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NADPH tetrasodium salt

CAS号

2646-71-1

分子式

C21H26N7Na4O17P3

主要靶点

Endogenous Metabolite|Ferroptosis|Others

仅限科研使用

Cat No : CM00103

Print datasheet

Synonyms

还原型辅酶II|NADPH|NADPH tetrasodium|NADPH tetrasodium salt|pathways|nucleotides|proteins|inhibit|Inhibitor|lipid|metabolic|cofactor|biosynthetic|acids|Endogenous Metabolite|EndogenousMetabolite|fatty|Ferroptosis

验证数据展示

  • CAS No.: 2646-71-1

    NADPH tetrasodium salt
    CAS#: 2646-71-1

产品信息

CAS号 2646-71-1
分子式 C21H26N7Na4O17P3
主要靶点 Endogenous Metabolite|Ferroptosis|Others
主要通路 凋亡|代谢
分子量 833.35
纯度 100%, 此纯度可做参考,具体纯度与批次有关系,可咨询客服
储存条件 store at low temperature,keep away from direct sunlight | Powder: -20°C for 3 years | In solvent: -80°C for 1 year | Shipping with blue ice.
别名 还原型辅酶II|NADPH|NADPH tetrasodium|NADPH tetrasodium salt|pathways|nucleotides|proteins|inhibit|Inhibitor|lipid|metabolic|cofactor|biosynthetic|acids|Endogenous Metabolite|EndogenousMetabolite|fatty|Ferroptosis

体内活性

方法:为检测对 Kainic acid (KA) 诱导的兴奋性毒性的影响及其机制,将 NADPH tetrasodium salt (1-2 mg/kg in saline) 静脉注射给 KA 诱导的大鼠,每天一次,持续七天。 结果:NADPH 减少 KA 诱导的纹状体病变大小的增大,改善 KA 诱导的运动障碍,并逆转 KA 诱导的神经胶质细胞活化。[1] 方法:为外源性 NADPH 是否能进入小鼠脑组织和神经元,将 NADPH tetrasodium salt (2.5 mg/kg) 静脉注射给 ICR 小鼠。 结果:注射 NADPH 显著提高了小鼠血液和脑组织中的 NADPH 水平。NADPH 在小鼠血液中的半衰期约为 6 h,在脑组织中的半衰期为 7 h。[2]

体外活性

方法:神经元用 NADPH tetrasodium salt (2.5-10 μM) 预处理 1-8 h,再用 Kainic acid (KA,100 μM) 处理 8 h,使用 CCK-8 assay 检测细胞活力。 结果:KA 处理以时间依赖和剂量依赖的方式显著降低原代皮层神经元的细胞活力。NADPH 预处理显著促进神经元存活,在 10 μM 下 4 或 8 h 更有效。[1] 方法:神经元用 NADPH tetrasodium salt (10 μM) 预处理 4 h,再用 Kainic acid (KA,100 μM) 处理 8 h,使用 Western Blot 方法检测靶点蛋白表达水平。 结果:KA 处理后,TIGAR 表达降低,而 NADPH 显著逆转了它。[1]

溶解度

H2O:35 mg/mL (42 mM);DMSO:1.25 mg/mL (1.5 mM)

参考文献

1.Liu ZQ, et al. NADPH protects against kainic acid-induced excitotoxicity via autophagy-lysosome pathway in rat striatum and primary cortical neurons. Toxicology. 2020 Apr 15;435:152408.
2.Li M, et al. Reduced Nicotinamide Adenine Dinucleotide Phosphate, a Pentose Phosphate Pathway Product, Might Be a Novel Drug Candidate for Ischemic Stroke. Stroke. 2016 Jan;47(1):187-95.

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