations have been evidenced between its size, its temperature and the dissipated power. A simple electromagnetic simulation allowed us to describe the influence of the main plasmas parameters on the filamentation process. The third chapter presents results from the characterisation of a single argon filament by the mean of diode laser absorption in continuous and pulsed plasma mode. The effect of oxygen addition is also studied. The last chapter deals with the study of the use of atmospheric pressure microwave post-discharges in argon-nitrogen or argon-oxygen mixtures for surface cleaning application. We studied the interaction of such post-discharges with model organic molecules (stearic acid and 1-octadecene). Surface analyses by the mean of extreme surface analysis techniques based on mass spectrometry (ToF-SIMS and FTMS) allow us to improve our understanding of cleaning mechanisms

Spectrométrie de masse

ToF-SIMS

Post-décharge

Plasma

Pression atmosphérique

Nettoyage de surface

Cavité résonnante

Filamentation

Acide stéarique

Argon

Absorption laser

1-octadécène

Xps

ToF-SIMS

Ftms

Mass spectometry

Stearic acid

Neospora caninum: estudo do secretoma e caracterização molecular de três proteínas com domínios Apple / Neospora caninum: study of the secretome and molecular characterization of three proteins containing Apple domains

Oliveira, Letícia Pollo de

08 November 2013

Neospora caninum (filo Apicomplexa) é um parasita obrigatório intracelular como todos os membros deste filo, alguns reconhecidos por causarem doenças com impacto relevante na saúde humana (Plasmodium e Toxoplasma) e veterinária (Babesia, Eimeria e Cryptosporidium). Causador da neosporose, N. caninum vem emergindo como um dos maiores causadores de abortos infecciosos em bovinos, levando a consideráveis perdas econômicas na bovinocultura mundial. Devido à sua recente descoberta, o conhecimento sobre diversos processos bioquímicos de N.caninum ainda é limitado, demandando novas pesquisas para a compreensão de seus mecanismos de sobrevivência e consequente identificação de alvos para intervenção terapêutica. O processo de invasão celular é bastante investigado em pesquisas envolvendo apicomplexas, uma vez que a sobrevivência desses parasitas depende do sucesso de sua entrada na célula hospedeira. Proteínas secretadas de organelas filo-específicas (micronemas, roptrias e grânulos densos) estão intimamente envolvidas com a invasão celular. Elas são responsáveis pela interação inicial com a célula hospedeira, participam da junção de movimento formada no momento da invasão, e contribuem para a estabilização do vacúolo parasitóforo. Neste trabalho as proteínas secretadas por taquizoítas de N. caninum foram investigadas de duas formas: (1) por caracterização molecular de proteínas com domínio Apple; e (2) por estudo do secretoma do parasita. Os domínios proteicos do tipo Apple são caracterizados pela capacidade de interação proteína-proteína e proteína-carboidrato, e estão presentes em algumas proteínas micronêmicas com propriedades adesivas. Neste trabalho três proteínas de N. caninum contendo domínios Apple foram caracterizadas: MIC17A, MIC17B e MIC17C. A análise das sequências proteicas e das estruturas dos domínios Apple, obtidas por modelagem molecular, mostraram alta identidade sequencial e estrutural entre MIC17A e MIC17C. Apesar de ser paráloga às outras duas, MIC17B apresenta diferenças importantes em sua sequência e estrutura. Para MIC17B e MIC17C foram realizados experimentos de detecção das proteínas nativas nos extratos total e secretado do taquizoíta que sugerem diferentes formas de processamento entre essas proteínas no parasita. Para MIC17B foi confirmada a localização em micronemas, num padrão diferente do observado para MIC17C. Os ensaios de invasão combinados aos de localização indicam que estas proteínas estejam relacionadas ao processo de invasão celular, porém, suas funções permanecem desconhecidas. O secretoma é o conjunto de proteínas secretadas pelo parasita e, para explorar a composição deste extrato (ESA) no taquizoíta de N. caninum, duas abordagens complementares foram utilizadas. Na primeira abordagem foram identificadas as proteínas presentes no ESA por espectrometria de massas. Na segunda abordagem realizou-se uma ii quantificação relativa das proteínas, marcadas por dois isótopos, nos extratos totais de taquizoítas submetidos ou não ao estímulo secretório. O resultado esperado seria com as proteínas secretadas diminuídas no parasita estimulado. Em ambas as abordagens foram utilizadas técnicas de espectrometria de massas de alta resolução (nanoLC-MS/MS), o que resultou num alto número de identificações; 615 proteínas no ESA e 2011 proteínas quantificadas. A comparação das duas