Spelling suggestions: "subject:"polycrystallin"" "subject:"acrystallin""
1 |
Molecular Regulation of Inflammation and Angiogenesis in the Tumor MicroenvironmentDieterich, Lothar January 2011 (has links)
Tumor growth and progression not only depend on properties of the malignant cells but are strongly influenced by the tumor microenvironment. The tumor stroma consists of various cell types such as inflammatory cells, endothelial cells and fibroblasts, which can either inhibit or promote tumor growth. Consequently, therapeutic targeting of the tumor stroma is increasingly recognized as an important tool to fight cancer. Two particularly important processes that contribute to the pathology of most types of tumors are angiogenesis and inflammation. In order to target these processes specifically and efficiently, it is fundamental to identify and understand the factors and signaling pathways involved. This thesis initially describes the multiple functions of the small heat shock protein αB-crystallin in the tumor microenvironment. αB-crystallin was first identified in a screen of proteins specifically up-regulated in endothelial cells forming vessel-like structures. We found that αB-crystallin is expressed in a subset of tumor vessels and promotes angiogenesis by inhibiting endothelial apoptosis, suggesting that targeting of αB-crystallin might inhibit angiogenesis and thereby decrease tumor growth. However, we also discovered an important role of αB-crystallin in regulation of inflammatory processes. We show that αB-crystallin increases the surface levels of E-selectin, an important leukocyte-endothelial adhesion molecule. Thereby, αB-crystallin may alter leukocyte recruitment to inflamed tissues such as the tumor stroma. In addition, we found that αB-crystallin is expressed in immature myeloid cells that accumulate in the periphery and at the tumor site during tumor development. Importantly, lack of αB-crystallin resulted in increased accumulation of immature myeloid cells, which might increase tumor associated inflammation. Finally, through combining laser microdissection of vessels from human tissue and microarray analysis, we identified a gene expression signature specifically associated with vessels in high grade glioma. Blood vessels in malignant glioma are highly abnormal and contribute to the pathology of the disease. Thus, knowledge about the molecular set-up of these vessels might contribute to the development of future vascular normalizing treatments.
|
2 |
Fibrogenèse pulmonaire induite par la toxicité de la bléomycine et son point de départ sous-pleural / Bleomycin induced pulmonary toxicity and its subpleural onsetBurgy, Olivier 13 December 2016 (has links)
La fibrose pulmonaire (FP) idiopathique est une maladie sans traitement efficace caractérisée par une prolifération de myofibroblastes et par un départ sous-pleural suggérant un rôle de la plèvre. Le transforming growth factor (TGF)-ß1 induit un processus de transformation des cellules mésothéliales pleurales (CMP) en cellules de type myofibroblaste. Les protéines de choc thermique régulent la voie du TGF-ß1. L’importance de l’axe caspase-1/IL-1ß, a été décrite dans les modèles animaux de FP.La protéine de stress AlphaB-crystallin a été étudiée dans la FP au niveau des CMP et l’importance de l’axe caspase-1/IL-1ß a été recherchée au niveau des cellules structurales pulmonaires dans la toxicité de la bléomycine (BLM).aB-crystallin est surexprimée dans la FP idiopathique au niveau des CMP. Son inhibition empêche la transformation et la migration des CMP dans la fibrose pleuro-pulmonaire. Dans un modèle de FP induite par la BLM chez la souris, la voie caspase-1 est activée dans les régions pleurales. In vitro, la caspase-1 a un rôle crucial dans la transformation des CMP. Son activation induit une réaction fibrosante chez la souris. Dans une seconde partie, nous montrons qu’une forme déglycosylée de la BLM, incapable d’activer la caspase-1, n’induit pas de FP mais a une activité anti-cancéreuse. La déglyco-BLM n’entraine pas la pyroptose, mort caspase-1 dépendante, chez les cellules épithéliales alvéolaires. Nos résultats suggèrent qu’AlphaB-crystallin et la voie caspase-1/IL-1ß pourraient être des cibles thérapeutiques dans la FP idiopathique ou induite par la BLM. Nous apportons aussi une preuve de concept de l’utilisation de la déglyco-BLM comme alternative non toxique à la bléomycine. / Idiopathic Pulmonary Fibrosis (PF) is a rare and devastating disease without efficient treatment at this time. Idiopathic FP is characterized by accumulation of myofibroblasts and has a typical sub-pleural onset suggesting a role of the pleura in the disease. Transforming Growth Factor (TGF)-ß1 induces transformation of pleural mesothelial cells (PMC) into active cells exhibiting myofibroblast phenotype. Heat shock proteins can act as regulator of the TGF-ß1 signaling. A role for caspase-1/IL-1ß axis has already been described in animal models of PF.The heat shock protein AlphaB-crystallin has been studied in PF at the PMC level and the importance of caspase-1/IL-1ß axis has been investigated specifically in lung structural cells in the context of bleomycin (BLM) toxicity.AlphaB-crystallin is overexpressed by PMC during idiopathic PF. Its inhibition in mice interferes with PMC transformation and subsequent migration in pleuro-pulmonary fibrosis. In BLM-induced PF in mice, caspase-1 is activated in sub-pleural areas. In vitro, caspase-1 has a crucial role in the transformation process of PMC. Activation of caspase-1 triggers fibrotic response in mice. In a second part, we show that a deglycosylated form of BLM, which failed to promote caspase-1 activation, is unable to trigger PF but stills have an anti-tumor activity. Deglyco-BLM does not induce pyroptosis, a caspase-1 dependent cell death, in alveolar epithelial cells.Our data suggest that AlphaB-crystallin and caspase-1/IL-1ß could represent interesting therapeutic targets in idiopathic as well as BLM-induced PF. We also bring a proof of concept for the use of deglyco-BLM as a less toxic alternative to BLM in cancer therapy.
