[DIACYLGLYCEROL ACCUMULATION IMPAIRS SHORT-TERM ACTIVATION OF PHOSPHOLIPASE D BY THYROXINE IN THE LIVER CELLS].

Thyroid hormones (TG) are known modulators of signal transduction. Phospholipase D (PLD) is one of the targets of TG in the stimulated cells. Response of cells to the short-term TG action significantly reduces at old age. Taking into account that diacylglycerol (DAG) accumulation induces the resistance of cells to some of regulatory factors in the target cells the aim of the present study was to determine if DAG content increase in hepatocytes impairs the L-thyroxine (L-T4) short-term action. The experiments were performed in either the [14C]palmitic acid- labeled hepatocytes or [14C]oleic acid-pre-labeled liver cells of 3- and 24-month-old rats. To study the short-term L-T4 action on cells the PLD activation was determined. The DAG production and content in hepatocytes significantly increased at old age and in the young cells pre-treated with palmitic acid. The reduction of DAG level in cells by means of DAG-kinase activator, alfa-tocoferol acetate, or long-term L-T4 treatment improved the short-term hormone action. The above data have indicated that DAG play important role in the L-T4 PLD regulation. The cross-talk between classic and non-genomic pathways of TG regulation of lipid metabolism has been determined.

Vitamin E prevents the age-dependent and palmitate-induced disturbances of sphingolipid turnover in liver cells.

Sphingolipid turnover has been shown to be activated at old age and in response to various stress stimuli including oxidative stress. Reduction of vitamin E content in the liver under the pro-oxidant action is associated with enhanced sphingolipid turnover and ceramide accumulation in hepatocytes. In the present paper, the correction of sphingolipid metabolism in the liver cells of old rats and in the palmitate-treated young hepatocytes using α-tocopherol has been investigated. 3- and 24-month-old rats, [(14) C]palmitic acid, [methyl-(14) C-choline]sphingomyelin (SM), and [(14) C]serine were used. α-Tocopherol administration to old rats or addition to the culture medium of old liver slices or hepatocytes prevented age-dependent increase of ceramide synthesis and lipid accumulation, and increased SM content in liver tissue and cells. α-Tocopherol treatment of old cells decreased the neutral and acid sphingomyelinase (SMase) activities in hepatocytes and serine palmitoyl transferase activity in the liver cell microsomes. Effect of α- or γ-tocopherol, but not of δ-tocopherol, on the newly synthesized ceramide content in old cells was correlated with the action of inhibitor of serine palmitoyl transferase (SPT) activity (myriocin) and SMase inhibitors (glutathione, imipramine). Addition of α-tocopherol as well as myriocin to the culture medium of young hepatocytes, treated by palmitate, abolished ceramide accumulation and synthesis. The data obtained demonstrate that α-tocopherol normalized elevated ceramide content in the old liver cells via inhibition of acid and neutral SMase activities and lipid synthesis de novo. α-Tocopherol, reducing ceramide synthesis, prevented palmitate-induced aging-like ceramide accumulation in young liver cells.