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Precision-Linked ProteomimeticsTM (PLPs) are customizable, synthetic, multivalent, protein-scale “proteomimetics” with the selectivity, potency and cell-permeability needed to engage intracellular targets.
allows customization for any target
confers cell permeability, solubility and potency (avidity)
with potent, cell-active molecules “out of the box”
PLPs are built from modular building blocks. The Target-Binding Peptide Domain can be identified through structural biology, antibody CDR domain or phage display technology and “plugged” into the building block. Pharmacologic properties can be optimized by modifying the Linker and Design Module, while preserving target-binding activity. These building blocks are joined together through precision polymerization of the backbone precursors to form a PLP. Synthesis is highly controlled and reproducible, yielding discrete, multivalent, protein-scale molecules that can be monofunctional or bifunctional.
PLPs are globular, yet flexible and undergo proximity-induced changes in conformation. Polar, hydrophilic groups are exposed in aqueous solution to promote solubility. Upon engagement with a cell membrane, the high-density, flexible peptide array enables polar surface masking, while the hydrophobic backbone favorably interacts with the lipophilic membrane.
The PLP platform technology transforms peptides into cell-active compounds with key pharmacologic properties. PLPs display cell permeability, potency and long half-life “out of the box”, bypassing some of the most challenging hurdles of traditional drug discovery workflows. In vitro validation of on-target and on-mechanism activity can be achieved in weeks to months.
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