cAMP-dependent protein kinase (PKA) is an essential regulator of gene expression and cell differentiation during multicellular development of Dictyostelium discoideum. Here we show that PKA activity also regulates gene expression during the growth phase and at the transition from growth to development. Overexpression of PKA leads to overexpression of the discoidinIgamma promoter, while expression of the discoidinIgamma promoter is reduced when PKA activity is reduced, either by expression of a dominant negative mutant of the regulatory subunit or by disruption of the gene for the catalytic subunit (PKA-C). The discoidin phenotype of PKA-C null cells is cell autonomous. In particular, normal secretion of discoidin-inducing factors was demonstrated. In addition, PKA-C null cells are able to respond to media conditioned by PSF and CMF. We conclude that PKA is a major activator of discoidin expression. However, it is not required for production or transduction of the inducing extracellular signals. Therefore, PKA-dependent and PKA-independent pathways regulate the expression of the discoidin genes.
In Dictyostelium discoideum, growth and development are mutually exclusive and the transition between the two phases of the life cycle is regulated by the environment. This regulation is disturbed in HBW3, a chemically induced mutant with an unknown molecular defect. The mutant develops rapidly and expresses developmental markers during growth. Here we show that HBW3 fails to complement another mutant which has a similar phenotype: a targeted knock-out of the gdt1 gene. We further show that both mutations are recessive and that both are located on chromosome III, suggesting that the two mutations might be allelic. Molecular analysis, however, demonstrates that the gdt1 gene is not mutated in HBW3. Thus, although a wild-type copy of each gene is present in diploid cell lines, the defects due to the recessive mutations synergize to produce a detectable phenotype. The phenotypic similarities and differences between the two mutants are discussed.
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