|
3 |
Veränderungen im Proteom von Maus und Mensch durch Huntington's ChoreaZabel, Claus 24 January 2003 (has links)
Die Erkrankung Huntington s Chorea ist eine autosomal dominant vererbte Erkrankung, die gewöhnlich im mittleren Lebensabschnitt beginnt und unausweichlich zum Tode führt. In unserem Bestreben, Proteine zu identifizieren, welche an Prozessen "Upstream" oder "Downstream" des krankheitsverursachenden Proteins Huntingtin beteiligt sind, wurde das Proteom eines sehr gut etablierten Mausmodells mit Hilfe der Großgel 2D-Elektrophorese untersucht. Es konnte zum ersten Mal auf Proteinebene nachweisen werden, dass die Expression von zwei Serinproteasehemmern, alpha1-Antitrypsin und Contraspin und darüber hinaus eines Chaperons, alphaB-Kristallin, im Verlauf der Erkrankung abnimmt. Reduzierte Expression von alpha1-Antitrypsin und Contraspin konnte in Gehirn, Leber, Herz und Testes nahe dem Endstadium der Erkrankung nachgewiesen werden. Hier ist es wichtig festzustellen, dass die Expressionsabnahme von alpha1-Antitrypsin im Gehirn der Abnahme in der Leber im Herzen und in den Testes vorangeht. Eine verminderte Expression des Chaperons alphaB-Kristallin wurde nur im Gehirn gefunden. Für ein weiteres Protein, das Major Urinary Protein, wurde eine verminderte Expression in der Leber und im Urin von betroffenen Mäusen festgestellt. Damit konnte demonstriert werden, dass die Erkrankung auf Proteinebene auch ein Protein, das im Gehirn von transgenen Mäusen nicht vorkommt, beeinflusst. Bei Untersuchungen am Menschen wurde in drei Gehirnregionen von Postmortem-Gehirnen von Huntington s Chorea Patienten eine veränderte Expression von alpha1-Antitrypsin festgestellt. Wenn gewährleistet werden kann, dass die Konzentration von alpha1-Antitrypsin und alphaB-Kristallin während Huntington s Chorea im Gewebe nicht absinkt, könnte dies vielleicht neuronalen Zelltod verhindern und somit bei der Verzögerung des Krankheitsverlaufs nutzbringend eingesetzt werden. / Huntington disease is an autosomal dominantly inherited disease that usually starts in midlife and inevitably leads to death. In an effort to identify proteins involved in processes upstream or downstream of the disease causing huntingtin, the proteome of a well-established mouse model was studied by large-gel 2D electrophoresis. It could be demonstrated for the first time at the protein level that two serin protease inhibitors, alpha1-antitrypsin and contraspin and the chaperone alphaB-crystallin decrease in expression over the course of disease. Importantly, the alpha1-antitrypsin decrease in the brain precedes that in liver, heart and testes in mice. Reduced expression of alpha1-antitrypsin and contraspin could be detected in the brain, liver heart and testes close to terminal disease. Decreased expression of the chaperone alphaB-crystallin was found exclusively in the brain. Reduced expression of the liver specific major urinary proteins not found in the brain, was seen in affected mice, demonstrating that the disease exerts its influence on a protein not present in the brain of transgenic mice at the protein level. When investigating three human brain regions obtained post-mortem from Huntington s disease patients, alpha1-antitrypsin expression was also altered. Maintaining alpha1-antitrypsin and alphaB-crystallin availability during the course of Huntington s disease might prevent neuronal cell death and therefore could be useful in delaying the disease progression.
|
Page generated in 0.0619 seconds