abordagens permitiu o reconhecimento de proteínas com maior probabilidade de secreção. Uma rede de interação entre as proteínas diferencialmente expressas foi predita, gerando resultados que, associados às informações sobre as proteínas aumentadas, permitiram uma investigação sobre proteínas potencialmente envolvidas com a regulação do metabolismo relacionado à secreção. Os resultados obtidos por ambos os estudos aqui demonstrados somam conhecimento acerca do parasita N. caninum e demonstram ser úteis para guiar a busca e seleção de alvos a serem investigados para o desenvolvimento de terapêutica contra a neosporose. / Neospora caninum (Apicomplexa phylum) is an obligatory intracellular parasite like all members from this phylum, some causing diseases with relevant impact on human (Plasmodium and Toxoplasma) and veterinary (Babesia, Eimeria and Cryptosporidium) health. Causative agent of neosporosis, N. caninum has emerged as one of the leading causes of infectious abortion in cattle, generating huge economical losses in worldwide livestock. Due to its recent discovery, knowledge of N. caninum biochemical processes remains scarce, demanding new research for comprehending its survival mechanisms and, consequently, identifying new targets for therapeutic intervention. The invasion process has often been investigated in apicomplexans since their survival depends on the success of their entry into the host cell. Proteins secreted from phylum-specific organelles (micronemes, rhoptries and dense granules) are deeply involved with invasion. They are responsible for the initial interaction with the host cell; participate of the moving junction formed in the moment of invasion; and contribute for the stabilization of the parasitophorus vacuole. In this study, the proteins secreted by N. caninum tachyzoites were investigated in two ways: (1) the molecular characterization of Apple domaincontaining proteins; and (2) exploring the parasite secretome. The Apple protein domains are characterized by the ability to interact as protein-protein and proteincarbohydrate, and are present in some microneme proteins with adhesive properties. Here three N. caninum proteins containing Apple domains were characterized: MIC17A, MIC17B and MIC17C. Analyses of the Apple domains sequences and structures, obtained by molecular modeling, revealed high sequential and structural identities between MIC17A and MIC17C. Although being a paralog of the other two proteins, MIC17B presents significant differences in its sequence and structure. Experiments were performed for native MIC17B and MIC17C detection in the total and secreted tachyzoite extracts, suggesting different processing forms for these proteins in the parasite. For MIC17B, the microneme localization was confirmed, differently from the pattern observed for MIC17C. Invasion and localization assays indicated that these proteins are related to the cell invasion process; nevertheless, their functions remain unknown. The secretome is the set of proteins secreted by the parasite and, to explore this extract (ESA) composition in N. caninum, two complementary approaches were used. Firstly proteins present in ESA were identified by mass spectrometry. In the second approach, a relative quantification was performed on the proteomes of ethanol stimulated/non stimulated tachyzoites, expecting that the secreted proteins would be down regulated at the stimulated parasite. Both approaches were performed with high resolution mass spectrometry techniques (nanoLC-MS/MS), reaching a high number of identifications: 615 proteins iv in ESA and 2011 quantified proteins. The comparison between both approaches allowed the recognition of the most likely secreted proteins. An interaction network was predicted, involving the differentially expressed proteins. These results, associated with the information of up regulated proteins, allowed the investigation of proteins potentially involved with the secretion metabolism regulation. The findings from our two studies add up knowledge about N. caninum and demonstrate to be useful in guiding the search and selection for new targets for therapeutic development against neosporosis.

Apicomplexa

Apicomplexa

Apple domains

cell invasion

dense granules

domínios Apple

espectrometria de massas

grânulos densos

invasão celular

mass spectometry

micronemas

micronemes

nanoLC-MS/MS

nanoLC-MS/MS

Neospora caninum

Neospora caninum

proteins interaction network

rede de interação de proteínas.

rhoptries

roptrias

secretoma

secretome

Neospora caninum: estudo do secretoma e caracterização molecular de três proteínas com domínios Apple / Neospora caninum: study of the secretome and molecular characterization of three proteins containing Apple domains

