Protéases à serine du neutrophile et inflammations pulmonaires : 1. L’air exhalé condensé est-il un matériel adapté pour les mesures d’activités protéolytiques ? : 2. La spécificité des protéases neutrophiliques valide-t-elle l’utilisation du modèle souris de Broncho-Pneumopathie Chronique Obstructive (BPCO) ?

Le recrutement des neutrophiles qui caractérise l’inflammation observée lors de différentes pathologies pulmonaires conduit à la libération dans le milieu extracellulaire de protéases à sérine qui sont en partie responsables de la dégradation du tissu pulmonaire et/ou de la chronicité de l’inflammation. L’objectif initial de cette thèse était de développer une méthode de quantification de ces protéases, à partir des condensats d’air exhalé. En dépit de la sensibilité de la technique nous n’avons pas été en mesure de détecter des quantités significatives de protéases actives dans ces condensats. Ces résultats négatifs ont néanmoins permis de confirmer des hypothèses sur la distribution des protéases dans le milieu extracellulaire. La deuxième partie des travaux a été consacrée à la validation du modèle souris exposée à la fumée de cigarette comme modèle animal de bronchopneumopathie chronique obstructive. Nous avons purifié les trois protéases à sérine du neutrophile murin et avons construit des nouveaux substrats sensibles et spécifiques à partir des informations fournies par des études de modélisation moléculaire. Ces nouveaux outils permettent de valider l’utilisation du modèle souris pour comprendre le rôle des protéases à sérine dans la génération de peptides chimiotactiques au cours de la BPCO.Neutrophils recruitment is a hallmark of the inflammation associated with different lung diseases. This recruitment leads to the release in the extracellular matrix of serine proteases that are responsible at least in part, of the degradation of the pulmonary tissue and/or of the chronicity of inflammation. The initial objective of this thesis was to develop a method of quantification of these proteases, based on the analysis of exhaled air condensate. But in spite of the sensitivity of the methods, we have not been able to detect any significant activity of neutrophil serine proteases in these condensates. This negative result however gave support a hypothesis we formulated on the extracellular biodistribution of proteases in lung secretions. The second part of this thesis was devoted to the validation of an animal model of chronic obstructive pulmonary disease, i.e. the mouse exposed to cigarette smoke. We have purified three murine serine neutrophil proteases and developed new sensitive and specific FRET substrates which were designed starting from molecular modeling studies. These new tools that validate the use of the mouse model of human COPD, will be of great help to understand the role of serine proteases for generating chemotactic peptides during this chronic disease

Protéases à serine du neutrophile et inflammations pulmonaires (1. L'air exhalé condensé est-il un matériel adapté pour les mesures d'activités protéolytiques ?)

Le recrutement des neutrophiles qui caractérise l inflammation observée lors de différentes pathologies pulmonaires conduit à la libération dans le milieu extracellulaire de protéases à sérine qui sont en partie responsables de la dégradation du tissu pulmonaire et/ou de la chronicité de l inflammation. L objectif initial de cette thèse était de développer une méthode de quantification de ces protéases, à partir des condensats d air exhalé. En dépit de la sensibilité de la technique nous n avons pas été en mesure de détecter des quantités significatives de protéases actives dans ces condensats. Ces résultats négatifs ont néanmoins permis de confirmer des hypothèses sur la distribution des protéases dans le milieu extracellulaire. La deuxième partie des travaux a été consacrée à la validation du modèle souris exposée à la fumée de cigarette comme modèle animal de bronchopneumopathie chronique obstructive. Nous avons purifié les trois protéases à sérine du neutrophile murin et avons construit des nouveaux substrats sensibles et spécifiques à partir des informations fournies par des études de modélisation moléculaire. Ces nouveaux outils permettent de valider l utilisation du modèle souris pour comprendre le rôle des protéases à sérine dans la génération de peptides chimiotactiques au cours de la BPCO.Neutrophils recruitment is a hallmark of the inflammation associated with different lung diseases. This recruitment leads to the release in the extracellular matrix of serine proteases that are responsible at least in part, of the degradation of the pulmonary tissue and/or of the chronicity of inflammation. The initial objective of this thesis was to develop a method of quantification of these proteases, based on the analysis of exhaled air condensate. But in spite of the sensitivity of the methods, we have not been able to detect any significant activity of neutrophil serine proteases in these condensates. This negative result however gave support a hypothesis we formulated on the extracellular biodistribution of proteases in lung secretions. The second part of this thesis was devoted to the validation of an animal model of chronic obstructive pulmonary disease, i.e. the mouse exposed to cigarette smoke. We have purified three murine serine neutrophil proteases and developed new sensitive and specific FRET substrates which were designed starting from molecular modeling studies. These new tools that validate the use of the mouse model of human COPD, will be of great help to understand the role of serine proteases for generating chemotactic peptides during this chronic disease.TOURS-Bibl.électronique (372610011) / SudocSudocFranceF

Measuring elastase, proteinase 3 and cathepsin G activities at the surface of human neutrophils with fluorescence resonance energy transfer substrates

