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The effect of Tumor susceptibility gene 101 on Autophagy Marker MAP1LC3BYeh, Chun-Cheng 17 February 2012 (has links)
Deregulation of autophagy plays an important role in the pathogenesis of diseases such as cancer, neuronal degenerative or cardiovascular disease. Autophagy is a process to engulf the cytoplasmic contents into autophagosome and deliver them for lysosomal degradation. Its major function is to clear unfolded protein or damage organelles for maintaining proper metabolic homeostasis and normal cell physiological activities. Autophagy and multivesicular bodies, MVBs, cooperate to regulate the turnover of intracellular macromolecule, defective organelles and signaling receptor. Endosomal sorting complex required for transport, ESCRT, is important for the formation of MVBs, which regulates membrane receptor recycling, protein sorting and vesicular trafficking. Tumor Susceptibility Gene 101(TSG101) is a member of ESCRT-I that plays an important role on MVBs formation and maintaining ESCRT function. Previous report indicated that autophagosome accumulation upon deprivation of TSG101, implying possible role of TSG101 during autophagic process. In this study, we observed the increase of TSG101 and autophagic marker proteins, such as LC3-II and ATG upon nutrient starvation. Furthermore, knockdown TSG101 in cervical carcinoma HeLa cell resulted in the elevation of LC3-II, ATG3 and ubiquitinated protein aggregates marker protein p62, which is congruous to other reports. However, in neuroblastoma SH-SY5Y cell, transfection of siRNA led to the decrease of LC-II and ubiquitinated protein level. These results indicated that TSG101 might be critical for autophagy and the maintenance of steady-state level of cellular ubiquitinated proteins. Ectopic upregulatory expression of HA-TSG101 led to the increase of LC3-II in both cell type. The elevation of ATG3 level is also observed in HeLa cell. Therefore, we speculated that TSG101 might be important for the formation of autophagosome, but our data did not exclude the possible role of TSG101 in regulation of the fusion of autophagosome and lysosome, because the increase of ATG3 indicated ectopic HA-TSG101 might facilitate the execution of autophagic flow. In addition, we have established GFP-LC3 expression cell lines. Our imaging data showed the colocalization of TSG101 and GFP-LC3 in both cytoplasm and nucleus that might be an interesting research topic for investigation the role of TSG101 in autophagic pathway.
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AIP4 is involved in the control of TSG101 stabilityHuang, Hsiao-yu 13 September 2012 (has links)
Tumor susceptibility gene 101¡]TSG101¡^encodes an inactive ubiquitin conjugating E2 enzyme implicated in regulation of protein sorting, vesicular trafficking, transcription activation of nuclear receptor, cell growth and differentiation. Previous studies showed that TSG101 can be mono- or poly- ubiquitinated, which is relevant to its functional status. There are seven Lysine (K) sites, K6, K11, K27, K29, K33, K48 and K63, on ubiquitin (Ub). Polyubiquitination using different Ub K sites confers differential function for protein degradation, DNA damage repair, endocytosis and protein sorting. AIP4 E3 ubiquitin ligase modifies its substrates involved in erythroid and lymphoid lineage differentiation and the associated immune responses. Mutation in AIP4 gene resolves in multisystemic autoimmune disease. TSG101 was recently shown to be a molecular checkpoint for T cell receptor downregulation. Here we investigate the ubiqutination status of TSG101. The ubiquitin-conjugated protein in lysate of cells co-transfected with pHA-TSG101 and His-tagged wild type Ub or each K site mutant ubiquitin expression plasmids was purified on nickel beads and then subjected to western blotting using antibodies against HA-TSG101 or His-tag. The results showed that K series mutant had differential effect on the steady-state of HA-TSG101. Proteasome inhibitor could alleviate its degradation especially in the K63 ubiquitin expression group, implying K63 ubiquitination E3 ligase is critical in maintaining HA-TSG101 level. Our coimmunoprecipitation result demonstrated the interaction between AIP4 and HA-TSG101, implying that TSG101 might be a substrate for AIP4. The ectopic overexpression of AIP4 increased the amount of HA-TSG101 in an E3 ligase activity depended manner. Taken together, these results indicated that AIP4 activity mediating Ub K63 modification might be critical for regulating cellular TSG101 protein level. Further experiment should clarify this issue.
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