Isolation and biochemical characterization of nuclei from immature and mature guinea pig granulocytes

Abstract

Intact nuclei were isolated in high yield from enriched fractions of immature and mature guinea pig granulocytic leukocytes. These nuclei were used to determine whether any changes in synthesis and content of nuclear proteins accompany the striking increase in chromatin condensation and the nuclear lobation which occur during granulocyte maturation. The results indicate that the synthesis of nuclear proteins and the nuclear RNA content decrease markedly during granulocyte maturation. The incorporation of l-[ U- 14C]leucine into the acid-soluble histone-rich fraction of chromatin from immature cells is about 25 times that of mature cells, and the incorporation into the acid-insoluble, nonhistone proteins of chromatin from immature cells is about 6 times that of mature cells. It appears that there is very little quantitative change with respect to the protein components of nuclei from immature and mature granulocytic leukocytes. No significant differences in the amounts of histone, nonhistone protein, or phosphoprotein between nuclei of immature and mature granulocytes could be detected. No major differences in gel electrophoretic patterns of histones or nonhistone proteins could be detected. The fact that the amount of the chromatin proteins remains relatively constant during cell maturation in spite of the pronounced decrease in the rate of synthesis suggests that the rate of turnover of these proteins decreases significantly as the maturation of granulocytic leukocytes proceeds.