We have evaluated ionic liquids based
on double-chained 1-alkyl-3-octylimidazolium
cations ([C
n
C8IM]+, n = 2, 4, 6, 8, 10, 12) for their cytotoxicity
toward various cell lines. The toxicity of ionic liquids was correlated
to their ability to partition into and permeabilize phosphocholine
(POPC)- or phosphoglycerol (POPG)-based large unilamellar vesicles.
Membrane partitioning of ionic liquids was assessed using the ζ-potential
measurements, and membrane permeability was determined using fluorescence-based
dye leakage assays. Both cytotoxicity and membrane permeability of
these ILs were found to increase in a sigmoidal fashion with increasing
chain length on the N1 atom (n in [C
n
C8IM]+) cations. These results
were compared with those for ionic liquids based on single-chained
1-alkyl-3-methylimidazolium cations ([C
n+8C1IM]+), carrying a similar number of carbon
atoms but as a single alkyl chain. Our studies show that ionic liquids
containing double-chained cations are relatively less cytotoxic and
membrane-permeabilizing than the cations bearing a single long alkyl
chain.
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