GSTT1 is upregulated by oxidative stress through p38-mk2 signaling pathway in human granulosa cells: Possible association with mitochondrial activity

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Abstract

We previously reported that GSTT1 was upregulated in human granulosa cells during aging and that activation and localization of p38 MAPK was changed in parallel. Although oxidative stress is responsible for these changes, the ageassociated expression of GSTT1 regulated by MAPKs and the role of GSTT1 in aged granulosa cells remain unclear. Therefore, we examined the relationship between the expression of GSTT1 and MAPK signaling pathways using human granulosa-like KGN cells stimulated with H 2 O 2 in the presence or absence of various MAPK inhibitors. Interestingly, H 2 O 2 -induced GSTT1 was only inhibited by a p38 inhibitor. An inhibitor of MK2, a downstream regulator of p38, also diminished H 2 O 2 -induced GSTT1 upregulation. Notably, both p38 and MK2 were significantly inactivated in cells carrying an shRNA construct of GSTT1 (ΔGSTT1 cells), suggesting that the p38-MK2 pathway is essential for age-associated upregulation of GSTT1. The relevance of GSTT1 in mitochondrial activity was then determined. ΔGSTT1 cells displayed enhanced polarization of mitochondrial membrane potential without increasing the apoptosis, suggesting that the age-associated upregulation of GSTT1 may influence the mitochondrial activity of granulosa cells. Collectively, it appears that the age-associated expression of GSTT1 is induced through the p38 signaling pathway and GSTT1 influences homeostatic activities in granulosa cells. © Ito et al.

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Ito, M., Imai, M., Muraki, M., Miyado, K., Qin, J., Kyuwa, S., … Takahashi, Y. (2011). GSTT1 is upregulated by oxidative stress through p38-mk2 signaling pathway in human granulosa cells: Possible association with mitochondrial activity. Aging, 3(12), 1213–1223. https://doi.org/10.18632/aging.100418

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