Polyamine-dependent post-translational modification of proteins in differentiating mouse epidermal cells.

In order to get a better understanding of the role played by polyamines in calcium-induced epidermal cell differentiation, the time course of their metabolism was investigated. Results demonstrate that differentiating epidermal cells are characterized by time-dependent changes in polyamine concentrations. An early polyamine catabolic phase, characterized by increased total putrescine concentration and drastic reduction of both spermidine and spermine levels, is followed by active spermidine biosynthesis. The differences in putrescine and, in particular, spermidine metabolism are reflected in a time-dependent modulation of protein-bound polyamine derivatives. In fact, upon addition of calcium to the culture medium, hypusine N epsilon-(4-amino-2-hydroxybutyllysine) is rapidly reduced to undetectable levels. The very low hypusine level is paralleled by an increase in gamma-glutamyl putrescine derivatives and followed by a large increase in gamma-glutamyl spermidine derivatives; in addition, there is a remarkable concomitant biosynthesis of transglutaminase-catalyzed mono and bis gamma-glutamyl spermidine derivatives and epsilon(gamma-glutamyl)lysine cross-links. The effect of TPA and RA on hypusine formation is also reported.