Selected article for: "cell surface and major histocompatibility"
Author: Benharouga, Mohamed; Haardt, Martin; Kartner, Norbert; Lukacs, Gergely L.
Title: Cooh-Terminal Truncations Promote Proteasome-Dependent Degradation of Mature Cystic Fibrosis Transmembrane Conductance Regulator from Post-Golgi Compartments
  • Document date: 2001_5_28
    • ID: q3agdeju_50
    Snippet: In mammalian cells, aggregated furin, incompletely assembled Golgi coronavirus E1, and mutant connexin32 are destined for lysosomal degradation from the Golgi region without reaching the cell surface (Armstrong et al., 1990; Wolins et al., 1997; VanSlyke et al., 2000) . A post-ER quality control mechanism appears to be responsible for targeting and vacuolar degradation of mutant plasma membrane ATPase, the late Golgi protease Kex2, and a model pr.....
    Document: In mammalian cells, aggregated furin, incompletely assembled Golgi coronavirus E1, and mutant connexin32 are destined for lysosomal degradation from the Golgi region without reaching the cell surface (Armstrong et al., 1990; Wolins et al., 1997; VanSlyke et al., 2000) . A post-ER quality control mechanism appears to be responsible for targeting and vacuolar degradation of mutant plasma membrane ATPase, the late Golgi protease Kex2, and a model protein, comprising the secretory invertase and the NH 2 terminus of the lambda repressor in Saccharomyces cerevisiae (Wilcox et al., 1992; Chang and Fink, 1995; Hong et al., 1996) . Aggregation of unoccupied class II major histocompatibility complex molecules and cross-linking of cell surface membrane proteins, such as the transferrin receptor, can evoke preferential lysosomal targeting and degradation (Weissman et al., 1986; Amigorena et al., 1995) . Although most of these examples illustrate that nonnative membrane protein is targeted for lysosomal proteolysis either before their arrival to the cell surface or after their internalization, the complex-glycosylated truncated CFTR has a distinct intracellular fate. We presented compelling evidence indicating that the dramatically decreased expression level and residence time of the complex-glycosylated truncated CFTR cannot be attributed to missorting for lysosomal degradation at the trans-Golgi or endosomal compartment. Instead, the truncated CFTR is targeted to the plasma membrane with comparable efficiency to its wt counterpart (Fig. 1) . The turnover of the total and cell surface biotinylated T70 CFTR pools was insensitive to inhibitors of endolysosomal proteases. In contrast, weak bases and cathepsin inhibitors stabilized the full-length form and degradation intermediates of wt CFTR in transfected cells as well as in epithelia, highlighting the multiple role of endolysosomal proteolysis in the turnover of wt CFTR (Figs. 2 and 3) .

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