Potency of prepost treatment of coenzyme Q10 and melatonin supplement in ameliorating the
impaired fatty acid profile in rodent model of autism
Sammanfattning
Background: Abnormalities in fatty acid metabolism and membrane fatty acid composition play a
part in a wide range of neurodevelopmental and psychiatric disorders. Altered fatty acid homeostasis
as a result of insufficient dietary supplementation, genetic defects, the function of enzymes involved
in their metabolism, or mitochondrial dysfunction contributes to the development of autism.
Objective: This study evaluates the association of altered brain lipid composition and neurotoxicity
related to autism spectrum disorders in propionic acid (PA)-treated rats.
Design: Forty-eight young male western albino rats were used in this study. They were grouped into
six equal groups with eight rats in each. The first group received only phosphate buffered saline
(control group). The second group received a neurotoxic dose of buffered PA (250 mg/kg body
weight/day for 3 consecutive days). The third and fourth groups were intoxicated with PA as described
above followed by treatment with either coenzyme Q (4.5 mg/kg body weight) or melatonin (10 mg/kg
body weight) for 1 week (therapeutically treated groups). The fifth and sixth groups were administered
both compounds for 1 week prior to PA (protected groups). Methyl esters of fatty acid were extracted
with hexane, and the fatty acid composition of the extract was analyzed on a gas chromatography.
Results: The obtained data proved that fatty acids are altered in brain tissue of PA-treated rats. All
saturated fatty acids were increased while all unsaturated fatty acids were significantly decreased in
the PA-treated group and relatively ameliorated in the pre-post melatonin and coenzyme Q groups.
Conclusions: Melatonin and coenzyme Q were effective in restoring normal level of most of the
impaired fatty acids in PA-intoxicated rats which could help suggest both as supplements to
ameliorate the autistic features induced in rat pups.