RT Dissertation/Thesis
T1 Nuclear activation of proteasome in oxidative stress and aging
A1 Catalgol,Betul
WP 2009/09/24
AB Poly(ADP-ribosyl)ation reactions are of interest in recent years and they take place in DNA repair in different processes especially following oxidative nuclear damage. Proteasomal reactions also take place in repair following oxidative nuclear damage with the degradation of oxidized histones.
Antitumor chemotherapy is generally believed to act via the oxidation of nuclear material in the tumor cells. Adaptation to oxidative stress appears to be one element in the development of long-term resistance to many chemotherapeutic drugs. The 20S proteasome has been shown to be largely responsible for the degradation of oxidatively modified proteins in the nucleus. Tumor cells are supposed to have a higher nuclear proteasome activity than do nonmalignant cells. Poly(ADP-ribosyl)ation reactions take place in the tumor cells as a consequence of chemotherapy. Such a reaction might occur with the 20S proteasome ?which is known to increase the activity- and also with histones ?which is firstly shown to decrease the degradation in this study. After hydrogen peroxide treatment of HT22 cells, degradation of the model peptide substrate suc-LLVY-MCA and degradation of oxidized histones in nuclei increased accompanied by an increase in PARP-1 mRNA expression. In the recovery of the level of protein carbonyls, single strand breaks and 8-OHdG, proteasome and PARP-1 were shown to play a role together. This was tested with inhibitor treatments. The proteasomal activation following poly(ADP-ribosyl)ation of proteasome and the decrease in poly(ADP-ribosyl)ation of histones and increase in the proteasomal degradation of histones following H2O2 treatment confirmed our hypothesis. 
The second part of the thesis shows the changes in PARP-1 and proteasome in different aged fibroblasts with population doublings 19, 36, and 56. The nuclear protective mechanisms were shown to be effected during the senescence process. PARP-1 protein amount decreased whereas there was no change in proteasome amount. PARP activation following H2O2 treatment increased only in young and middle aged cells.  In the nuclear extracts of young and old cells, poly(ADP-ribosyl)ation potentials were tested with NAD+ addition into the reaction. In addition to that active proteasome and PARP enzymes were added into the reaction and proteasome activity was measured. With active PARP, proteasome activity was increased both in young and old cells whereas there was no increase in old cells without PARP addition. These results show that proteasome activation is mainly limited by PARP activity. 
Taken together all results demonstrate the importance of PARP mediated proteasome activation in the repair of oxidatively damaged chromatin.
K1 Histone
K1 Proteasom
K1 NAD-ADP-Ribosyltransferase
K1 DNS-Reparatur
PP Hohenheim
PB Kommunikations-, Informations- und Medienzentrum der Universität Hohenheim
UL http://opus.uni-hohenheim.de/volltexte/2009/367