Inhibition of cell differentiation and cell cohesion by tunicamycin in Dictyostelium discoideum

The effects of tunicamycin on protein glycosylation and cell differentiation were examined during early development of Dictyostelium discoideum. Tunicamycin inhibited cell growth reversibly in liquid medium. At a concentration of 3 μg/ml, tunicamycin completely inhibited morphogenesis and cell differentiation in developing cells. These cells remained as a smooth lawn and failed to undergo chemotactic migration. The expression of EDTA-resistant contact sites was also inhibited. The inhibition by tunicamycin was reversible if cells were washed free of the drug within the first 10 hr of incubation. After 12 hr of development, cells were protected from the drug by the sheath. When cells were treated with tunicamycin during the first 10 hr of development, incorporation of [³H]mannose and [³H] fucose was inhibited by approximately 75% within 45 min while no significant inhibition of [³H]leucine incorporation was observed during the initial 3 hr of drug treatment. The inhibition of protein glycosylation was further evidenced by the reduction in number of glycoproteins “stained” with ¹²⁵I-labelled con A. A number of developmentally regulated high-molecular-weight glycoproteins, including the contact site A glycoprotein (gp80), were undetectable when cells were labelled with [³H]fucose in the presence of tunicamycin. It is therefore evident that glycoproteins with N-glycosidically linked carbohydrate moieties may play a crucial role in intercellular cohesiveness and early development of D. discoideum.