Effects of serum deprivation, insulin and dexamethasone on polysome percentages in C2C12 myoblasts and differentiating myoblasts

Abstract

An increase in the rate of protein synthesis in living cells can be achieved by regulating the quantity of mRNA, ribosomes, and enzymes available for translation or by regulating the efficiency at which existing components are used. Efficiency can be measured by comparing the number of ribosomes actively engaged in the synthesis of protein (polysomes) to the pool of free ribosomes. The objective of this study was to determine the percentage of ribosomes found as polysomes in C2C12 cells deprived of serum or exposed to insulin or dexamethasone 24 h before and after being stimulated to differentiate. Individual 60 mm culture dishes were exposed to serum-free control medium, medium containing serum, insulin, or dexamethasone for a period of 1 h or 2 h and then quickly frozen. The ribosomes and polysomes from these cells were separated by ultracentrifugation on 15 to 60% sucrose gradients and the absorbance across the gradient at 254 nm was recorded. Polysome percentages were determined as the area under the polysome peak divided by the total area under the curve. Serum deprivation caused a 12% decline in the percentage of ribosomes found as polysomes (P< 0.01). Dexamethasone caused a quadratic decline (P< 0.05) in polysome percentage, while insulin yielded a quadratic increase (P< 0.05). Protein synthesis assays measuring3H-tyrosine uptake showed similar responses. These changes occurred in the absence of any differences in total RNA concentration. It was concluded that differentiation and the absence of serum in the media reduced the rate of recruitment of ribosomes for protein synthesis. Insulin increased ribosome recruitment which was also observed by a similar increase in incorporation of radio-labeled tyrosine.