Isolation of anti-Saprolegnia lignans from Magnolia officinalis and SAR evaluation of honokiol/magnolol analogs.

To control the fish fungal pathogen Saprolegnia, the effects of the petroleum ether extracts of Magnolia officinalis were evaluated by a rapeseed (Brassicanapus) microplate method in vitro. By loading on an open silica gel column and eluting with petroleum ether-ethyl acetate-methanol, honokiol (C18H18O2) and magnolol (C18H18O2) were isolated from Magnolia officinalis. Saprolegnia parasitica growth was inhibited significantly when honokiol concentration was >8.0 mg/L, and magnolol concentration was >9.0 mg/L, with EC50 values of 4.38 and 4.92 mg/L, respectively. Six honokiol and magnolol derivatives were designed, synthesized and evaluated for their anti-Saprolegnia activity. According to the results, double bond and hydroxyl played an important role in inhibiting Saprolegnia. Mechanistically, through the scanning electron microscope observation, honokiol and magnolol could cause the Saprolegnia parasitica mycelium tegumental damage including intensive wrinkles and nodular structures. Moreover, compared to traditional drugs kresoxim-methyl (LC50 = 0.66 mg/L) and azoxystrobin (LC50 = 2.71 mg/L), honokiol and magnolol showed a lower detrimental effect on zebrafish, with the LC50 values of 6.00 and 7.28 mg/L at 48 h, respectively. Overall, honokiol and magnolol were promising lead compounds for the development of commercial drugs anti-Saprolegnia.