Thyroid hormones and phospholipase activity in rat liver mitochondria

The rate of the hydrolysis of mitochondrial phospholipids isolated from the liver of rats given excess amount of thyroid hormones for a long time was higher than in normal animals. Activation of this process determined by endogenous phospholipase of mitochondria could be also observed in liver mitochondria isolated 2 days after a single injection of L-thyroxine into rats. It is assumed that the hyperthyrosis-induced acceleration of lipid peroxidation in these organelles might be one of the reasons for activation of endogenous phospholipase of mitochondria.     

Detection of phospholipase D in rat liver mitochondria

It is determined that the rat liver mitochondria contain phospholipase D. It is active during incubation of the intact mitochondria, their "ghosts", as well as fractions of outer and inner membranes. This enzyme is shown to be able to realize the catalytic transformations of substrates by the reaction of hydrolysis and exchange of bases.     

Effect of chronic ethanol administration on energy metabolism and phospholipase A2 activity in rat liver.

1. For a period of 31 days male rats were given a liquid diet containing 36% of its energy as ethanol. Liver mitochondria from these animals demonstrated lowered respiratory control with succinate as substrate, a diminished energy-linked anilinonaphthalene-sulphonic acid fluorescence response, and lowered endogenous ATP concentrations. The phospholipid/protein ratio in mitochondria from these animals was unchanged; only minor alterations in the phospholipid fatty acid composition were observed. 2. In experiments where mitochondria were incubated at 18 degrees C in iso-osmotic sucrose (aging experiments), the above energy-linked properties were lost at an earlier time in organelles from ethanol-fed animals. Phospholipase A2 acitivty was depressed in mitochondria from control animals until respiratory control was lost and ATP was depleted. In contrast, no lag in the expression of phospholipase activity was observed in mitochondria from ethanol-fed rats. This loss of control of the phospholipase resulted in an earlier degradation of membrane phospholipids under the conditions of the aging experiments. 3. The ATPase (adenosine triphosphatase) activities, measured in freshly prepared tightly coupled mitochondria and in organelles uncoupled with carbonyl cyanide p-trifluoromethoxyphenylhydrazone, were not significantly different in ethanol-fed and liquid-diet control animals. When the mitochondria were aged at 18 degrees C, the activity increased with time of incubation in organelles from both groups of animals. A lag was observed, however, as the ATPase activity increased in control preparations. This lag was not present as APTase activity increased in mitochondria from ethanol-fed animals. 4. The significantly lowered values observed for energy-linked functions with succinate as an energy source demonstrate that ethanol elicits an alteration in liver mitochondria that affects the site II-site III regions of the oxidative-phosphorylation system. The apparent lack of control of the phospholipase A2 and ATPase activities in mitochondria from ethanol-fed animals suggests that the membrane microenvironment of these enzymes has been altered such that they can exert their catabolic effects more readily under conditions of mild perturbation. The fatty acid analyses demonstrate that the observed alterations both in the energy-linked functions and in control of the phospholipase and ATPase are not mediated through changes in the acyl chain composition of bulk-phase phospholipids.     

Effect of clofibrate on the adenosine triphosphatase activity of rat liver mitochondria.

The antihypercholesterolemic drug clofibrate (ethyl-α-p-chlorophenoxyisobutyrate) stimulated the latent ATPase activity and “superstimulated” the uncoupler-induced ATPase activity of rat-liver mitochondria. Addition of clofibrate decreased the turbidity of mitochondrial suspensions and released considerable amount of mitochondrial protein into solution. In these properties it closely resembled detergents like Triton X-100 and deoxycholate. However, unlike the detergents, clofibrate required the presence of a permeant cation for its disruptive action. Also, it was without any such effect on sonic submitochondrial particles. The drug enhanced the uptake of both Mg² and Cl^? by mitochondria suggesting that osmotic swelling precedes lysis. Sonic submitochondrial particles prepared in the presence of clofibrate showed a greater yield and comparable ATPase activity.     

