Cell-cycle position and nuclear protein content.

To determine the change in nuclear protein content as a function of cell cycle position, isolated HeLa nuclei were stained for protein with fluorescein isothiocyanate (FITC) and for DNA with propidium iodide (PI) and analyzed by flow cytometry (FCM). The resulting FITC versus PI histogram consisted of four definable regions, a G1 region characterized by increasing FITC and relatively constant PI (2C DNA content), an S region characterized by increasing PI with relatively constant FITC, a G2 region characterized by increasing FITC and constant PI (4C DNA content), and a region of G1 FITC staining with near G2 PI staining. The relationship between cell cycle position and these regions of the histogram was confirmed by the two following studies: 1) The distribution of labeled nuclei throughout the histogram was observed after [14C]TdR pulse labeling. 2) Exit of cells from G1 was observed in the histogram after the addition of Colcemid to the HeLa cell cultures. Nuclear protein content did not appear to increase uniformly across the cell cycle (defined by DNA content). Rather, nuclear protein content showed the largest increase during G1. Thus, dual parameter FCM analysis based on nuclear DNA and protein content provides a more complete definition of cell cycle position than DNA content alone.