Macrocyclic peptides are considered large enough to inhibit"undruggable" targets, but the design of passively cell-permeable molecules in this space remains a challenge due to the poorly understood role of molecular size on passive membrane permeability. Using split-pool combinatorial synthesis, we constructed a library of cyclic, per-Nmethlyated peptides spanning a wide range of calculated lipohilicities (0 < AlogP < 8) and molecular weights (similar to 800 Da < MW < similar to 4200 Da). Analysis by the parallel artificial membrane permeability assay revealed a steep drop-off in apparent passive permeability with increasing size),in stark disagreement with current permeation models. This observation, corroborated by a set of natural products, helps define criteria for achieving permeability in larger molecular size regimes and suggests an operational cutoff, beyond which passive permeability is constrained by a sharply increasing penalty on membrane permeation.

• 出版日期2017-3-9