Identification of rat S14 protein and comparison of its regulation with that of mRNA S14 employing synthetic peptide antisera.

The rat S14 gene encodes a protein of unknown function and has an amino acid sequence unrelated to any published sequences. Expression of mRNA S14 and lipogenesis in liver, fat, and mammary gland are regulated coordinately by dietary and hormonal stimuli, suggesting that the S14 protein may be associated with lipogenesis. Antisera to synthetic peptides corresponding to portions of the deduced amino acid sequence of the protein were used to identify the protein and to compare its regulation with that of mRNA S14. Antisera specifically recognized the in vitro translation product of mRNA S14 as defined by its migration on two-dimensional gel electrophoresis. A product of identical Mr was identified on Western blots of liver homogenates from hyperthyroid, carbohydrate-fed rats. Subcellular fractionation showed that S14 protein is primarily cytosolic. The protein was detectable in tissues with abundant S14 gene expression, including hyperthyroid liver and epididymal fat and hypothyroid brown adipose tissue, whereas it was undetectable in hypothyroid liver and euthyroid kidney, testis, and spleen. Diurnal variation in hepatic mRNA S14 correlated with comparable changes in levels of the protein. Surprisingly, no S14 protein was observed in the livers of chronically (3 week) hypothyroid rats treated with triiodothyronine (T3) until 12 h had elapsed, despite attainment of maximal levels of mRNA S14 within 4 h. Rapid appearance of protein after T3 treatment was observed in both euthyroid and short term (4 day) hypothyroid rats, suggesting that long-term hypothyroidism is associated with a defect in the translational efficiency of mRNA S14.