半胱氨酸蛋白酶
神经保护
细胞凋亡
高氧
神经退行性变
下调和上调
内源性凋亡
程序性细胞死亡
细胞生物学
半胱氨酸蛋白酶3
生物
半胱氨酸蛋白酶-9
神经毒性
化学
神经科学
生物化学
医学
内科学
毒性
疾病
基因
肺
作者
Marco Sifringer,Ivo Bendix,Constanze Börner,Stefanie Endesfelder,Clarissa von Haefen,Alexander Kalb,Sonia Holifanjaniaina,Sebastian Prager,Gerald Schlager,Matthias Keller,Étienne Jacotot,Ursula Felderhoff‐Mueser
标识
DOI:10.1038/cddis.2011.133
摘要
Within the last decade, it became clear that oxygen contributes to the pathogenesis of neonatal brain damage, leading to neurocognitive impairment of prematurely born infants in later life. Recently, we have identified a critical role for receptor-mediated neuronal apoptosis in the immature rodent brain. However, the contribution of the intrinsic apoptotic pathway accompanied by activation of caspase-2 under hyperoxic conditions in the neonatal brain still remains elusive. Inhibition of caspases appears a promising strategy for neuroprotection. In order to assess the influence of specific caspases on the developing brain, we applied a recently developed pentapeptide-based group II caspase inhibitor (5-(2,6-difluoro-phenoxy)-3(R,S)-(2(S)-(2(S)-(3-methoxycarbonyl-2(S)-(3-methyl-2(S)-((quinoline-2-carbonyl)-amino)-butyrylamino)propionylamino)3-methylbutyrylamino)propionylamino)-4-oxo-pentanoic acid methyl ester; TRP601). Here, we report that elevated oxygen (hyperoxia) triggers a marked increase in active caspase-2 expression, resulting in an initiation of the intrinsic apoptotic pathway with upregulation of key proteins, namely, cytochrome c, apoptosis protease-activating factor-1, and the caspase-independent protein apoptosis-inducing factor, whereas BH3-interacting domain death agonist and the anti-apoptotic protein B-cell lymphoma-2 are downregulated. These results coincide with an upregulation of caspase-3 activity and marked neurodegeneration. However, single treatment with TRP601 at the beginning of hyperoxia reversed the detrimental effects in this model. Hyperoxia-mediated neurodegeneration is supported by intrinsic apoptosis, suggesting that the development of highly selective caspase inhibitors will represent a potential useful therapeutic strategy in prematurely born infants.
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