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Vpliv keratinskega citoskeleta na celični odgovor, povzročen z ionizirajočim sevanjem in citokini receptorjev smrti
ID Zupančič, Tina (Author), ID Liović, Mirjana (Mentor) More about this mentor... This link opens in a new window

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Abstract
Keratini so proteini intermediarnih filamentov, ki so izraženi v vseh tipih epitelijskih celic. Keratinske mutacije povzročajo številne hude dedne bolezni krhkosti kože. Med njimi je tudi bulozna epidermoliza simpleks (EBS), povezana z mutacijami v keratinih 5 in 14. Mutirani keratini tvorijo deformiran citoskelet intermediarnih filamentov in s tem spravijo keratinocite EBS v stresno stanje. Slednje povzroči stalno aktivacijo signalnih poti kinaze MAP in spremeni izražanje genov pri mnogih drugih proteinih, med katerimi imajo številni vlogo pri celični adheziji. Odkrili so, da imajo bolniki s hudo obliko EBS-DM povečano skupno tveganje za karcinom bazalnih celic, ki sovpada z izpostavljenostjo soncu, ni pa nujno, da se na teh območjih pojavlja mehurjenje kože. Za proučevanje vplivov keratinskih mutacij smo najprej uporabili celične linije, odvzete iz bolnikov z EBS v osnovnih celičnih testih, in pokazali, da lahko njihova različna genetska ozadja, ne glede na mutacijo v keratinih, najbolj vplivajo na odziv celic na različne tretmaje. Natančna opredelitev pogojev gojenja celične kulture (sestava gojišča, število nasajenih celic in število gojenja v kulturi) je zato bistvenega pomena za primerjavo. Primerjali smo keratinocite EBS s kontrolnimi celičnimi linijami in testirali njihovo obnašanje pri dveh različnih stresorjih, ki lahko povzročita celično smrt: ionizirajoče sevanje in citokini receptorjev smrti (TNF-a in TRAIL). Pridobljeni podatki so pokazali, da prihaja do precejšnjih razlik med odzivom keratinocitov EBS in normalnih celic. Ugotovili smo, da se je pri keratinocitih EBS po izpostavitvi ionizirajočemu sevanju spremenilo izražanje številnih proteinov, kot so: pChk2, pH2AX, pBRCA1 in pATM, ki so vsi vključeni v odgovor celice na poškodbo DNA. Najbolj izstopajoče je bilo znižanje izražanja proteina pChk2 pri keratinocitih EBS že pri normalnih pogojih gojenja, saj se lahko zaradi tega celica povsem drugače obnaša pri kontrolni točki G2/M celičnega cikla. Keratinociti EBS so bili tudi manj občutljivi, v primerjavi z normalnimi celicami za tretma s TNF-a in TRAIL, kar pa je lahko povezano z ugotovljenim povišanjem izražanja dveh preživetvenih proteinov, Bcl-2 in FLIP. Vse te spremembe lahko predstavljajo zaščitni mehanizem, ki pomaga pri preživetju keratinocitov EBS, hkrati pa lahko dovoli še močno poškodovanim celicam, da se izognejo kontrolnim točkam in apoptozi. To bi lahko predstavljalo prispevajoči faktor pri transformaciji celic.

Language:Slovenian
Keywords:intermediarni filament, keratin, bulozna epidermoliza, ionizirajoče sevanje, citokini, signalne poti receptorjev smrti, poškodba DNK
Work type:Doctoral dissertation
Organization:MF - Faculty of Medicine
Year:2020
PID:20.500.12556/RUL-113676 This link opens in a new window
COBISS.SI-ID:34675161 This link opens in a new window
Publication date in RUL:24.01.2020
Views:1926
Downloads:236
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Secondary language

Language:English
Title:The influence of the keratin cytoskeleton on the cell response caused by ionising radiation and death receptor cytokines
Abstract:
Keratins are intermediate filament proteins expressed in all epithelial cell types. Keratin gene mutations cause a number of severe hereditary skin fragility disorders. Among these is the simplex subtype of epidermolysis bullosa (EBS), linked to mutations in keratins 5 and 14. Mutated keratins form a defective intermediate filament cytoskeleton and place EBS keratinocytes in a state of stress. This causes a continuous activation of MAP kinase signaling pathawys and alters gene expression of hundreds of other proteins, many of which have a function in cell-cell and cell-surface adhesion. Patients with the severe EBS-DM phenotype have an increased cumulative risk for basal cell carcinoma that correlates with sun exposure, but may not entirely correlate with the regions of frequent skin blistering. To study the effects of keratin mutations, we first used patient-derived cell lines in cell based assays and demonstrate that regardless of the mutation their different genetic background may affect the way cells respond to experimental treatment in cell-based assays, so the accurate definition of cell culture conditions (the composition of medium, number of cells plated and number of days in the culture) is essential for the comparison. We compared patient-derived EBS keratinocytes with control cell lines and tested how they behave in the face of two different types of stressors that are able to induce cell death: ionizing radiation and cytokines TNF-a and TRAIL. The data point out to a substantial difference between how normal and keratin mutant keratinocytes deal with such stresses. Within the complex picture of events following exposure to ionizing radiation we established that the expression of a number of proteins involved in DNA damage response, such as pChk2, pH2AX, pBRCA1 and pATM, was changed in mutant keratinocytes. The most striking decrease was observed for pChk2, which appears constitutively down regulated in severe EBS mutants, and so may even modulate the G2/M cell cycle checkpoint in these cells. Keratin mutants also appear less sensitive than normal cells to treatment with TNF-a and TRAIL, and this may be linked to the up-regulation of two pro-survival proteins, Bcl-2 and FLIP. These changes may be a protective mechanism that helps promote survival of EBS keratinocytes, but may also allow severely damaged cells to escape checkpoint control and apoptosis, and in theory this also may be a contributing factor to the cell transformation.

Keywords:intermediate filament, keratin, epidermolysis bullosa, ionising radiation, cytokines, death receptor signalling, DNA damage

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