Abstract
This study was designed to seek correlations between membrane alterations detected by transport studies and those measured by two biophysical techniques. A group of substituted dithiocarbanilates was found to alter selectively different membrane properties related to permeability and transport. We found a correlation between disruption of a membrane permeability barrier to accumulation of actinomycin D and an enhanced fluorogenic interaction between cells and a dansyl cadaverine probe. Inhibition of facilitated diffusion of nucleosides across the cell membrane was correlated with a more "hydrophobic" cell surface, detected by two-phase aqueous polymer partitioning studies in an "uncharged" system. Inhibition of active transport of a model amino acid, cycloleucine, was correlated with reduced cell-surface and membrane charge, detected by two-phase partitioning studies in a "charged" system. Dithiocarbanilates that caused inhibition of amino acid transport also quenched the fluorogenic cell interaction with dansyl cadaverine, suggesting a more generalized chaotropic drug effect. These findings suggest loci of membrane processes regulating permeability, and of barriers to substrate movement within the cell membrane.
- Copyright © 1978 by Academic Press, Inc.
MolPharm articles become freely available 12 months after publication, and remain freely available for 5 years.Non-open access articles that fall outside this five year window are available only to institutional subscribers and current ASPET members, or through the article purchase feature at the bottom of the page.
|