The NMDA receptor has long attracted researchers' attention due to its potential as a drug target and its central role in the central nervous system. The NMDA receptor is a ligand-gated and voltage-dependent ion channel widely distributed in the central nervous system. In this study, we employed a drug design strategy combining "molecular assembly" and "combinatorial chemistry." By reducing the carbonyl group of germacrone to a hydroxyl group and esterifying it with alanine and linarinic acid, we successfully obtained nine novel germacrone derivatives through two rounds of structural optimization. We evaluated the neuroprotective activity of these nine derivatives using the MTT assay. The results revealed that compound C1 exhibited particularly outstanding activity, achieving a cell protection rate of 29.63 ± 1.56 % at a concentration of 0.05 μM, outperforming the positive control drug, ifenprodil. Further experiments on NMDA-induced Ca