Régulation de l’hème oxygénase-1 dans les macrophages au cours des pathologies pulmonaires liées à l’exposition de la fumée de cigarette / Regulation of heme oxygenase-1 in macrophages in smoking related pulmonary disease

Goven, Delphine

10 July 2009

L’intoxication tabagique, source d’oxydants, est un facteur de risque important de développement de l’emphysème pulmonaire et du pneumothorax spontané primitif. Les macrophages alvéolaires contribuent pour une large part à l’inflammation pulmonaire au cours de ces pathologies en produisant des métalloprotéases et des espèces réactives de l’oxygène à l’origine du déséquilibre des balances protéase/anti-protéase et oxydant/antioxydant. L'hème oxygénase-1 (HO-1), exprimée principalement par les macrophages, est une enzyme clé des défenses anti-oxydantes pulmonaires. Nous avons initialement étudié l’expression et la localisation cellulaire de l’HO-1 et de ses régulateurs potentiels (Nrf2, Keap1, Bach1 et HIF-1a) dans les macrophages alvéolaires au cours de l’emphysème pulmonaire post-tabagique et du pneumothorax spontané primitif. Les voies de régulation de l’expression de ces protéines ont été analysées in vitro sur des macrophages dérivés de la lignée THP-1 exposés ou non au condensat de fumée de cigarette et à l’hypoxieréoxygénation visant à mimer une partie des effets de l’atélectasie-réexpansion observée lors de la prise en charge thérapeutique des pneumothorax récidivants. Les travaux présentés dans cette thèse nous ont permis de mettre en évidence une altération de l’expression de la voie Nrf2/Keap1-Bach1 associée à une diminution de l’expression des enzymes anti-oxydantes, dont l’HO-1, dans les macrophages alvéolaires au cours de l’emphysème pulmonaire sévère post-tabagique, malgré un stress oxydant important. In vitro, ces altérations pourraient être liées à une activation spécifique des MAPKinases ERK1/2 et JNK par le condensat de fumée de cigarette. Nous avons également montré que la stimulation du système de l’HO-1 était probablement orchestrée par la voie du facteur HIF-1a, et non par celle de Nrf2, dans les macrophages alvéolaires au cours du pneumothorax spontané primitif récidivant du sujet fumeur. Ces résultats pourraient contribuer à une meilleure connaissance de la physiopathologie de l’emphysème pulmonaire et permettre d’envisager de nouvelles approches thérapeutiques basées sur la préservation et/ou la restauration de l’équilibre Nrf2/Keap1-Bach1. Nos travaux suggèrent également que la physiopathologie du pneumothorax spontané primitif est différente chez les patients fumeurs et non fumeurs. Le pneumothorax du sujet fumeur est associé à un stress oxydant pulmonaire et à une induction de l’HO-1 probablement orchestrée par HIF-1a. Ces résultats, confirmés in vitro, mettent en évidence une interaction potentielle entre le stress oxydant et l’hypoxie-réoxygénation / Chronic cigarette smoking, a source of oxidants, is an important risk factor for lung emphysema and primary spontaneous pneumothorax development. Alveolar macrophages are mainly involved in lung inflammation observed in these pathologies through the production of metalloproteases and reactive oxygen species resulting to protease/anti-protease and oxidant/anti-oxidant imbalances. Heme oxygenase-1 (HO-1), mainly expressed in macrophages, is a key enzyme in pulmonary anti-oxidant defences. Therefore, the first aim of our studies was to investigate the expression and cellular localisation of HO-1 and its potential regulators (Nrf2, Keap1, Bach1 and HIF-1a) in alveolar macrophages from smoking related lung emphysema and primary spontaneous pneumothorax. Regulation pathways involved in expression of these proteins were assessed in vitro in macrophage cell line THP-1 exposed or not to cigarette smoke condensate and with or without hypoxia-reoxygenation mimicking parts of events induced by atelectasia-reexpansion during recurrent pneumothorax constitution and treatment. In these studies, we showed an altered expression of Nrf2/Keap1- Bach1 pathway associated with a reduced expression of anti-oxidants enzymes, like HO-1, in alveolar macrophages from smoking related lung emphysema patients, despite an important oxidative stress. These alterations might be related to cigarette smoke condensate activated ERK1/2 and JNK MAPKinases as observed in THP-1 cells. Furthermore, we showed that HO- 1 system induction was mediated by HIF-1a instead of Nrf2 pathway in alveolar macrophages from smoking related recurrent primary spontaneous pneumothorax. These findings may contribute to a better knowledge of the pathophysiology of lung emphysema and could provide new therapeutic approaches based on preservation and/or restoration of Nrf2/Keap1-Bach1 equilibrium. Our results also suggest that the pathophysiology of primary spontaneous pneumothorax could be different in smokers and non smokers. Spontaneous pneumothorax in smokers is associated with lung oxidative stress and the orchestrated induction of HO-1 probably via HIF-1a. These results provide a new link between oxidative stress and hypoxia/reoxygenation

