Document Report Card
Basic Information
ID: ALA4118060
Journal: Eur J Med Chem
Title: A unique mid-sequence linker used to multimerize the lipid-phosphatidylserine (PS) binding peptide-peptoid hybrid PPS1.
Authors: Shukla SP, Manarang JC, Udugamasooriya DG.
Abstract: Ligand multimerizations enhance the binding affinity towards cell surface biomarkers through their avidity effects. Typical linkers connect individual monomeric ligand moieties from one end (e.g., C- or N-terminus of a peptide) and exclusively target protein receptors. The lipid phosphatidylserine (PS) is normally present on the cytoplasmic side of the eukaryotic cell membrane, but in tumors and tumor endothelial cells, this negatively charged PS flips to the outer layer. We recently reported a PS binding peptide-peptoid hybrid (PPS1) that has distinct positively charged and hydrophobic residue-containing regions. The PPS1 monomer is inactive, and upon C-terminal dimerization (PPS1D1), it triggers cytotoxicity. In the current study, a unique series of PPS1 multimeric derivatives were synthesized by switching the linker from the C-terminus to an internal position. The unimportant fourth residue (N-lys) from the C-terminus was utilized to build the linker. The synthesis strategy was developed employing variations of (I) the linker size, (II) the number of positively charged residues, and (III) the number of hydrophobic regions. Cytotoxicity of these new derivatives on HCC4017 lung cancer cells showed that a minimum of two hydrophobic regions was important to retain the activity and that the shortest linker length was optimal for activity.
CiteXplore: 28551176