SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W93358848> ?p ?o ?g. }

Showing items 1 to 100 of ±245 with 100 items per page.

W93358848 abstract "Glutamate-induced oxidative toxicity in HT22 cells and primary immature cortical cultures provides an excellent model system for studying oxidative stress-dependent neurodegeneration. Glutamate treatment leads to cysteine and subsequent glutathione depletion, followed by the steady accumulation of reactive oxygen species (ROS). This form of cell death depends upon the persistent activation, via phosphorylation, of extracellular signal regulated kinase (ERK) kinase-1/2 (ERK-1/2) that occurs during oxidative stress. However the mechanisms responsible for this chronic activation of ERK during oxidative stress have not been well characterized. In this thesis, I demonstrate that ERK activation is dependent upon the tonic activity of the phosphatidylinositol-3-kinase (PI3K)-Akt pathway and the subsequent activation of MEK. Furthermore, the persistent ERK activation that leads to cellular toxicity can be driven by the oxidative-dependent inactivation of ERK-phosphatases. Thus the balance of activating kinase activity and inactivating phosphatase activity dynamically regulates ERK-dependent signaling and is a major determinant of neuronal cell responses to oxidative stress. The overexpression of a negative regulator of the ERK MAPK pathway, the ERK-specific phosphatase MKP3, led to protection of both HT22 cells and primary immature cortical cultures from oxidative toxicity. Furthermore, a catalytically inactive form of MKP3 (MKP3 C293S) was shown to physically restrict activate ERK to the cytoplasm. Because overexpression of MKP3 C293S was also shown to be neuroprotective, translocation of active ERK to the nucleus, but not ERK activation alone, must be required for glutamate-induced oxidative toxicity. Collectively, these results clearly place ERK activation as a necessary event that leads to neuronal cell death during oxidative stress and have revealed some unique mechanisms by which ROS accumulation drives ERK activation." @default.
W93358848 created "2016-06-24" @default.
W93358848 creator A5081662349 @default.
W93358848 date "2004-09-24" @default.
W93358848 modified "2023-09-27" @default.
W93358848 title "Mechanisms Promoting ERK-Dependent Neuronal Oxidative Toxicity" @default.
W93358848 cites W1486333767 @default.
W93358848 cites W1493632498 @default.
W93358848 cites W1517407659 @default.
W93358848 cites W1525431558 @default.
W93358848 cites W1530284699 @default.
W93358848 cites W1545733166 @default.
W93358848 cites W1573821584 @default.
W93358848 cites W1574633507 @default.
W93358848 cites W1578882407 @default.
W93358848 cites W1586088169 @default.
W93358848 cites W1597498191 @default.
W93358848 cites W1615546978 @default.
W93358848 cites W1660095449 @default.
W93358848 cites W1721669572 @default.
W93358848 cites W1811191752 @default.
W93358848 cites W1852105575 @default.
W93358848 cites W1862623246 @default.
W93358848 cites W1877873625 @default.
W93358848 cites W1884792319 @default.
W93358848 cites W1913244564 @default.
W93358848 cites W1918340692 @default.
W93358848 cites W1947475203 @default.
W93358848 cites W1954347758 @default.
W93358848 cites W1963533285 @default.
W93358848 cites W1965640630 @default.
W93358848 cites W1967318257 @default.
W93358848 cites W1967400782 @default.
W93358848 cites W1967441029 @default.
W93358848 cites W1969200465 @default.
W93358848 cites W1969294711 @default.
W93358848 cites W1969832217 @default.
W93358848 cites W1970554113 @default.
W93358848 cites W1971727526 @default.
W93358848 cites W1971906621 @default.
W93358848 cites W1972331889 @default.
W93358848 cites W1973407863 @default.
W93358848 cites W1975043122 @default.
W93358848 cites W1975513971 @default.
W93358848 cites W1975823509 @default.
W93358848 cites W1976385326 @default.
W93358848 cites W1976441097 @default.
W93358848 cites W1976955003 @default.
W93358848 cites W1978460117 @default.
W93358848 cites W1978733364 @default.
W93358848 cites W1979714310 @default.
W93358848 cites W1982467499 @default.
W93358848 cites W1982499214 @default.
W93358848 cites W1982651451 @default.
W93358848 cites W1984875486 @default.
W93358848 cites W1984909573 @default.
W93358848 cites W1985448020 @default.
W93358848 cites W1986005505 @default.
W93358848 cites W1989899886 @default.
W93358848 cites W1990264946 @default.
W93358848 cites W1990362370 @default.
W93358848 cites W1992135480 @default.
W93358848 cites W1992430732 @default.
W93358848 cites W1992844088 @default.
W93358848 cites W1994148496 @default.
W93358848 cites W1994662389 @default.
W93358848 cites W1995819749 @default.
W93358848 cites W1996886208 @default.
W93358848 cites W2001626986 @default.
W93358848 cites W2002933697 @default.
W93358848 cites W2004922458 @default.
W93358848 cites W2009387204 @default.
W93358848 cites W2009625346 @default.
W93358848 cites W2009940961 @default.
W93358848 cites W2010095588 @default.
W93358848 cites W2010522496 @default.
W93358848 cites W2010596132 @default.
W93358848 cites W2010714560 @default.
W93358848 cites W2011371104 @default.
W93358848 cites W2012797849 @default.
W93358848 cites W2016003408 @default.
W93358848 cites W2016293448 @default.
W93358848 cites W2017671758 @default.
W93358848 cites W2019438547 @default.
W93358848 cites W2019817056 @default.
W93358848 cites W2020622209 @default.
W93358848 cites W2023879112 @default.
W93358848 cites W2024306318 @default.
W93358848 cites W2028407281 @default.
W93358848 cites W2032711371 @default.
W93358848 cites W2034720665 @default.
W93358848 cites W2036096116 @default.
W93358848 cites W2036169332 @default.
W93358848 cites W2038018821 @default.
W93358848 cites W2038447145 @default.
W93358848 cites W2039961443 @default.
W93358848 cites W2043033966 @default.
W93358848 cites W2043549608 @default.
W93358848 cites W2043878742 @default.
W93358848 cites W2044627978 @default.