TY - JOUR
T1 - Beneficial effect of astragalosides on stroke condition using PC12 cells under oxygen glucose deprivation and reperfusion
AU - Chiu, Bi Ying
AU - Chang, Ching Ping
AU - Lin, Jia Wei
AU - Yu, Jung Sheng
AU - Liu, Wen Pin
AU - Hsu, Yao Chin
AU - Lin, Mao Tsun
N1 - Funding Information:
Acknowledgments This work was supported by Grant NSC 101-2314-B-218-001-MY3 from the Taiwan National Council of Science (Taipei) (to C. P. Chang) and the grant MFHR10115 from Chi Mei Medical Center (Tainan, Taiwan) (to B. Y. Chio).
PY - 2014/8
Y1 - 2014/8
N2 - Astragalosides (AST) are reported to be neuroprotective in focal cerebral ischemic models in vivo. In this study, the direct effect of AST against oxygen and glucose deprivation (OGD) including neuronal injury and the underlying mechanisms in vitro were investigated. 5 h OGD followed by 24 h of reperfusion [adding back oxygen and glucose (OGD-R)] was used to induce in vitro ischemia reperfusion injury in differentiated rat pheochromocytoma PC12 cells. AST (1, 100, and 200 μg/mL) were added to the culture after 5 h of the OGD ischemic insult and was present during the reoxygenation phases. A key finding was that OGD-R decreased cell viability, increased lactate dehydrogenase, increased reactive oxygen species, apoptosis, autophagy, functional impairment of mitochondria, and endoplasmic reticulum stress in PC12 cells, all of which AST treatment significantly reduced. In addition, AST attenuated OGD-R-induced cell loss through P38 MAPK activation a neuroprotective effect blunted by SB203580, a specific inhibitor of P38 MAPK. Our data suggest that both apoptosis and autophagy are important characteristics of OGD-R-induced PC12 death and that treating PC12 cells with AST blocked OGD-R-induced apoptosis and autophagy by suppressing intracellular oxidative stress, functional impairment of mitochondria, and endoplasmic reticulum stress. Our data provide identification of AST that can concomitantly inhibit multiple cells death pathways following OGD injuries in neural cells.
AB - Astragalosides (AST) are reported to be neuroprotective in focal cerebral ischemic models in vivo. In this study, the direct effect of AST against oxygen and glucose deprivation (OGD) including neuronal injury and the underlying mechanisms in vitro were investigated. 5 h OGD followed by 24 h of reperfusion [adding back oxygen and glucose (OGD-R)] was used to induce in vitro ischemia reperfusion injury in differentiated rat pheochromocytoma PC12 cells. AST (1, 100, and 200 μg/mL) were added to the culture after 5 h of the OGD ischemic insult and was present during the reoxygenation phases. A key finding was that OGD-R decreased cell viability, increased lactate dehydrogenase, increased reactive oxygen species, apoptosis, autophagy, functional impairment of mitochondria, and endoplasmic reticulum stress in PC12 cells, all of which AST treatment significantly reduced. In addition, AST attenuated OGD-R-induced cell loss through P38 MAPK activation a neuroprotective effect blunted by SB203580, a specific inhibitor of P38 MAPK. Our data suggest that both apoptosis and autophagy are important characteristics of OGD-R-induced PC12 death and that treating PC12 cells with AST blocked OGD-R-induced apoptosis and autophagy by suppressing intracellular oxidative stress, functional impairment of mitochondria, and endoplasmic reticulum stress. Our data provide identification of AST that can concomitantly inhibit multiple cells death pathways following OGD injuries in neural cells.
KW - Apoptosis
KW - Astragaloside
KW - Autophagy
KW - Mitochondria
KW - Oxygen glucose deprivation
KW - Reactive oxygen species
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U2 - 10.1007/s10571-014-0059-4
DO - 10.1007/s10571-014-0059-4
M3 - Article
C2 - 24807460
AN - SCOPUS:84904345201
SN - 0272-4340
VL - 34
SP - 825
EP - 837
JO - Cellular and Molecular Neurobiology
JF - Cellular and Molecular Neurobiology
IS - 6
ER -