RESUMO
AIM: Oligomannurarate 971 derived from a marine plant has shown neuroprotective effects. In this study we synthesized a series of truncated derivatives of the oligosaccharide, and investigated the effect of these derivatives against Aß peptide toxicity in vitro. METHODS: The sulfoxide method was applied to synthesize the derivatives. SH-SY5Y human neuroblastoma cells were treated with Aß1-40 (2 µmol/L), and the cell viability was detected using a CCK8 assay. RESULTS: A series of ß-(1,4)-D-mannosyl oligosaccharide, ranging from the disaccharide to the hexasaccharide, were synthesized. Addition of 10 µmol/L ß-(1,4)-D-mannobiose 6, ß-(1,4)-D-mannotriose 9 or ß-(1,4)-D-mannotetraose 12 in SH-SY5Y cells significantly attenuated Aß1-40-induced toxicity. The efficacies were similar to those caused by 10 µmol/L oligomannurarate 971 or alzhemed. Other oligosaccharides including oligomaltoses and oligocelluloses were less active. CONCLUSION: Synthetic homogeneous short chain ß-(1,4)-D-mannans shows neuroprotective effect against Aß peptide toxicity similar to that of heterogeneous oligomannurarate 971 and alzhemed.