Mechanism of antagonizing cyanide-induced lethality by α-ketoglutaric acid

α-Ketoglutaric acid (α-KG) has been shown to be an effective antagonist for cyanide-induced lethality. The mechanism of this antagonism is hypothesized to result from α-KG binding with cyanide. Several investigative approaches were taken to determine the existence of this binding. First, mixtures of...

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Veröffentlicht in:Toxicology (Amsterdam) 1990-06, Vol.62 (3), p.275-283
Hauptverfasser: Norris, James C., Utley, William A., Hume, Arthur S.
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Sprache:eng
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Zusammenfassung:α-Ketoglutaric acid (α-KG) has been shown to be an effective antagonist for cyanide-induced lethality. The mechanism of this antagonism is hypothesized to result from α-KG binding with cyanide. Several investigative approaches were taken to determine the existence of this binding. First, mixtures of various molar ratios of α-KG:cyanide were injected into a high pressure liquid chromatograph. The addition of cyanide reduced the peak area of α-KG at a molar ration of greater than 1:5. Second, blood from naive male ICR mice was spiked with α-KG and cyanide. Headspace above these blood samples was injected into a gas chromatograph and analyzed for released hydrogen cyanide. α-KG reduced the peak area of hydrogen cyanide released into the headspace at molar ratios of greater than 1:2.5. Third, the effect of cyanide on the ultraviolet spectrum of α-KG was determined as an indication of binding. In the presence of cyanide the absorption peak at 316 nm for α-KG was eliminated. Inhibition of cytochrome oxidase is an accepted target enzyme for cyanide-induced lethality. Fourth, further evidence of α-KG's mechanism was determined by the effect of α-KG on brain cytochrome oxidase (BRCYTOX) and its ability to antagonize cyanide-induced inhibition of BRCYTOX. BRCYTOX activity was determined in the presence of α-KG and was found to be unaffected between 0.01 and 0.06 M of α-KG. Greater concentrations of α-KG inhibited BRCYTOX activity. The complete inhibition of BRCYTOX activity by 10 −5 M cyanide was prevented with 0.05 and 0.06 M α-KG. Fifth, BRCYTOX activity of animals pretreated with saline and then an LD 80 dose (8.5 mg/kg) of cyanide was 80% inhibited, while BRCYTOX activity of animals pretreated with 2 g α-KG/kg, i.p., and then and LD 80 dose (7.75 mg/kg) of cyanide was not different from control values. Thus, these data suggest that α-KG does bind with cyanide, and this binding can account for the antagonism of cyanide-induced lethality.
ISSN:0300-483X
1879-3185
DOI:10.1016/0300-483X(90)90051-H