Analysis of erythroid differentiation in Friend cells using noninducible variants

A series of Friend cell variants has been isolated by selecting for resistance to different inducers of Friend cell differentiation. This procedure selects for cells which have lost the capacity to differentiate terminally in the presence of inducer. Fluctuation analysis shows that these variants arise during culture and are not induced by the selective conditions. Moreover, mutagenesis of parental cells increases the frequency of occurrence of DMSO-resistant variants. Our evidence suggests that these resistant variants arise by two mechanisms. Some arise spontaneously at a relatively high rate (5 × 10^?5?5 × 10^?6 per cell per generation), but their phenotypes are not necessarily stable on removal of the selective conditions. Stable variants arise spontaneously at a lower frequency which is consistent with a true mutational origin.Screening of these stable resistant variants shows that they have different phenotypes. Some fail to respond to any inducer; others respond to all inducers tested except the one used for selection, whereas others respond to some but not all inducers. Most of the DMSO-resistant variants are noninducible by DMSO for all aspects of Friend cell differentiation tested (that is, globin mRNA, hemoglobin, spectrin and the ability to undergo terminal differentiation). Two variants, however, are inducible for an early marker of differentiation, the erythrocyte membrane protein spectrin, but not for other markers such as hemoglobin, globin RNA or terminal differentiation. This implies that the regulation of the globin pathway can be uncoupled from that of spectrin.