Department of Medicine, University of California, San Diego, CA, USA.
Clin Toxicol (Phila). 2023 Apr;61(4):212-222. doi: 10.1080/15563650.2023.2185125. Epub 2023 Apr 3.
The azide anion (N-) is highly toxic. It exists most commonly as sodium azide, which is used widely and is readily available, raising the potential for occupational incidents and use as a weapon of mass destruction. Azide-poisoned patients present with vomiting, seizures, hypotension, metabolic acidosis, and coma; death can occur. No specific azide antidote exists, with treatment being solely supportive. Azide inhibits mitochondrial cytochrome c oxidase and is likely oxidized to nitric oxide . Cytochrome c oxidase inhibition depletes intracellular adenosine triphosphate and increases oxidative stress, while increased nitric oxide causes hypotension and exacerbates oxidative damage. Here, we tested whether the cobalamin (vitamin B) analog cobinamide, a strong and versatile antioxidant that also neutralizes nitric oxide, can reverse azide toxicity in mammalian cells, , and mice.
We found cobinamide bound azide with a moderate affinity (K 2.87 × 10 M). Yet, cobinamide improved growth, increased intracellular adenosine triphosphate, and reduced apoptosis and malondialdehyde, a marker of oxidative stress, in azide-exposed cells. Cobinamide rescued and mice from lethal exposure to azide and was more effective than hydroxocobalamin. Azide likely generated nitric oxide in the mice, as evidenced by increased serum nitrite and nitrate, and reduced blood pressure and peripheral body temperature in the animals; the reduced temperature was likely due to reflex vasoconstriction in response to the hypotension. Cobinamide improved recovery of both blood pressure and body temperature.
We conclude cobinamide likely acted by neutralizing both oxidative stress and nitric oxide, and that it should be given further consideration as an azide antidote.
叠氮阴离子(N-)毒性很强。它最常见的形式是叠氮化钠,这种物质用途广泛且易于获得,这增加了职业事故和作为大规模杀伤性武器的使用风险。叠氮化物中毒的患者表现为呕吐、癫痫发作、低血压、代谢性酸中毒和昏迷;可能导致死亡。目前尚无特定的叠氮化物解毒剂,治疗仅为支持性治疗。叠氮化物抑制线粒体细胞色素 c 氧化酶,可能被氧化为一氧化氮。细胞色素 c 氧化酶抑制会耗尽细胞内三磷酸腺苷并增加氧化应激,而增加的一氧化氮会导致低血压并加重氧化损伤。在这里,我们测试了钴胺素(维生素 B12)类似物 cobinamide 是否可以逆转哺乳动物细胞、 和小鼠中的叠氮化物毒性。
我们发现 cobinamide 与叠氮化物具有中等亲和力(K2.87×10M)结合。然而, cobinamide 改善了暴露于叠氮化物的细胞的生长,增加了细胞内三磷酸腺苷,并减少了细胞凋亡和丙二醛(氧化应激的标志物)。 cobinamide 使 和小鼠从致命的叠氮化物暴露中获救,并且比羟钴胺素更有效。叠氮化物可能在小鼠中产生了一氧化氮,这可以通过血清中亚硝酸盐和硝酸盐的增加以及动物血压和外周体温的降低来证明;动物的体温降低可能是由于低血压引起的反射性血管收缩。 cobinamide 改善了血压和体温的恢复。
我们得出结论, cobinamide 可能通过中和氧化应激和一氧化氮起作用,并且它应该作为一种叠氮化物解毒剂进一步考虑。
