Stimulated Cell Death Research Articles

Modulation of normal mammary epithelial cell proliferation, morphogenesis, and functional differentiation by retinoids: a comparison of the retinobenzoic acid derivative RE80 with retinoic acid.

The ability of retinoids to modulate the proliferation as well as the morphological and functional differentiation of normal mammary epithelial cells isolated from pubescent female virgin rats was evaluated in serum-free primary culture. The retinobenzoic acid derivative RE80, present continuously or for only a limited time in culture, inhibited proliferation with an IC50 of less than 10(-10) M. In contrast, all-trans-retinoic acid (RA) inhibited proliferation with an IC50 of approximately 10(-8) M. In addition to effects on proliferation, RE80 and RA stimulated end bud colonies to differentiate to lobular alveolar colonies, inhibited alveolar budding, and suppressed the outgrowth of squamous colonies. Both retinoids also markedly stimulated functional differentiation, as assessed by accumulation of the major milk protein casein, and stimulated the synthesis of a approximately 73- to 74-kilodalton protein identified as a member of the transferrin family. Moreover, both retinoids stimulated cell death in the differentiated cell population. RE80 was approximately 100-fold more potent than RA for all of these effects. These data suggest that several mechanisms may contribute to the chemopreventive and/or therapeutic efficacy of retinoids in breast cancer, including inhibition of proliferation, stimulation of cell death, and/or induction of differentiation.

Bcl‐2 inhibits glucocorticoid‐induced apoptosis but only partially blocks calcium ionophore or cycloheximide‐regulated apoptosis in S49 cells

Many non-Hodgkins B-cell lymphomas possess a deregulated bcl-2 gene resulting in a phenotype that is apparently resistant to programmed cell death (apoptosis). We have used a mouse lymphoma cell line (S49.1) that undergoes apoptosis in response to a variety of stimuli to determine the effect of bcl-2 expression on induction of apoptosis. S49 cells were stably transfected with recombinant amphotrophic retroviruses carrying either a G418 antibiotic resistance gene alone (S49-NEO) or this gene in combination with a bcl-2 complementary DNA (S49-Bcl-2). Three different agents previously shown to activate apoptosis by different pathways in S49 cells (dexamethasone, the calcium ionophore A23187, and cycloheximide) were used to examine the effect of bcl-2 expression on cell growth and apoptosis caused by multiple signal transduction pathways. Dexamethasone (DEX) treatment inhibited cell growth and stimulated cell death in S49-NEO cells. Although S49-Bcl-2 cells exhibited a similar antiproliferative response, they failed to die in response to steroid treatment. Western blot analysis revealed no difference in the levels of glucocorticoid receptor protein in the two cell lines, and both responded to glucocorticoid with a profound inhibition of protein synthesis. Cycloheximide (CX) and A23187 also had antiproliferative and cell killing effects in both cell types, although higher concentrations of each agent were needed to kill S49-Bcl-2 cells. To determine whether the loss of viability in response to these drugs was due to apoptosis, cells were examined morphologically and DNA integrity was examined by gel electrophoresis.(ABSTRACT TRUNCATED AT 250 WORDS)