Mitochondrial dysfunction in rat with nonalcoholic fatty liver Involvement of complex I, reactive oxygen species and cardiolipin

Mitochondrial dysfunction and oxidative stress play a central role in the pathophysiology of nonalcoholic fatty liver disease (NAFLD). This study aimed to elucidate the mechanism(s) responsible for mitochondrial dysfunction in nonalcoholic fatty liver. Fatty liver was induced in rats with a choline-deficient (CD) diet for 30 days. We examined the effect of CD diet on various parameters related to mitochondrial function such as complex I activity, oxygen consumption, reactive oxygen species (ROS) generation and cardiolipin content and oxidation. The activity of complex I was reduced by 35% in mitochondria isolated from CD livers compared with the controls. These changes in complex I activity were associated with parallel changes in state 3 respiration. Hydrogen peroxide (H(2)O(2)) generation was significantly increased in mitochondria isolated from CD livers. The mitochondrial content of cardiolipin, a phospholipid required for optimal activity of complex I, decreased by 38% as function of CD diet, while there was a significantly increase in the level of peroxidized cardiolipin. The lower complex I activity in mitochondria from CD livers could be completely restored to the level of control livers by exogenously added cardiolipin. This effect of cardiolipin could not be replaced by other phospholipids nor by peroxidized cardiolipin. It is concluded that CD diet causes mitochondrial complex I dysfunction which can be attributed to ROS-induced cardiolipin oxidation. These findings provide new insights into the alterations underlying mitochondrial dysfunction in NAFLD.     

Mitochondrial complex I dysfunction in rat heart with aging: critical role of reactive oxygen species and cardiolipin

Reactive oxygen species (ROS) are considered a key factor in the heart aging process. Mitochondrial respiration is an important site of ROS generation and a potential contributor to heart functional changes with aging. We have examined the effects of aging on various parameters related to mitochondrial bioenergetics in rat heart, such as complex I activity, oxygen consumption, membrane potential, ROS production, and cardiolipin content and oxidation. A loss in complex I activity, state 3 respiration, and membrane potential was found in mitochondria with aging. The capacity of mitochondria to produce H(2)O(2) was significantly increased in aged rats. The mitochondrial content of cardiolipin, a phospholipid required for optimal activity of complex I, significantly decreased as a function of aging, whereas there was a significant increase in the level of oxidized cardiolipin. The lower complex I activity in mitochondria from aged rats could be almost completely restored to the level of young heart by exogenously added cardiolipin, but not by other phospholipids nor by peroxidized cardiolipin. It is proposed that aging causes heart mitochondrial complex I deficiency, which can be attributed to ROS-induced cardiolipin peroxidation. These results may prove useful in elucidating the mechanism underlying mitochondrial dysfunction associated with heart aging.     

Decreased activity of the pyruvate translocator and changes in the lipid composition in heart mitochondria from hypothyroid rats

A study of the transport of pyruvate in heart mitochondria from normal and hypothyroid rats has been carried out. Heart mitochondria from hypothyroid rats translocate pyruvate via the alpha-cyanocinnamate sensitive carrier much more slowly than do mitochondria from normal rats. Kinetic analysis of the pyruvate transport shows that the Vmax of this process is decreased while there is practically no change in the Km values. Neither a decrease in the transmembrane delta pH value nor a decrease in the total number of the pyruvate carrier molecules, titrated with labeled alpha-cyanocinnamate, account for the decreased rate of pyruvate transport. The lower activity of the pyruvate translocator in mitochondria from hypothyroid rats is associated with a parallel decrease of the rate of pyruvate supported oxygen uptake. There is, however, no difference in either the respiratory control ratios or in the ADP/O ratios between these two types of mitochondria. The heart mitochondrial lipid composition is significantly altered in hypothyroid rats. Cardiolipin, particularly, was found to decrease by around 36%. In addition the pattern of fatty acids was found to be altered in mitochondrial membranes from hypothyroid rats. It is suggested that the decreased activity of the pyruvate translocator in heart mitochondria from hypothyroid rats can be ascribed to changes in the lipid environment which surrounds the pyruvate carrier molecule in the mitochondrial membrane.     

