Julius O. Olowookere scite author profile

Investigations were carried out to find the biochemical and bioenergetic implications of a defective in vivo synthesis of mitochondrial proteins during dietary-protein depletion. 3.4% dietary protein was fed to 21-day-old weanling rats for 30 days (experimental), while 21.0% dietary protein was fed to controls. A close simulation of marasmic-kwashiorkor syndrome was obtained in the experimental group. Rat liver mitochondria were isolated, and the functional and structural integrity was determined using biochemical standard parameters. Results show that the respiratory control ratio (RCR) is reduced by 50% in the experimental group, using any of the pyruvate/malate, β-hydroxybutyrate or succinate as substrate. The effects of storage at 0 °C were more pronounced in mitochondria from protein-depleted rats as these mitochondria are more leaky to protons (H⁺); hence they are defective in carrying out chemiosmotic oxidative phosphorylation. There is a drastic reduction in the basal ATPase and cytochrome oxidase activities with low ATP production and a decline in energy expenditure. This led to serious bioenergetic consequences culminating in heavy dependence on glycolysis and other biochemical aberrations.

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Sucrose Diet Elevates Cardiovascular Risk Factors in Male Albino Rats

Salau¹,

Olooto²,

Adebayo³

et al. 2012

International J. of Biological Chemistry

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The Bioenergetics of Protein-Energy Malnutrition Syndrome

Olowookere¹

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Possible defect in xenobiotic activation before glycine conjugation in protein-energy malnutrition

Thabrew¹,

Olorunsogo²,

Olowookere³

et al. 1982

Xenobiotica

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1. [14C]Benzoic acid administered to rats fed a normal diet was excreted mainly (99% of 24h excretion) as hippuric acid. 2. In protein-energy malnourished rats, only about 74% of [14C]benzoic acid administered was excreted as hippuric acid. The remainder was excreted as the glucuronide conjugate. 3. The oxidative phosphorylation capacity of liver mitochondria of malnourished rats was 30% less than that of normal rat liver mitochondria. 4. The decreased rate in oxidative phosphorylation is discussed in relationship to the observed decrease in glycine conjugation.

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