Lysosome membrane permeability: implications for drug delivery.

The membrane of the lysosome contains substrate-specific porters for a wide range of metabolites. Their physiological role is in promoting the efflux of the products of intralysosomal catabolism. With few exceptions, the specificity of these porters makes them unlikely candidates for the translocation of xenobiotics across the lysosome membrane. Where efflux from the lysosome is possible, it is likely to be accomplished by passive diffusion. Experimental studies on passive diffusion across the lysosome membrane have shown that its characteristics are similar to those of other biological membranes. Ease of permeation decreases with increasing hydrophilicity. Macromolecules and some highly hydrophilic molecules as small as sucrose are effectively non-permeant. The notional hydrogen-bonding capacity of molecules (an inverse correlate of oil:water partition coefficient) has been found a good predictor of permeance. Predictions of ease of permeation across lysosome membranes is of value when drug delivery strategies are contemplated that involve a drug-conjugate reaching the lysosome compartment and drug release there by the lysosomal enzymes. These strategies will be unsuccessful if the drug is unable to leave the lysosome and reach the cellular sites where its pharmacological action is required.