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W775311174 abstract "The Nrf2-Keap1-ARE pathway is a redox and xenobiotic sensitive signaling axis that functions to protect cells against oxidative stress, environmental toxicants, and harmful chemicals through the induction of cytoprotective genes. To enforce strict regulation, cells invest a great deal of energy into the maintenance of the Nrf2 pathway to ensure rapid induction upon cellular insult and rapid return to basal levels once the insult is mitigated. Because of the protective role of Nrf2 transcriptional programs, controlled activation of the pathway has been recognized as a means for chemoprevention. On the other hand, constitutive activation of Nrf2, due to somatic mutations of genes that control Nrf2 degradation, promotes carcinogenesis and imparts chemoresistance to cancer cells. Autophagy, a bulk protein degradation process, is another tightly regulated complex cellular process that functions as a cellular quality control system to remove damaged proteins or organelles. Low cellular nutrient levels can also activate autophagy, which acts to restore metabolic homeostasis through the degradation of macromolecules to provide nutrients. Recently, these two cellular pathways were shown to intersect through the direct interaction between p62 (an autophagy adaptor protein) and Keap1 (the Nrf2 substrate adaptor for the Cul3 E3 ubiquitin ligase). Dysregulation of autophagy was shown to result in prolonged Nrf2 activation in a p62-dependent manner. In this review, we will discuss the progress that has been made in dissecting the intersection of these two pathways and the potential tumor-promoting role of prolonged Nrf2 activation." @default.
W775311174 created "2016-06-24" @default.
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W775311174 creator A5029942907 @default.
W775311174 creator A5062412277 @default.
W775311174 date "2015-11-01" @default.
W775311174 modified "2023-10-17" @default.
W775311174 title "p62 links autophagy and Nrf2 signaling" @default.
W775311174 cites W1522860394 @default.
W775311174 cites W1523693806 @default.
W775311174 cites W1967828638 @default.
W775311174 cites W1973884972 @default.
W775311174 cites W1973896698 @default.
W775311174 cites W1976578056 @default.
W775311174 cites W1978813279 @default.
W775311174 cites W1988918021 @default.
W775311174 cites W1991265255 @default.
W775311174 cites W1991621909 @default.
W775311174 cites W1994823455 @default.
W775311174 cites W2001591494 @default.
W775311174 cites W2002061608 @default.
W775311174 cites W2005568856 @default.
W775311174 cites W2011308707 @default.
W775311174 cites W2012600855 @default.
W775311174 cites W2014687562 @default.
W775311174 cites W2023598683 @default.
W775311174 cites W2023618783 @default.
W775311174 cites W2025348756 @default.
W775311174 cites W2038612772 @default.
W775311174 cites W2040311618 @default.
W775311174 cites W2044596456 @default.
W775311174 cites W2046399708 @default.
W775311174 cites W2047358592 @default.
W775311174 cites W2048030072 @default.
W775311174 cites W2051987950 @default.
W775311174 cites W2052419480 @default.
W775311174 cites W2053950470 @default.
W775311174 cites W2054960752 @default.
W775311174 cites W2055811314 @default.
W775311174 cites W2057762456 @default.
W775311174 cites W2059071202 @default.
W775311174 cites W2059378857 @default.
W775311174 cites W2060866949 @default.
W775311174 cites W2062148168 @default.
W775311174 cites W2069962876 @default.
W775311174 cites W2077950988 @default.
W775311174 cites W2078739475 @default.
W775311174 cites W2079977655 @default.
W775311174 cites W2080952734 @default.
W775311174 cites W2084063309 @default.
W775311174 cites W2084472395 @default.
W775311174 cites W2084975830 @default.
W775311174 cites W2094661084 @default.
W775311174 cites W2096172976 @default.
W775311174 cites W2096348285 @default.
W775311174 cites W2097634036 @default.
W775311174 cites W2098462984 @default.
W775311174 cites W2102354517 @default.
W775311174 cites W2103684100 @default.
W775311174 cites W2104718696 @default.
W775311174 cites W2109034822 @default.
W775311174 cites W2112523199 @default.
W775311174 cites W2116807721 @default.
W775311174 cites W2118394016 @default.
W775311174 cites W2119399459 @default.
W775311174 cites W2125231982 @default.
W775311174 cites W2126118460 @default.
W775311174 cites W2126934086 @default.
W775311174 cites W2129726289 @default.
W775311174 cites W2130029858 @default.
W775311174 cites W2133000461 @default.
W775311174 cites W2133377747 @default.
W775311174 cites W2136789586 @default.
W775311174 cites W2137667514 @default.
W775311174 cites W2138271341 @default.
W775311174 cites W2143481229 @default.
W775311174 cites W2145621347 @default.
W775311174 cites W2146887271 @default.
W775311174 cites W2147984935 @default.
W775311174 cites W2148454550 @default.
W775311174 cites W2149593386 @default.
W775311174 cites W2160411684 @default.
W775311174 cites W2161446823 @default.
W775311174 cites W2168212241 @default.
W775311174 cites W2171218310 @default.
W775311174 doi "https://doi.org/10.1016/j.freeradbiomed.2015.06.014" @default.
W775311174 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4628872" @default.
W775311174 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26117325" @default.
W775311174 hasPublicationYear "2015" @default.
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