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Nivo izražanja in aktivnost cisteinskih katepsinov S in X na vnetnem modelu nevrodegeneracije
ID Hergouth, Lucija (Author), ID Pišlar, Anja (Mentor) More about this mentor... This link opens in a new window

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Abstract
Cisteinska katepsina S in X sta bila prepoznana kot pomembna encima pri številnih patoloških stanjih, med drugim tudi pri nevrodegenerativnih boleznih. Njuno spremenjeno izražanje, aktivnost in neželen vpliv na centralni živčni sistemu je bil raziskan že na različnih modelih nevrodegeneracije, kot je na primer model Parkinsonove ali Alzheimerjeve bolezni. Cilj naše magistrske naloge pa je bil ovrednotenje nivoja izražanja in aktivnosti katepsinov S in X na in vitro in in vivo vnetnem modelu nevrodegeneracije, ki oponašata procese pri multipli sklerozi. In vitro model smo postavili s pomočjo celične linije oligodendrocitov HOG. Najprej smo postavili celični model diferenciacije, ki je nujen proces za nastanek oligodendrocitov, sposobnih mielinizacije. Pri spremljanju morfoloških lastnosti celic, stimuliranih z brez-serumskim in brez-serumskim gojiščem z dodanim forbolnim estrom smo ugotovili, da celice tretirane s slednjim izražajo številne izrastke, hkrati pa je analiza proliferacije celic pokazala trend diferenciacije pri celicah stimuliranih z obema gojiščema. Opazili smo tudi povišan nivo izražanja mielinskega bazičnega proteina v diferenciranih celicah. Hkrati pa smo pokazali, da diferenciacija nima vpliva na aktivnosti katepsinov S in X. V nadaljevanju smo postavili in vitro model nevrodegeneracije z uporabo vnetnih citokinov interferona ^ (IFN-^) in tumor nekrotizirajoč faktorja ^ (TNF-^). Najprej smo s pretočno citometrijo potrdili njune citotoksične učinke na celicah HOG, nato pa izmerili aktivnosti katepsinov S in X v celičnih lizatih po stimulaciji celic. Dokazali smo, da IFN-^ vodi v statistično značilno znižano aktivnost katepsina S in X. Tretiranje s TNF-^ pa je pokazalo rezultate, ki kažejo trend, da se aktivnost katepsina S rahlo zviša, katepsina X pa zniža, vendar v manjši meri kot pri IFN-^. Povišan proteinski nivo katepsina X v supernatantih nakazuje tudi na njegovo izločanje iz celic v zunajcelični prostor. Rezultate smo dopolnili še z vrednotenjem in vivo živalskega modela eksperimentalnega avtoimunega encefalomielitisa. V homogenatih različnih regij možganov in hrbtenjače smo preverili nivo izražanja, aktivnost in lokalizacijo katepsinov S in X. Dokazali smo značilno povišano aktivnost katepsinov S in X v hrbtenjači živali na vrhuncu bolezni, medtem ko je bil proteinski nivo katepsinov najbolj povišan ob koncu bolezni. Z imunofluorescenčnim označevanjem pa smo še dodatno pokazali, da je izražanje katepsinov S in X v perifernem živcu povišano ob koncu bolezni, in sicer v vnetnih celicah, kar smo pokazali z uporabo označevalca arginaza-1. V magistrski nalogi smo potrdili, da sta proteinski nivo izražanja in aktivnost katepsinov S in X v nevrodegenerativnih procesih, posredovanih z vnetjem, povišana, kar označuje oba katepsina kot potencialni tarči za zdravljenje tovrstnih stanj.

Language:Slovenian
Keywords:katepsin S, katepsin X, oligodendrociti, celice HOG, model EAE
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2022
PID:20.500.12556/RUL-141377 This link opens in a new window
Publication date in RUL:29.09.2022
Views:740
Downloads:178
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Secondary language

Language:English
Title:Protein expression and activity of cysteine cathepsins S and X in inflammatory model of neurodegeneration
Abstract:
Cysteine cathepsins S and X have been recognised as important enzymes in different pathological disorders, including neurodegenerative diseases. Their protein expression, activity and undesired role in the central nervous system has already been studied in different neurodegenerative models, such as Parkinson’s and Alzheimer’s diseases. The goal of our master thesis was to evaluate protein expression and activity of cathepsins S and X in in vitro and in vivo model of neurodegeneration, that mimic pathological features of multiple sclerosis. To design in vitro model, we used HOG cell line. Firstly, we set up a cell differentiation model. Differentiation is a key process to form mature myelinating oligodendrocytes. Observing morphological characteristics of cells stimulated with serum-free medium and serum-free medium with phorbol ester led us to a finding that cells treated with the latter show many neuritogenic processes. In cell proliferation analysis we observed a trend of differentiation in both media. We also showed higher myeline basic protein expression in differentiated cells. On the other hand, we proved that differentiation does not impact on cathepsins S in X activities in cells. Furthermore, we developed in vitro neurodegenerative model with inflammatory cytokines interferon ^ (IFN-^) and tumour necrosis factor ^ (TNF-^). First, we proved their cytotoxic effect on HOG cells with flow cytometry and then we measured cathepsins S and X activities in cell lysates after stimulation with IFN-^ or TNF-^. We proved statistically significant lower cathepsins S and X activities after treatment with IFN-^. TNF-^ treatment showed a trend of higher cathepsin S activity and lower cathepsin X activity, compared to control, which was not so prominent as after IFN-^ treatment. Higher protein expression of cathepsin X in supernatants also indicates on enzyme secretion in extracellular space. We complimented these results with evaluation of in vivo inflammatory animal model of experimental autoimmune encephalomyelitis. We analysed protein expression, activity and localization of cathepsins S and X in homogenates of different brain regions and spinal cord regions. We proved higher cathepsins S and X activities in spinal cord of animals in peak disease. However, the protein expression was the highest at the end of the disease. Immunofluorescent staining also confirmed higher cathepsins S and X expressions in inflammatory cells marked with arginase-1 in peripheral nerve at the end of disease. To conclude, in our master thesis we have confirmed higher cathepsins S and X protein expressions and activities in neurodegenerative processes mediated with inflammation. This finding designates cathepsin S and X as potential targets for treatment of this kind of disorders.

Keywords:cathepsin S, cathepsin X, oligodendrocytes, HOG cells, EAE model

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