Cell cycle distributions, growth characteristics, and variation in prolactin and growth hormone production in cultured rat pituitary cells

Abstract

Summary Clonal strains of rat pituitary tumour cells (GH₃ cells) spontaneously produce and secrete prolactin and growth hormone. Chromosome analysis and DNA ploidy measurements revealed that the GH₃ cells in the present study were triploid and had a decreased chromosome number compared to the parent strain. Monolayer cultures of these cells grow exponentially for 6–7 days with a mean doubling time of 54 h. Cell cycle distributions and phase durations were determined by micro-flow fluorometric measurements of cellular DNA content combined with computer calculations. During exponential growth the cell cycle distribution did not change (65.4% cells with a G₁ phase DNA content, 24.9% with an S phase DNA content, and 9.7% with a (G₂ + M) phase DNA content). Counting of mitoses gave 1.4% cells in M phase. The³H-Tdr labeling indices were determined by autoradiography, and the results were in good agreement with the number of cells in S phase as calculated by micro-flow fluorometry. The phase durations were: T_s = 15.9h, T_G2=6.2h, T_M=1.1h, and T_G1=30.9h. T_s and T_M calculated from³H-Tdr labeled and Colcemid treated cultures gave corresponding results. In plateau phase cultures the number of cells with a G₁ DNA content increased to 80% and the number of cells with an S phase DNA content decreased to between 5% and 10%. The specific production of prolactin and growth hormone determined by radioimmunoassay showed two and four-fold increases respectively, during exponential growth. The hormone values decreased to initial or subinitial values (day 2 values) when approaching plateau phase. We conclude : that changes in the cell cycle distribution of the cell population cannot be responsible for the spontaneous alterations in hormone production during growth and that most of the hormone-producing cells must be in the G₁ phase.