Letícia Pollo de Oliveira

08 November 2013

Neospora caninum (filo Apicomplexa) é um parasita obrigatório intracelular como todos os membros deste filo, alguns reconhecidos por causarem doenças com impacto relevante na saúde humana (Plasmodium e Toxoplasma) e veterinária (Babesia, Eimeria e Cryptosporidium). Causador da neosporose, N. caninum vem emergindo como um dos maiores causadores de abortos infecciosos em bovinos, levando a consideráveis perdas econômicas na bovinocultura mundial. Devido à sua recente descoberta, o conhecimento sobre diversos processos bioquímicos de N.caninum ainda é limitado, demandando novas pesquisas para a compreensão de seus mecanismos de sobrevivência e consequente identificação de alvos para intervenção terapêutica. O processo de invasão celular é bastante investigado em pesquisas envolvendo apicomplexas, uma vez que a sobrevivência desses parasitas depende do sucesso de sua entrada na célula hospedeira. Proteínas secretadas de organelas filo-específicas (micronemas, roptrias e grânulos densos) estão intimamente envolvidas com a invasão celular. Elas são responsáveis pela interação inicial com a célula hospedeira, participam da junção de movimento formada no momento da invasão, e contribuem para a estabilização do vacúolo parasitóforo. Neste trabalho as proteínas secretadas por taquizoítas de N. caninum foram investigadas de duas formas: (1) por caracterização molecular de proteínas com domínio Apple; e (2) por estudo do secretoma do parasita. Os domínios proteicos do tipo Apple são caracterizados pela capacidade de interação proteína-proteína e proteína-carboidrato, e estão presentes em algumas proteínas micronêmicas com propriedades adesivas. Neste trabalho três proteínas de N. caninum contendo domínios Apple foram caracterizadas: MIC17A, MIC17B e MIC17C. A análise das sequências proteicas e das estruturas dos domínios Apple, obtidas por modelagem molecular, mostraram alta identidade sequencial e estrutural entre MIC17A e MIC17C. Apesar de ser paráloga às outras duas, MIC17B apresenta diferenças importantes em sua sequência e estrutura. Para MIC17B e MIC17C foram realizados experimentos de detecção das proteínas nativas nos extratos total e secretado do taquizoíta que sugerem diferentes formas de processamento entre essas proteínas no parasita. Para MIC17B foi confirmada a localização em micronemas, num padrão diferente do observado para MIC17C. Os ensaios de invasão combinados aos de localização indicam que estas proteínas estejam relacionadas ao processo de invasão celular, porém, suas funções permanecem desconhecidas. O secretoma é o conjunto de proteínas secretadas pelo parasita e, para explorar a composição deste extrato (ESA) no taquizoíta de N. caninum, duas abordagens complementares foram utilizadas. Na primeira abordagem foram identificadas as proteínas presentes no ESA por espectrometria de massas. Na segunda abordagem realizou-se uma ii quantificação relativa das proteínas, marcadas por dois isótopos, nos extratos totais de taquizoítas submetidos ou não ao estímulo secretório. O resultado esperado seria com as proteínas secretadas diminuídas no parasita estimulado. Em ambas as abordagens foram utilizadas técnicas de espectrometria de massas de alta resolução (nanoLC-MS/MS), o que resultou num alto número de identificações; 615 proteínas no ESA e 2011 proteínas quantificadas. A comparação das duas abordagens permitiu o reconhecimento de proteínas com maior probabilidade de secreção. Uma rede de interação entre as proteínas diferencialmente expressas foi predita, gerando resultados que, associados às informações sobre as proteínas aumentadas, permitiram uma investigação sobre proteínas potencialmente envolvidas com a regulação do metabolismo relacionado à secreção. Os resultados obtidos por ambos os estudos aqui demonstrados somam conhecimento acerca do parasita N. caninum e demonstram ser úteis para guiar a busca e seleção de alvos a serem investigados para o desenvolvimento de terapêutica contra a neosporose. / Neospora caninum (Apicomplexa phylum) is an obligatory intracellular parasite like all members from this phylum, some causing diseases with relevant impact on human (Plasmodium and Toxoplasma) and veterinary (Babesia, Eimeria and Cryptosporidium) health. Causative agent of neosporosis, N. caninum has emerged as one of the leading causes of infectious abortion in cattle, generating huge economical losses in worldwide livestock. Due to its recent discovery, knowledge of N. caninum biochemical processes remains scarce, demanding new research for comprehending its survival mechanisms and, consequently, identifying new targets for therapeutic intervention. The invasion process has often been investigated in apicomplexans since their survival depends on the success of their entry into the host cell. Proteins secreted from phylum-specific organelles (micronemes, rhoptries and dense granules) are deeply involved with invasion. They are responsible for the initial interaction with the host cell; participate of the moving junction formed in the moment of invasion; and contribute for the stabilization of the parasitophorus vacuole. In this study, the proteins secreted by N. caninum tachyzoites were investigated in two ways: (1) the molecular characterization of Apple domaincontaining proteins; and (2) exploring the parasite secretome. The Apple protein domains are characterized by the ability to interact as protein-protein and proteincarbohydrate, and are present in some microneme proteins with adhesive properties. Here three N. caninum proteins containing Apple domains were characterized: MIC17A, MIC17B and MIC17C. Analyses of the Apple domains sequences and structures, obtained by molecular modeling, revealed high sequential and structural identities between MIC17A and MIC17C. Although being a paralog of the other two proteins, MIC17B presents significant differences in its sequence and structure. Experiments were performed for native MIC17B and MIC17C detection in the total and secreted tachyzoite extracts, suggesting different processing forms for these proteins in the parasite. For MIC17B, the microneme localization was confirmed, differently from the pattern observed for MIC17C. Invasion and localization assays indicated that these proteins are related to the cell invasion process; nevertheless, their functions remain unknown. The secretome is the set of proteins secreted by the parasite and, to explore this extract (ESA) composition in N. caninum, two complementary approaches were used. Firstly proteins present in ESA were identified by mass spectrometry. In the second approach, a relative quantification was performed on the proteomes of ethanol stimulated/non stimulated tachyzoites, expecting that the secreted proteins would be down regulated at the stimulated parasite. Both approaches were performed with high resolution mass spectrometry techniques (nanoLC-MS/MS), reaching a high number of identifications: 615 proteins iv in ESA and 2011 quantified proteins. The comparison between both approaches allowed the recognition of the most likely secreted proteins. An interaction network was predicted, involving the differentially expressed proteins. These results, associated with the information of up regulated proteins, allowed the investigation of proteins potentially involved with the secretion metabolism regulation. The findings from our two studies add up knowledge about N. caninum and demonstrate to be useful in guiding the search and selection for new targets for therapeutic development against neosporosis.