Emphysème pulmonaire

Stress oxydant

Hème oxygénase-1

Macrophages

Fumée de cigarette

Nrf2

HIF-1a

MAPK

Hypoxie-réoxygénation

Lung emphysema

Oxidative stress

Heme oxygenase-1

Macrophages

Cigarette smoke

Nrf2

HIF-1a

MAPK

Hypoxiareoxygenation

The role of chaperone proteins in neurodegenerative diseases

Zhang, Xuekai

January 2013

Many neurodegenerative diseases are characterized by the accumulation of misfolded proteins that often share common morphological and biochemical features, and can similarly co-localize with several other proteins, including various chaperone proteins. Chaperone proteins, like heat shock protein 27 (HSP27), heme oxygenase 1 (HO-1) and clusterin, have been implicated as potent modulators of misfolded proteins, thus may play important roles in the pathogenesis of neurodegenerative diseases. The present study aims to investigate their roles in the pathogenesis of Frontotemporal lobar degeneration (FTLD), Alzheimer's disease (AD), Parkinson's disease (PD), and Motor neuron disease (MND) by determining their distribution and amount via immunohistochemical staining and western blotting in diseased and control subjects.There were distinct patterns of HSP27 and clusterin immunostaining in different brain regions. For HSP27, patients with AD and FTLD were in general more severely affected than were patients with MND and control subjects. For clusterin, patients with AD and FTLD were more severely affected than control subjects where neurons and glial cells were concerned, while patients with AD and control subjects were more severely affected than those with FTLD where diffuse and cored plaques were concerned. However, there were no obvious differences in the pattern of HO-1 immunostaining in various brain regions in patients with AD or FTLD relative to control subjects. Moreover, there was no association between HSP27, HO-1 and clusterin with disease or histological type, and the ‘classic’ neuropathological changes in FTLD, AD and MND were not immunoreactive to any of these proteins. There were significant correlations between the degrees of HO-1 and clusterin immunostaining in many brain areas for both AD and FTLD cases, and for all cases overall, but none between HSP27 and clusterin or HSP27 and HO-1. Present results suggest an involvement with ongoing cellular stress, misfolded or unfolded protein accumulation or the deficits/failure of other relevant protein quality control systems, in the pathogenesis of these neurodegenerative diseases. Present work may therefore have implications for the further development of ideas concerning the cause or treatment of neurodegenerative diseases where there is aberrant accumulation of misfolded, aggregated protein, and perhaps for conformational diseases in general. However, there are still many issues remain to be elucidated. Further research aimed at understanding the function and mechanisms of the chaperone system, and other protein quality control mechanisms, in the pathogenesis of neurodegenerative diseases is still needed.

616.8

Stress biomarkers in a rat model of decompression sickness /

Caviness, James A.

January 2005

Thesis (M.S.)--Uniformed Services University of the Health Sciences, 2005. / Typescript (photocopy).

Some aspects of molecular mechanisms of xenobiotics' hepatotoxicity and hepatoprotection : Modulatory roles of natural polyphenols

Lekic, Nataša

January 2013

Background & Aims: Oxidative stress and apoptosis are proposed mechanisms of cellular injury in studies of xenobiotic hepatotoxicity. The aim of this work is to find early signal markers of drug-induced injury of the liver by focusing on select antioxidant/oxidant and apoptotic genes. As well, to address the relationship between conventional liver dysfunction markers and the measured mRNA and protein expressions in the D-galactosamine/lipopolysaccharide and tert-butylhydroperoxide hepatotoxicity models. Furthermore, potential hepatoprotective capabilities of antioxidant polyphenols quercetin and curcumin were evaluated in relation to its modulation of the oxidative stress and apoptotic parameters in the given xenobiotic hepatotoxicity models. Methods: Biochemical markers testing the hepatic function included aminotransferases (ALT, AST) and bilirubin. Measurements of TBARS and conjugated dienes were used to assess lipoperoxidation. Plasma levels of catalase and reduced glutathione were used as indicators of the oxidative status of the cell. Real time PCR was used to analyse the mRNA expressions of the inducible nitric oxide synthase (NOS-2), heme oxygenase-1 (HO-1), superoxide dismutase (SOD-1), glutathione peroxidase (Gpx-1), caspase 3 (Casp3), BH3 interacting domain death agonist (Bid) and Bcl-2...