The neutrophil serine proteases (NSPs) elastase, proteinase 3 and cathepsin G are multifunctional proteases involved in pathogen destruction and the modulation of inflammatory processes. A fraction of secreted NSPs remains bound to the external plasma membrane, where they remain enzymatically active. This protocol describes the spectrofluorometric measurement of NSP activities on neutrophil surfaces using highly sensitive Abz-peptidyl-EDDnp fluorescence resonance energy transfer (FRET) substrates that fully discriminate between the three human NSPs. We describe FRET substrate synthesis, neutrophil purification and handling, and kinetic experiments on quiescent and activated cells. These are used to measure subnanomolar concentrations of membrane-bound or free NSPs in low-binding microplates and to quantify the activities of individual proteases in biological fluids like expectorations and bronchoalveolar lavages. the whole procedure, including neutrophil purification and kinetic measurements, can be done in 4-5 h and should not be longer because of the lifetime of neutrophils. Using this protocol will help identify the contributions of individual NSPs to the development of inflammatory diseases and may reveal these proteases to be targets for therapeutic inhibitors.Alexander von Humboldt FoundationGerman Research CouncilVaincre la MucoviscidoseFundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)Proteases & Vectorisat Pulm Fac Med, INSERM, U618, F-37032 Tours, FranceMax Planck Inst Neurobiol, Dept Neuroimmunol, D-82152 Planegg Martinsried, GermanyUniv Tours, F-37032 Tours, FranceUniversidade Federal de São Paulo, Escola Paulista Med, Dept Biofis, BR-0404420 São Paulo, BrazilINSERM, U921, F-37032 Tours, FranceUniversidade Federal de São Paulo, Escola Paulista Med, Dept Biofis, BR-0404420 São Paulo, BrazilWeb of Scienc

Structural Characterization of Mouse Neutrophil Serine Proteases and Identification of Their Substrate Specificities: RELEVANCE TO MOUSE MODELS OF HUMAN INFLAMMATORY DISEASES*

It is widely accepted that neutrophil serine proteases (NSPs) play a critical role in neutrophil-associated lung inflammatory and tissue-destructive diseases. To investigate NSP pathogenic role(s), various mouse experimental models have been developed that mimic acutely or chronically injured human lungs. We and others are using mouse exposure to cigarette smoke as a model for chronic obstructive pulmonary disease with or without exacerbation. However, the relative contribution of NSPs to lung disease processes as well as their underlying mechanisms remains still poorly understood. And the lack of purified mouse NSPs and their specific substrates have hampered advances in these studies. In this work, we compared mouse and human NSPs and generated three-dimensional models of murine NSPs based on three-dimensional structures of their human homologs. Analyses of these models provided compelling evidence that peptide substrate specificities of human and mouse NSPs are different despite their conserved cleft and close structural resemblance. These studies allowed us to synthesize for the first time novel sensitive fluorescence resonance energy transfer substrates for individual mouse NSPs. Our findings and the newly identified substrates should better our understanding about the role of NSPs in the pathogenesis of cigarette-associated chronic obstructive pulmonary disease as well as other neutrophils-associated inflammatory diseases

Measuring elastase, proteinase 3 and cathepsin G activities at the surface of human neutrophils with fluorescence resonance energy transfer substrates

The neutrophil serine proteases (NSPs) elastase, proteinase 3 and cathepsin G are multifunctional proteases involved in pathogen destruction and the modulation of inflammatory processes. A fraction of secreted NSPs remains bound to the external plasma membrane, where they remain enzymatically active. This protocol describes the spectrofluorometric measurement of NSP activities on neutrophil surfaces using highly sensitive Abz-peptidyl-EDDnp fluorescence resonance energy transfer (FRET) substrates that fully discriminate between the three human NSPs. We describe FRET substrate synthesis, neutrophil purification and handling, and kinetic experiments on quiescent and activated cells. These are used to measure subnanomolar concentrations of membrane-bound or free NSPs in low-binding microplates and to quantify the activities of individual proteases in biological fluids like expectorations and bronchoalveolar lavages. the whole procedure, including neutrophil purification and kinetic measurements, can be done in 4-5 h and should not be longer because of the lifetime of neutrophils. Using this protocol will help identify the contributions of individual NSPs to the development of inflammatory diseases and may reveal these proteases to be targets for therapeutic inhibitors.Alexander von Humboldt FoundationGerman Research CouncilVaincre la MucoviscidoseFundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)Proteases & Vectorisat Pulm Fac Med, INSERM, U618, F-37032 Tours, FranceMax Planck Inst Neurobiol, Dept Neuroimmunol, D-82152 Planegg Martinsried, GermanyUniv Tours, F-37032 Tours, FranceUniversidade Federal de São Paulo, Escola Paulista Med, Dept Biofis, BR-0404420 São Paulo, BrazilINSERM, U921, F-37032 Tours, FranceUniversidade Federal de São Paulo, Escola Paulista Med, Dept Biofis, BR-0404420 São Paulo, BrazilWeb of Scienc