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  • β-hydroxybutyric acid attenuates oxidative stress and improves markers of mitochondrial function in the HT-22 hippocampal cell line.

β-hydroxybutyric acid attenuates oxidative stress and improves markers of mitochondrial function in the HT-22 hippocampal cell line.

Journal of integrative neuroscience (2021-07-15)
Mohammed Majrashi, Mansour Altukri, Sindhu Ramesh, Manoj Govindarajulu, Jack Schwartz, Mohammed Almaghrabi, Forrest Smith, Tony Thomas, Vishnu Suppiramaniam, Timothy Moore, Miranda Reed, Muralikrishnan Dhanasekaran
ABSTRACT

Ketone bodies have been the topic of research for their possible therapeutic neurotropic effects in various neurological diseases such as Parkinson's disease, dementia, and seizures. However, continuing research on ketone bodies as a prophylactic agent for decreasing the risk for various neurodegenerative diseases is currently required. In this paper, hippocampal HT-22 cells were treated with β-hydroxybutyric acid at different doses to elucidate the neurotropic effects. In addition, markers of oxidative stress, mitochondrial function, and apoptosis were investigated. As a result, the ketone body (β-hydroxybutyric acid) showed a significant increase in hippocampal neuronal viability at a moderate dose. Results show that β-hydroxybutyric acid exhibited antioxidant effect by decreasing prooxidant oxidative stress markers such as reactive oxygen species, nitrite content, and increasing glutathione content leading to decreased lipid peroxidation. Results show that β-hydroxybutyric acid improved mitochondrial functions by increasing Complex-I and Complex-IV activities and showing that β-hydroxybutyric acid significantly reduces caspase-1 and caspase-3 activities. Finally, using computational pharmacokinetics and molecular modeling software, we validated the pharmacokinetic effects and pharmacodynamic (N-Methyl-D-aspartic acid and acetylcholinesterase) interactions of β-hydroxybutyric acid. The computational studies demonstrate that β-hydroxybutyric acid can interact with N-Methyl-D-aspartic acid receptor and cholinesterase enzyme (the prime pharmacodynamic targets for cognitive impairment) and further validates its oral absorption, distribution into the central nervous system. Therefore, this work highlights the neuroprotective potential of ketone bodies in cognitive-related neurodegenerative diseases.

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Sigma-Aldrich
2-Thiobarbituric acid, ≥98%