posted on 2019-06-17, 00:00authored byWen-Long Huang, Xu-Dong Wang, Sen Li, Rui Zhang, Yu-Fei Ao, Jun Tang, Qi-Qiang Wang, De-Xian Wang
Anion transmembrane transport mediated
by novel noncovalent interactions
is of central interest in supramolecular chemistry. In this work,
a series of oxacalix[2]arene[2]triazine-derived transporters 1 and 2 bearing anion−π-, hydrogen-,
and halogen-bonding sites in rational proximity were designed and
synthesized by a one-pot strategy starting from gallic acid ester
derivatives and mono- or di-halogen-substituted triazines. 1H NMR titrations demonstrated efficient binding of 1 and 2 toward Cl– and Br– in solution, giving association constants in the range of 102–104 M–1. Cooperation
of anion−π, hydrogen, and halogen bonding was revealed
as a driving force for anion binding by single-crystal structures
of two complexes and density functional theory calculations. Fluorescence
assays indicated that compounds 1 are efficient chloride
transporters with effective concentrations (EC50) falling
in the range of 3.1–7.4 μM and following an order of 1a > 1b > 1c > 1d.
The contribution of halogen bonding and cooperative noncovalent bonds
to ion transport was then discussed. Significantly, transporters 1 exhibit high anticancer activity. In the presence of 1 and KCl (60 mM), the cell survival of HCT116 reduces to
11.9–24.9% with IC50 values in the range of 52.3–66.4
μM.