Apicomplexa

domínios Apple

espectrometria de massas

grânulos densos

invasão celular

micronemas

nanoLC-MS/MS

Neospora caninum

rede de interação de proteínas.

roptrias

secretoma

Apicomplexa

Apple domains

cell invasion

dense granules

mass spectometry

micronemes

nanoLC-MS/MS

Neospora caninum

proteins interaction network

rhoptries

secretome

Synergistes jonesii, gen. nov., sp.nov.: A Rumen Bacterium That Degrades Toxic Pyridinediols

Allison, Milton J., Mayberry, Wiliam R., Mcsweeney, Christopher S., Stahl, David A.

01 January 1992

This study was conducted to identify and characterize rumen bacteria that are able to degrade the toxic compound, 3-hydroxy-4(lH)-pyridone (3,4 DHP), that is produced in the rumen from mimosine. Mimosine is a non-protein amino acid that is found in leaves and seeds of Leucaena leucocephala, a leguminous tree used as a forage crop for ruminants in the tropics, and degradation of 3,4 DHP by ruminal microbes is critical for protection of animals from leucaena toxicity. Microbes with this capacity are, however, not ubiquitous and microbial populations in the rumens of animals in some parts of the world are unable to metabolize 3,4 DHP. Four strains of obligately anaerobic, gram-negative, rod-shaped bacteria that degrade 3,4 DHP were isolated from rumen contents from a goat in Hawaii. The isolates do not ferment carbohydrates, but are able to use both 3,4 DHP and its isomer, 3-hydroxy-2(lH)-pyridone (2,3 DHP), as well as arginine and histidine as substrates for growth. Comparisons of the 16S rRNA sequence from one of these isolates with sequences from a widely diverse group of bacteria agree with other information indicating that these isolates do not fit into any existing taxon. Thus, we are hereby proposing a new genus and species designation, Synergistes jonesii, for these organisms.

DHP

dihydroxypyridine

ECL

equivalent chain length

gas chromatography/mass spectometry

gas-liquid chromatography

GC/MS

GLC

high-performance liquid chromatography

HPLC

leucaena

mimosine

pyridinediol detoxification

relative molar response

RMR

rumen bacteria

synergistes jonesii gen. nov.

sp. nov.

TFA

TMS

trifluoro-acetyl

trimethylsilyl