Kinetics of polyamine synthesis and turnover in mouse fibroblasts

Abstract

Kinetics of polyamine synthesis and degradation were studied in mouse fibroblasts growing in suspension culture. The approach was to prelabel cells with radioactive polyamines and to observe the rate of loss of radioactivity and the rate of decrease in specific activity of these compounds in cells. Radioactive putrescine declined with a half-life of 1.5–2h, whether derived directly from exogenous putrescine or indirectly from ornithine. Much of this turnover was due to excretion, the kinetics of which suggested that a steady-state was being established between putrescine inside and outside the cells. Within 5h of medium change, cells growing at a density of 5×10⁵cells/ml had supplied putrescine to the medium to a concentration of about 1μm. When cells were prelabelled with either putrescine or spermidine, radioactivity in cell spermidine declined with a half-life of 60h. This rate of turnover is sufficient to provide all the spermine required by the cell. Spermine synthesis was the only observed reaction of spermidine, although some excretion into the growth medium was detected. Spermine was not degraded at a detectable rate as long as cells were growing exponentially; in stationary phase, degradation to spermidine, which was excreted, became significant. The half-lives of the specific activities of spermine, spermidine and putrescine were 24, 15 and 1.5h respectively. From these values, the rate of synthesis of each was calculated. Spermidine was synthesized at 6.8 times the rate of spermine, and putrescine was synthesized at 0.46nmol/10⁶cells per h, twice the rate of spermidine. The significance of these kinetic parameters is discussed.