A comparative study of the transport of pyruvate in liver mitochondria from normal and diabetic rats

A comparative study of the transport of pyruvate in liver mitochondria from normal and diabetic rats has been carried out. TheK _m for net pyruvate uptake in diabetic, ketotic mitochondria is practically equal to that measured in normal mitochondria, while theV _max is significantly lower. The lower activity of the pyruvate translocator in diabetic mitochondria compared to normal mitochondria is also shown by swelling experiments as well as by following the rate of pyruvate-supported respiration. Pre-exposure of mitochondria from normal rats to the ketone body acetoacetate and to 2-oxobutyrate results in a decrease of theK _m for pyruvate uptake. This effect is impaired in mitochondria from diabetic animals. The results indicate that the activity and the properties of the mitochondrial pyruvate translocator are modified in the diabetic, ketotic condition.Supported by a joint grant from Consiglio Nazionale delle Ricerche, Rome, Italy, and the Polish Academy of Sciences, Warsaw, Poland.     

Stimulation of phosphate transport in rat-liver mitochondria by thyroid hormones

The effect of hyperthyroidism on the transport of phosphate in rat-liver mitochondria has been examined. Thyroid hormones administered in vivo increased carrier mediated (mersalyl-sensitive) phosphate transport. Kinetic analysis of the phosphate transport showed that the thyroid hormone affects the Vmax of this process, while having no effect on the Km values. The higher activity of the phosphate carrier was found not to be due to a change in the endogenous content of phosphate nor to a change in the transmembrane delta pH value. Inhibitor titrations with mersalyl showed that mitochondria from both control and hyperthyroid rats required the same concentrations of inhibitor to produce total inhibition of phosphate transport, thus suggesting that the amount of functional translocase present is unaffected. The level of cardiolipin was significantly higher in mitochondrial membranes from hyperthyroid rats as compared to the control rats. The thyroid hormone induced change in the activity of the phosphate carrier appears to be due to a more favorable lipid microenvironment (cardiolipin content) surrounding the carrier molecule in the mitochondrial membrane.     

Bilayer structure of dihexadecyl phosphate

The X-ray scattering data of dihexadecyl phosphate (DHP) were analyzed by the distance distribution function directly obtained from the scattered intensity by Fourier transformation with no prior assumption about size and shape. The detergent in aqueous solutions is a random distribution of lamellae with a thickness of 58 Å and consistent with a hollow vesicular structure of an outer diameter of 340 Å with some overall size heterogeneity. The electron density profile perpendicular to the lamellar plane indicates a bilayer as the underlying structural principle.     

The effect of aging and acetyl-L-carnitine on the activity of the phosphate carrier and on the phospholipid composition in rat heart mitochondria.

The effect of aging and treatment with acetyl-L-carnitine on the activity of the phosphate carrier and on the phospholipid composition in rat heart mitochondria was studied. It was found that the activity of the phosphate carrier was reduced by aging. Treatment of aged rats with acetyl-L-carnitine reversed this effect. The mitochondrial level of cardiolipin was decreased with aging. Treatment of aged rats with acetyl-L-carnitine restored the level of cardiolipin to that of young rats. It is proposed that acetyl-L-carnitine may restore the correct phospholipid composition (cardiolipin level) of the mitochondrial membrane, altered by aging, thereby restoring the activity of the phosphate carrier.     

Cold lability and dissociation of the F1-ATPase from Bacillus stearothermophilus

Effects of inadequate vitamin E (E) and/or selenium (Se) nutrition on the activities of cytochrome P-450 mixed function oxidase system (heme hydroperoxidase, p-nitroanisole O-demethylase), and epoxide hydrolase have been investigated. Heme hydroperoxidase activity of liver and lung microsomes was significantly decreased in E deficiency. In the liver, Se deficiency resulted in a significant increase in hydroperoxidase activity. In contrast to the peroxidase activity, liver demethylase activity was only marginally affected in $\text{E}\text{Se}$ deficiency states. However, kidney demethylase activity was increased two fold in Se deficient states. Liver microsomal epoxide hydrolase activity was significantly increased in both E and Se deficiency states.