Effects of sex steroids and antihormones on growth, adhesiveness and receptors of L-929 cells cultured in serum-containing and serum-free media

Abstract

L-929 cells contain distinct steroid hormone receptors for glucocorticosteroids, for androgens and for estrogens. We studied the effects of different hormones at physiological concentrations on androgen and estrogen receptor protein accumulation and on cell multiplication. The cells were cultured in steroid-free serum-containing medium, either in Petri dishes or in suspension cultures, and in serum-free medium in Petri dishes. The presence of androstanolone (30 nM) in suspension cultures decreased the concentration of estradiol receptor-binding sites in the cytoplasmic fraction. This decrease was progressive following 3, 5 or 10 days of suspension culture in the presence of the androgen; simultaneously a parallel increase in cell multiplication and DNA was observed. The estradiol receptor decrease was approx. 50% after 10 days of treatment and was unaltered after a further 5 days. It was verified that the low androstanolone concentration in the medium did not provoke the translocation of the estradiol receptor into the nucleus. Progesterone 50 nM also decreased the cytoplasmic estradiol binding sites but had no influence on cell growth and no cytoplasmic progesterone receptor could be found. Diethylstilbestrol (30 nM) did not decrease the concentration of androgen receptor. Cell multiplication was stimulated after several days of suspension culture in the presence of either diethylstilbestrol, estradiol or androstanolone at a concentration of 10–30 nM. The specific anti-hormones, tamoxifen and cyproterone acetate, inhibited selectively the growth effects of estrogens and androgen, respectively. L-929 cells could be cultured for a long period of time in serum-free medium in Petri dishes. Cell adhesiveness was increased in the presence of 40 nM androstanolone or 40 nM estradiol, as well as cell multiplication. Dexamethasone had a negative effect on cell adhesiveness and cell growth. The experimental data suggest that at low concentrations the different steroids operated each through its own receptor and were active on cell growth even in serum-free medium.