Cell Cycle Kinetics of Chinese Hamster (Cho) Cells Treated With the Iron-Chelating Agent Picolinic Acid

Abstract

Spontaneously transformed (tumorigenic) Chinese hamster cells (line CHO) do not exhibit picolinic acid-sensitive G1 and G2 cell cycle arrest points observed in normal and virus-transformed cells. Picolinic acid arrests CHO cells in S phase only and produces culture growth behavior similar to that produced by hydroxyurea. Prolonged treatment with picolinic acid permits a slow but significant traverse of cells through S phase. Like hydroxyurea, picolinic acid is not a useful agent for synchronizing exponential CHO cells, but it can be used to resynchronize cultures in early S phase if a previous synchronization procedure (such as isoleucine deprivation) is used. The Fe chelating properties of picolinic acid, and the similarities of its effects on cultured cells to those of hydroxyurea and the Fe chelating drug deferrioxamine, suggest that picolinic acid inhibits DNA synthesis by interfering with the Fe dependent production of a stable free organic radical which is essential for the ribonucleotide reductase formation of deoxyribonucleotides.