화학공학소재연구정보센터
Biochemical and Biophysical Research Communications, Vol.391, No.1, 800-805, 2010
Naturally- and experimentally-designed restorations of the Parkin gene deficit in autosomal recessive juvenile parkinsonism
Intranuclear events due to mutations in the Parkin gene remain elusive in autosomal recessive juvenile parkinsonism (ARJP) We identified a mutant PARKIN protein in fibroblast cultures from a pair of siblings with ARJP who were homozygous for the exon 4-deleted Parkin gene Disease was mild in one patient and debilitating in the other. The detected mutant, encoded by a transcript lacking exon 3 as well as exon 4, is an in-frame deletion that removes 121 aa, resulting in a 344-aa protein (PaDel3A). Cell culture and transfection studies revealed negative correlations between expression levels of PaDel3,4 and those of cell cycle proteins, including cyclin E, CDK2, ppRb, and E2F-1, and demonstrated that GFP-PaDel3,4 entered nucleus and ubiquitinated cyclin E as a part of SCFhSel-10 ligase complex in the patient cells. In addition, nuclear localization signal-tagged PaDel3,4 expressed in the transfected patient cells most effectively ubiquitinated cyclin E and reduced DNA damage, protecting cells from oxidative stress. Antisense-oligonucleotide treatment promoted skipping of exon 3 and thus generated PaDel3,4, increasing cell survival Collectively, we propose that naturally- and experimentally-induced exon skipping at least partly restores the mutant Parkin gene deficit, providing a molecular basis for the development of therapeutic exon skipping (C) 2009 Elsevier Inc All rights reserved,