Phenotypic suppression of morphogenetic mutants of Dictyostelium discoideum

Abstract

The effects of cAMP pulses on the capacity of 15 aggregateless mutants to differentiate and construct fruiting bodies are compared to those obtained when mutant cells are starved with wild-type amoebae. Mutant strains are classified into three main groups depending upon the degree to which their phenotypic defects can be corrected. These data extend studies published earlier [Darmon, M., Brachet, P., and Pereira da Silva, L. (1975). Chemotactic signals induce cell differentiation in Dictyostelium discoideum. Proc. Nat. Acad. Sci. USA 72, 3163–3166; Pereira da Silva, L., Darmon, M., Brachet, P., Klein, C., and Barrand, P. (1975). Induction of cell differentiation by the chemotactic signal in Dictyostelium discoideum. In “Proceedings of the Tenth FEBS Meeting,” pp. 269–276]. (1) Only one mutant was unresponsive both to cAMP pulses and to the presence of wild-type amoebae and did not display any of the properties of differentiated cells. (2) Following treatment with cAMP pulses, 11 mutants developed certain properties of aggregation-competent amoebae. They increased their levels of cellular phosphodiesterase, showed an enhanced chemotactic sensitivity to cAMP, and established specific cell contacts. None of these amoebae could differentiate further. They did co-aggregate to some extent with wild-type cells, but failed to differentiate into spores. Rather, mutant cells were excluded from the pseudoplasmodium during the process of morphogenesis of the fruiting body. (3) In contrast, the aggregateless phenotype of three mutants was fully corrected by both cAMP pulses and the presence of wild-type cells. These findings are discussed on the basis of a relationship between the chemotactic signal and cell differentiation.