Prespore cell inducing factor, psi factor, controls both prestalk and prespore gene expression in Dictyostelium development.

Prespore cell-inducing (psi, psi) factor (PsiA), encoded by the psiA gene of Dictyostelium, is a secreted signal glycoprotein that induces prespore cell differentiation when added to monolayer cultures. In situ hybridization during normal development showed that the psiA gene is highly expressed in scattered cells at the mound stage and in prespore cells at the onset of culmination. The conventional prespore-cell marker genes, cotC and pspA, were expressed normally in psiA(-) and psiA overexpressing strains. Expressions of rnrB and cudA are repressed in the prestalk cells of a wild type slug to render prespore specific pattern. However, a promoter-reporter fusion gene, rnrB:lacZ, showed an ectopic expression in the prestalk cells of the psiA(-) strain while cudA(psp):lacZ did so in those of the psiA overexpressing strain. Overexpression of psiA delayed expression of the prestalk specific gene, ecmB, during development, while knocking out psiA promoted its expression. In addition, overexpression inhibited DIF-1-induced stalk formation in monolayer cultures. Together with the known prespore inducing activity, the results indicate that PsiA regulates both prespore and prestalk/stalk cell differentiation. These results indicate that PsiA is also involved in prestalk cell differentiation.

Differentiation inducing factors in Dictyostelium discoideum: a novel low molecular factor functions at an early stage(s) of differentiation.

There are reports that secreted factor(s) are involved in prespore cell differentiation in Dictyostelium discoideum, but the structures and functions of the various factors have not been elucidated. Previously, we described two prespore cell-inducing factors in conditioned medium; one was a glycoprotein named prespore cell-inducing factor (psi factor, or PSI-1), and the other, a heat stable dialyzable factor(s). In the present paper, we purified and characterized the most potent prespore cell-inducing activity in dialysates. The factor began to be secreted after the onset of starvation and stopped being secreted once the cells had aggregated, which was earlier than the onset of the psi factor gene expression. In addition, unlike psi factor, its secretion did not appear to depend on activation of protein kinase A. Interestingly, the purified factor not only induced prespore cell specific genes such as pspA and cotC but also a prestalk-cell specific gene, ecmB in vitro. The purified factor is tentatively designated polyketide-like factor (PLF), because it seems to be a novel polyketide with 208 Da. Half maximal induction of prespore cell was obtained with 26 nmol/L of PLF. We propose that PLF plays a key role in the acquisition of differentiation commitment, before the psi factor induces specifically prespore cell differentiation.

Induction of Cell Differentiation of Isolated Cells in Dictyostelium discoideum by Low Extracellular pH.

In Dictyostelium discoideum, the formation of multicellular masses is necessary for cell differentiation. However, the present study shows that amoebae of strain V12M2 efficiently differentiate to prespore or stalk cells under submerged incubation in a simple medium containing cAMP and salts without cell contact, only if the pH of the medium is maintained at acidic values; differentiation scarcely occurs in the neutral pH range. The optimum pH values for prespore and stalk cell differentiation are 5.1 and 4.5, respectively. In addition to the extracellular pH, Mg ions and the concentration of cAMP also affect the choice of the differentiation pathway. The time courses of differentiation of both cell types under optimum conditions are also presented.

Alkylbenzoquinone involved in development of cellular slime molds.

The structure of the prespore-cell-promoting factor from Dictyostelium discoideum was determined to be 2-hydroxy-5-methyl-6-pentylbenzoquinone. The synthetic compound has prespore-cell-promoting activity similar to the natural one, with half-maximal induction at a concentration as low as 40 pM. It was also found that the factor induces aggregation in an aggregation-deficient mutant of a related species, Polysphodilium violaceum. Both these activities are sensitive to positional isomerism with the 6-methyl-5-pentyl isomer showing no detectable activity.

A gene encoding, prespore-cell-inducing factor in Dictyostelium discoideum.

Two factors that exist in conditioned medium (CM) of Dictyostelium discoideum induce amoebae to differentiate into prespore cells when they are incubated at a very low cell density in submerged monolayer culture. Previously, we purified one of them, a glycoprotein factor with an apparent molecular mass of 106 kDa, and we named it psi factor (psi, prespore-inducing factor). Based on the partial amino acid sequence of the purified psi factor, we have isolated the corresponding cDNA clone, which is expressed maximally at the loose mound stage. The cDNA encodes a novel protein and the predicted molecular mass of the mature secreted protein is 60 kDa. Knockout mutant strains of the psi factor gene, psiA(-), were created by targeted integration. Although these mutant strains appear to develop normally, CM from these mutants showed reduced prespore-cell-inducing activity. Rescuing the mutant strains by expression of psi factor under control of a constitutive promoter causes overproduction of psi factor protein and CM from such cells showed a 20-fold higher level of prespore-cell-inducing activity than that from wild-type cells. Further, CM from parental cells induced prespore cell division, while that from psiA null strains showed no cell division inducing activity. Our results indicate that psi factor protein is a novel type of growth factor that does not belong to any of the families of growth factor so far identified in animals.