Effects of hexachlorophene on the metabolism of glucose and glutamate in rat brain.

@article{DeLucia1978EffectsOH,
  title={Effects of hexachlorophene on the metabolism of glucose and glutamate in rat brain.},
  author={Raffaele De Lucia and Luis O. Medeiros and L. F. Medeiros and Moacyr Luiz Aizenstein and L B Valle and Ricardo M. Oliveira-filho},
  journal={General pharmacology},
  year={1978},
  volume={9 5},
  pages={
          321-4
        }
}
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5 Citations

5 Citations

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Citation Type

In vitro kinetics of the rat brain succinate dehydrogenase inhibition by hexachlorophene
TLDR
Brain succinate dehydrogenase (SDH) activity was inhibited by in vitro hexachlorophene (HCP) with a half inhibitory concentration (IC50) of 0.65 × 10−3 M; the brain SDH demands more energy of activation (ΔE) in the presence of HCP.
Patterns of mid-to-term placental enzymes in rats treated with magnesium sulphate.
In vitro kinetics of the mouse hepatic arginase inhibition by hexachlorophene
Inhibition of sheep brain acetylcholinesterase by hexachlorophene
TLDR
An attempt has been made to assess the response of acetylcholinesterase (ACHE) to HCP treatment in vitro, and it is possible that neurotransmission could also be affected.
Effects of chlorinated bisphenols on torula yeast glucose-6-phosphate dehydrogenase.
Chlorinated bisphenol antibacterial and antifungal agents are potent inhibitors of torula yeast glucose-6-phosphate dehydrogenase (G6PD). Several compounds were tested, including hexachlorophene

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