Modification of sialic acid metabolism of murine erythroleukemia cells by analogs of N-acetylmannosamine

Two analogs of N-acetylmannosamine, $\text{2-}\text{acetamido}\text{-1,3,4,6-}\text{tetra}\text{-O-}\text{acetyl}\text{-2-}\text{deoxy-}\text{d}\text{-mannopyranose}$ (Ac₄-NAcMan) and the 2-trifluoroacetamido derivative (Ac₄F₃-NAcMan), were synthesized as potential inhibitors of the formation of sialic acid-containing glycoconjugates and were examined for their ability to modify the incorporation of $\text{N-[}{}^3\text{H]acetylmannosamine}$ into cellular glycoconjugates of Friend murine erythroleukemia cells. Ac₄F₃-NAcMan and Ac₄-NAcMan inhibited cellular replication in suspension culture at concentrations of 0.02 and 0.08 mM, respectively. The cytotoxicity of Ac₄-NAcMan was relatively reversible, whereas that produced by Ac₄F₃-NAcMan was not, as judged by measurement of the cloning efficiencies of cells exposed to these agents. The analogs inhibited incorporation of $\text{N-[}{}^3\text{H]acetylmannosamine}$ into ethanol-soluble and -insoluble materials. Separation of ethanol-soluble metabolites by HPLC demonstrated that Ac₄F₃-NAcMan caused accumulation of radioactivity from $\text{N-[}{}^3\text{H]acetylmannosamine}$ in CMP-N-acetylneuraminic acid (CMP-NeuNAc) equal to the decrease in macromolecular-bound ³H caused by this agent. In contrast, similar exposure to Ac₄-NAcMan produced a large increase in the amount of radioactivity in ethanol-soluble N-acetylneuraminic acid while decreasing the amount of label from $\text{N-[}{}^3\text{H]acetylmannosamine}$ in cellular CMP-NeuNAc, suggesting that the analogs differ in their biochemical sites of action. Treatment of cells with either analog increased the amount of neuraminidase-hydrolyzable sialic acid-like material on the cell surface; this appeared to be due to the incorporation of the analogs into cellular glycoconjugates, since incubation of cells with ³H-labeled analogs resulted in the appearance of radioactivity in cellular ethanol-insoluble and neuraminidase-hydrolyzable material. Incubation of cells with Ac₄-NAcMan labeled with ¹⁴C in the 4-O-acetyl group further demonstrated that incorporation occurred with approx. 50% retention of this substituent. Thus, both the amount and the nature of the surface sialic acid constituents of treated cells were altered, suggesting that these or similar analogs could potentially be used to modify cellular membrane function.