Antiadhesive activity of the phtalide Sedanenolide from Apium graveolens fruits (Celery) against uropathogenic E. coli

 

Celery fruits (Apium graveolens L.) are used traditionally for treatment of uncomplicated urinary tract infections. The experiments aimed to identify potential antiadhesive compounds from celery extract to provide strategies for improved standardization of the herbal material. Decoction, hydroalcoholic and acetone extracts were prepared from celery fruits. Bioassay-guided fractionation was performed by Fast Centrifugal Partition Chromatography and preparative HPLC, followed by LC-MS and NMR investigations. The antiadhesive activity of extracts, fractions and purified compounds was assessed by flow cytometry, evaluating the adhesion of fluorescent-labelled uropathogenic bacteria (UPEC NU14) to T24 bladder cells; mannose served as positive control. Influence of the extract on gene expression of selected adhesins and fitness genes was monitored by qPCR. Concentration-dependent antiadhesive activity was found for the hydroalcoholic and even more for the acetone extract AE (IC₅₀ 85 μg/mL). Bioassay-guided fractionation revealed the presence of the phthalides senkyunolide (inactive) and sedanenolide (IC₅₀ 790 μM), which is assessed as the main antiadhesive compound, and accounts for 4.0% in the water extract, for 18% in the hydroethanolic extract and for 71% in AE. Additionally, a similar phthalide, Z-ligustilide, was shown to exert an IC₅₀ of 611 μM. Furthermore, AE caused a significant upregulation of fimH and sfaG in free floating, non-attached UPEC and significantly down-regulated these genes in adherent bacteria. Summarizing, phthalides were identified as the main active compounds in polar and semi-polar extracts, which exert strong antiadhesive activity against UPEC and support the traditional use in phytotherapy.