Journal:JBSD:38

Memory-Enhancement by Traditional Chinese Medicine?

I-Chi Hung, Su-sen Chang, Pei-Chun, Chang, Cheng-Chun Lee, Calvin Yu-Chian Chen ^[1]

Molecular Tour
Cognitive impairment is an emerging issue and increasing research points to the significant role of insulin-like growth factor I (IGF-I) in cognitive brain functions. IGF receptor (IGF-IR) activation is critical for IGF-I to elicit desirable cognitive functions (PDB ID: 3I81). Traditional Chinese medicine (TCM) ligands 3-(2-carboxyphenyl)-4(3H)-quinazolinone (orgin: Isatisin digotica) (see attached file Figure 1A), (+)-N-methyllaurotetanine (origin: Lindera aggregate) (see attached file Figure 1B), and (+)-1(R)-Coclaurine (origin: Nelumbonucifera Gaertn) (see attached file Figure 1C) showed high binding affinity towards IGF-IR at the binding site defined by the control in PDB ID: 3I81. Molecular dynamics simulation revealed that the TCM ligands were secured at the opening of the IGF-IR binding site for the duration of the MD. 3-(2-carboxyphenyl)-4(3H)-quinazolinone was stabilized by Asp1059 (global view: file top1_992top.pdb, top1_992top.png; local zoomed in view: top1_992topzoomin.pdb and top1_992topzoomin.png), (+)-N-methyllaurotetanine was stabilized by Leu975and Asp1056 (global view file: top2_770top.pdb, top2_770top.pdb.png; local zoomed in view: top2_770topzoomin.pdb, top2_770topzoomin.png), and (+)-1(R)-Coclaurine was stabilized by Leu975 and Gly1055 (global view file: top3_971top.pdb, top3_971top.png; local zoomed in file: top3_971topzoomin.pdb; top3_971topzoomin.png). Four different quantitative-structure activity relationship models consistently predicted bioactivity of the TCM ligands towards IGF-IR. In summary, the TCM candidates exhibit drug-like potential in both structural-based and ligand-based properties and may have potential for further applications in enhancing cognition.