Inhibition of phospholipase activity in liver mitochondria of gamma-irradiated rats

Phospholipase activity of mitochondria of gamma-irradiated rat liver was inhibited at different times after irradiation with a dose of 10 Gy. A maximum radiation effect was registered 3-6 h following irradiation (65% of the control); the effect somewhat decreased (85% of the control) by the end of the first 24 h after exposure.     

Phospholipid composition modifications influence phospholipase A2 activity in rat liver plasma membranes

The influence of the phospholipid composition and the physico-chemical properties of rat liver plasma membranes on the activity of membrane-bound phospholipase A2 has been investigated. The plasma membrane composition was modified by the aid of exogenous phospholipases A2, C and D, and by butanol treatment. The partially delipidated membranes thus obtained were enriched with different phospholipids. The steady-state fluorescent anisotropy of 1,6-diphenyl-1,3,5-hexatriene and the lipid order parameter-SDPH in the modified membranes were calculated. It was established that the activity of the membrane-bound phospholipase A2 was higher in rigid membranes and was decreased when the membrane lipid bilayer was fluidized.     

The role of phospholipase A2 in lipid peroxidation-induced fall of membrane potential of rat liver mitochondria

Cumene hydroperoxide (230 microM)-induced fall of the membrane potential takes place only in Ca2(+)-loaded mitochondria. Inhibitor of phospholipase A2 p-bromphenacyl bromide prevents uncoupling of mitochondria, having no effect on the accumulation of lipid peroxidation products.     

Participation of phospholipase A2 in uncoupling in rat liver mitochondria induced by products of lipid peroxidation

Accumulation of lipid peroxidation products induced by cumol hydroperoxide (230 microM) results in the loss of the membrane potential only in calcium-loaded mitochondria. The phospholipase A2 inhibitor, p-bromophenylacylbromide, prevents mitochondrial uncoupling but has no effect on the accumulation of lipid peroxidation products.     

Effect of thyroidectomy and hyperthyroidism on Ca2+/2H+-antiporter activity in rat liver mitochondria

The manifestation of Ca2+/2H+ antiporter activity in rat liver mitochondria was shown to be inhibited in thyroidectomy and stimulated in hyperthyroidosis. Experiments with measuring the kinetics of the swelling of deenergized mitochondria in isoosmotic solutions Ca (NO3)2, pH 8.1 demonstrated inhibition of the swelling of liver mitochondria during thyroidectomy and stimulation because of administering thyroid hormones in vivo. During thyroidectomy, the phosphate-induced swelling of rat liver mitochondria was powerfully inhibited. Meanwhile administration of thyroxine to rats stimulated the swelling of mitochondria.     

Effect of the polycationic antibiotic polymyxin B on the respiratory activity of rat liver mitochondria

the mechanism of the effect of the peptide antibiotic polymixin B on respiration of rat liver mitochondria was studied. It was shown that polymixin B at concentrations of (1,6--2,0) . 10(-3) M inhibits mitochondrial respiration in state 3 and 3u irrespective of the oxidation substrate used and activates oxygen consumption in state 4 at lower concentrations. It is assumed that the antibiotic affects mitochondrial respiration by changing the ionic permeability of the membranes.     

Calcium-activated proteolytic activity in rat liver mitochondria

Soluble extracts from sonicated rat liver mitochondria and rat liver cytosol were each chromatographed on DEAE-cellulose columns, and the fractions assayed for Ca²⁺-activated proteolytic activity using ¹⁴C-casein as a substrate. The mitochondrial preparations were shown to be free of cytosolic and microsomal contamination by the lack of alcohol dehydrogenase activity, a cytosolic marker enzyme, and by a lack of cytochrome P-450 activity, a microsomal marker enzyme. Two peaks of Ca²⁺-activated neutral endoprotease activity were resolved from the mitochondrial fractions. One protease was half-maximally activated with 25 μM Ca²⁺, and the other by 750 μM Ca²⁺. Rat liver cytosol contained only a high Ca²⁺-requiring protease peak. This is the first demonstration of Ca²⁺-activated proteases in mitochondria.