C O M M U N I C A T I O N S
SPQ fluorescence, indicating increased anion permeability. To our
knowledge, compound 1 represents the smallest synthetic molecule
that can mediate Cl- ion transport efficiently in plasma membranes
of living cells.
In summary, small organic molecule 1 forms ion channels in
the lipid bilayers to mediate the passage of Cl- ions. It has the
potential to become a novel lead compound for the treatment of
human diseases associated with Cl- channel dysfunctions. We
believe that such systems will help design other transmembrane
channels and have a broad range of applications in chemistry,
biochemistry, biology, and materials science.
Figure 3. (a) Single-channel traces of the self-assembled channels with
two primary conductances recorded in lipid bilayers of liposomes composed
of EYPC and cholesterol with a 10:1 molar ratio at -60 mV. The currents
were recorded in symmetric 0.2 M NMDG-Cl in the presence of 10 nM
of 1. (b) Current-voltage relationships for the channels. The conductances
of the channels were 54 (2) and 108 pS (9), respectively. Currents are
means ( SEM; n g 10.
Acknowledgment. We thank Dr. Jun-ping Bai for suggestions
related to the preparation of giant liposomes. This work was
supported by The University of Hong Kong and Hong Kong
Research Grants Council (HKU 7367/03M and HKU 2/06C).
Supporting Information Available: Procedures for the preparation
of 1 and its characterization data; a list of the observed and calculated
binding profiles for NMR titrations; Job plots; SPQ assay in liposomes;
single-channel recording; and SPQ assay in MDCK cells. This material
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-
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exchange for NO3 efflux from the cells. As shown in Figure 4,
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