posted on 2022-04-07, 19:34authored byFasil Ali, Usma Manzoor, Reshmee Bhattacharya, Aniket Kumar Bansal, Kempohalli Sayanna Chandrashekharaiah, Laishram Rajendrakumar Singh, Suma Mohan Saraswati, Vladimir Uversky, Tanveer Ali Dar
A strong correlation
between brain metabolite accumulation and
oxidative stress has been observed in Alzheimer’s disease (AD)
patients. There are two central hypotheses for this correlation: (i)
coaccumulation of toxic amyloid-β and Myo-inositol (MI), a significant
brain metabolite, during presymptomatic stages of AD, and (ii) enhanced
expression of MI transporter in brain cells during oxidative stress-induced
volume changes in the brain. Identifying specific interactive effects
of MI with cellular antioxidant enzymes would represent an essential
step in understanding the oxidative stress-induced AD pathogenicity.
This study demonstrated that MI inhibits catalase, an essential antioxidant
enzyme primarily inefficient in AD, by decreasing its kcat (turnover number) and increasing Km (Michaelis–Menten constant) values. This inhibition
of catalase by MI under in vivo studies increased
cellular H2O2 levels, leading to decreased cell
viability. Furthermore, MI induces distortion of the active heme center
with an overall loss of structure and stability of catalase. MI also
alters distances of the vital active site and substrate channel residues
of catalase. The present study provides evidence for the involvement
of MI in the inactivation of the antioxidant defense system during
oxidative stress-induced pathogenesis of AD. Regulation of MI levels,
during early presymptomatic stages of AD, might serve as a potential
early-on therapeutic strategy for this disease.