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  • Title: Ubiquitin-dependent lysosomal degradation of the HNE-modified proteins in lens epithelial cells.
    Author: Marques C, Pereira P, Taylor A, Liang JN, Reddy VN, Szweda LI, Shang F.
    Journal: FASEB J; 2004 Sep; 18(12):1424-6. PubMed ID: 15247152.
    Abstract:
    4-hydroxynonenal (HNE), a highly reactive lipid peroxidation product, may adversely modify proteins. Accumulation of HNE-modified proteins may be responsible for pathological lesions associated with oxidative stress. The objective of this work was to determine how HNE-modified proteins are removed from cells. The data showed that alphaB-crystallin modified by HNE was ubiquitinated at a faster rate than that of native alphaB-crystallin in a cell-free system. However, its susceptibility to proteasome-dependent degradation in the cell-free system did not increase. When delivered into cultured lens epithelial cells, HNE-modified alphaB-crystallin was degraded at a faster rate than that of unmodified alphaB-crystallin. Inhibition of the lysosomal activity stabilized HNE-modified alphaB-crystallin, but inhibition of the proteasome activity alone had little effect. To determine if other HNE-modified proteins are also degraded in a ubiquitin-dependent lysosomal pathway, lens epithelial cells were treated with HNE and the removal of HNE-modified proteins in the cells was monitored. The levels of HNE-modified proteins in the cell decreased rapidly upon removal of HNE from the medium. Depletion of ATP or the presence of MG132, a proteasome/lysosome inhibitor, resulted in stabilization of HNE-modified proteins. However, proteasome-specific inhibitors, lactacystin-beta-lactone and epoxomicin, could not stabilize HNE-modified proteins in the cells. In contrast, chloroquine, a lysosome inhibitor, stabilized HNE-modified proteins. The enrichment of HNE-modified proteins in the fraction of ubiquitin conjugates suggests that HNE-modified proteins are preferentially ubiquitinated. Taken together, these findings show that HNE-modified proteins are degraded via a novel ubiquitin and lysosomal-dependent but proteasome-independent pathway.
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