CELL-DIFFERENTIATION IN DICTYOSTELIUM-DISCOIDEUM

We have shown previously that amoebae of D. discoideum strain V12 M2 starved at low density in the presence of cyclic AMP fail to form either stalk cells or prespore cells; a low molecular weight factor released by cells at high density promotes stalk formation under these conditions but formation of prespore cells requires ‘cell contact’. Here we summarise evidence that: Elevated intracellular cyclic AMP levels are required for all developmental gene expression beyond the preaggregative phase, and ammonia antagonises this expression in some way. However, the action of ammonia is not pathway specific. ‘Cell contact’ is a specific requirement for entry into the prespore pathway of gene expression since isolated cells provided with cyclic AMP synthesise much reduced amounts of the presporespecific enzyme uridine diphosphate (UDP) galactose polysaccharide transferase but normal amounts of the pathway-indifferent enzyme glycogen phosphorylase. The ‘cell contact’ mechanism is uniquely sensitive to low concentrations of pronase. This protease selectively inhibits transferase synthesis and blocks in vitro spore differentiation (in a spore-forming mutant). It does not prevent chemotactic aggregation, stream formation, or stalk cell formation in the presence of cyclic AMP. © 1979, International Society of Differentiation. All rights reserved.