Your search keyword '"Wonkyung Oh"' showing total 2 results

1. Jab1 Mediates Cytoplasmic Localization and Degradation of West Nile Virus Capsid Protein

Author

Wonkyung Oh, Jaewhan Song, Ki Moon Park, Eun-Woo Lee, Suhkneung Pyo, Joo Sung Yang, Mi Ran Yang, and Han Woong Lee

Subjects

Gene Expression Regulation, Viral, Cytoplasm, Immunoprecipitation, viruses, Protein subunit, Molecular Sequence Data, Active Transport, Cell Nucleus, Biology, Biochemistry, Cell Line, Tumor, Two-Hybrid System Techniques, medicine, Humans, Amino Acid Sequence, COP9 signalosome, Nuclear export signal, Molecular Biology, Cell Nucleus, COP9 Signalosome Complex, Cell Cycle, Intracellular Signaling Peptides and Proteins, Cell Biology, biology.organism_classification, Molecular biology, Cell nucleus, Flavivirus, medicine.anatomical_structure, Capsid, Capsid Proteins, West Nile virus, Peptide Hydrolases, Signal Transduction

Abstract

The clinical manifestations of West Nile virus (WNV), a member of the Flavivirus family, include febrile illness, sporadic encephalitis, and paralysis. The capsid (Cp) of WNV is thought to participate in these processes by inducing apoptosis through mitochondrial dysfunction and activation of caspase-9 and caspase-3. To further identify the molecular mechanism of the WNV capsid protein (WNVCp), yeast two-hybrid assays were employed using WNV-Cp as bait. Jab1, the fifth subunit of the COP9 signalosome, was subsequently identified as a molecule that interacts with WNVCp. Immunoprecipitation and glutathione S-transferase pulldown assays confirmed that direct interaction could occur between WNVCp and Jab1. Immunofluorescence microscopy demonstrated that the overexpressed WNVCp, which localized to the nucleolus, was translocated to the cytoplasm upon its co-expression with Jab1. When treated with leptomycin B, Jab1-facilitated nuclear exclusion of WNVCp was prevented, which indicated that the CRM1 complex is required for Jab1-facilitated nuclear export of WNVCp. Moreover, Jab1 promoted the degradation of WNVCp in a proteasome-dependent way. Consistent with this, WNVCp-mediated cell cycle arrest at the G(2) phase in H1299 was prevented by exogenous Jab1. Finally, an analysis of WNVCp deletion mutants indicated that the first 15 amino acids were required for interaction with Jab1. Furthermore, the double-point mutant of the WNVCp, P5A/P8A, was incapable of binding to Jab1. These results indicate that Jab1 has a potential protective effect against pathogenic WNVCp and might provide a novel target site for the treatment of disease caused by WNV.

Published

2006

2. Jab1 Induces the Cytoplasmic Localization and Degradation of p53 in Coordination with Hdm2.

Author

Wonkyung Oh, Eun-Woo Lee, Young Hoon Sung, Mi-Ran Yang, Jaewang Ghim, Han-Woong Lee, and Jaewhan Song

Subjects

*CHROMOSOMAL translocation, *CHROMOSOMES, *PROTEINS, *BIOMOLECULES, *NUCLEIC acids

Abstract

The biological mechanisms for maintaining the basal level of p53 in normal cells require nuclear exclusion and cytoplasmic degradation. Here, we showed that Jab1 facilitates p53 nuclear exclusion and its subsequent degradation in coordination with Hdm2. p53 was excluded from the nucleus in the presence of Jab1; this exclusion was prevented by leptomycin B treatment. Nuclear export of p53 was accompanied by a decrease in the levels of p53, as well as of its target proteins, which include p21 and Bax. Domain analyses of Jab1 showed that the N-terminal domain, 1-110, was capable of inducing cytoplasmic translocation of p53. Furthermore, 110-191 was required to facilitate the degradation of p53. Neither of these mutants incorporated into the CSN complex, indicating that Jab1 could affect the levels of p53 independent of intact CSN complex. Conversely, Jab1 was incapable of translocating and degrading two p53 mutants, W23S and 6KR, neither of which could be modified by Hdm2. Moreover, Jab1 did not affect the cellular localization or protein levels of p53 in p53 and Hdm2 double-null mouse embryo fibroblasts. We further observed that the ablation of endogenous Jab1 by small interfering RNA prevented Hdm2-mediated p53 nuclear exclusion. Under stressed conditions, which could sequester Hdm2 in its inactive state, Jab1 did not affect p53. Our studies implicate that Jab1 is required to remove post-translationally modified p53 and provide a novel target for p53-related cancer therapies. [ABSTRACT FROM AUTHOR]

Published

2006