Measurement of the protein-synthetic activity in vivo of various tissues in rats by using [3H]Puromycin

Abstract

The validity of a new technique was examined for estimating the protein-synthetic activity of various tissues in vivo. The basic assumption underlying the method is that the number of peptide chains growing on each active ribosome would increase as the protein-synthetic activity of each tissue increases. The principle of the procedure, which was devised originally by Wool & Kurihara [(1967) Proc. Natl. Acad. Sci. U.S.A. 58, 2401-2407] to determine in vitro the number of functional ribosomes in skeletal muscle, is as follows. Puromycin is known to bind easily to the C-terminal end of the growing peptide on ribosomes and thus stop further chain elongation. Hence, if the number of puromycin molecules attached to the nascent peptide is determined by using radioactive puromycin as a tracer, one can estimate the number of growing peptides, i.e. the activity of tissue protein synthesis. By using this technique, it is shown that both starvation and the feeding of a protein-free diet caused marked decreases in the relative rate of formation of peptidyl-puromycin, i.e. activity of protein synthesis in liver, skeletal muscle, heart, spleen, testis, lung, kidney and intestine.