101214-43-1Relevant articles and documents
Synthesis and biological evaluation of RGD peptidomimetic-paclitaxel conjugates bearing lysosomally cleavable linkers
Dal Corso, Alberto,Caruso, Michele,Belvisi, Laura,Arosio, Daniela,Piarulli, Umberto,Albanese, Clara,Gasparri, Fabio,Marsiglio, Aurelio,Sola, Francesco,Troiani, Sonia,Valsasina, Barbara,Pignataro, Luca,Donati, Daniele,Gennari, Cesare
, p. 6921 - 6929 (2015)
Two small-molecule-drug conjugates (SMDCs, 6 and 7) featuring lysosomally cleavable linkers (namely the Val-Ala and Phe-Lys peptide sequences) were synthesized by conjugation of the αvβ3-integrin ligand cyclo[DKP-RGD]-CH2NH2 (2) to the anticancer drug paclitaxel (PTX). A third cyclo[DKP-RGD]-PTX conjugate with a nonpeptide "uncleavable" linker (8) was also synthesized to be tested as a negative control. These three SMDCs were able to inhibit biotinylated vitronectin binding to the purified αVβ3-integrin receptor at nanomolar concentrations and showed good stability at pH 7.4 and pH 5.5. Cleavage of the two peptide linkers was observed in the presence of lysosomal enzymes, whereas conjugate 8, which possesses a nonpeptide "uncleavable" linker, remained intact under these conditions. The antiproliferative activities of the conjugates were evaluated against two isogenic cell lines expressing the integrin receptor at different levels: the acute lymphoblastic leukemia cell line CCRF-CEM (αVβ3-) and its subclone CCRF-CEM αVβ3 (αVβ3+). Fairly effective integrin targeting was displayed by the cyclo[DKP-RGD]-Val-Ala-PTX conjugate (6), which was found to differentially inhibit proliferation in antigen-positive CCRF-CEM αVβ3 versus antigen-negative isogenic CCRF-CEM cells. The total lack of activity displayed by the "uncleavable" cyclo[DKP-RGD]-PTX conjugate (8) clearly demonstrates the importance of the peptide linker for achieving the selective release of the cytotoxic payload.
Efficient and facile formation of two-component nanoparticles via aromatic moiety directed self-assembly
Wang, Weiping,Chau, Ying
, p. 10224 - 10226 (2011)
Here we present a two-component self-assembling system employing the interaction of aromatic groups (Fmoc) to construct nanoparticles. Spherical particles of around 70 nm were formed spontaneously by a simple trigonal Fmoc-conjugate, which were then stabi
Thioether macrocycles of the microbisporicins via reductive desulfurization
Kutty, Samuel K.,Lutz, Joshua A.,Felder, Simon,Hahn, Philip,Taylor, Carol M.
, p. 4247 - 4258 (2018)
The microbisporicins are the most potent lantibiotics isolated to-date. Cyclic tetra-, hexa- and octapeptides, inspired by this family of antimicrobial agents, have been synthesized from linear peptides. Generalized reaction conditions are reported for th
Ynamide-Mediated Thiopeptide Synthesis
Yang, Jinhua,Wang, Changliu,Xu, Silin,Zhao, Junfeng
supporting information, p. 1382 - 1386 (2019/01/08)
Exploration of the full potential of thioamide substitution as a tool in the chemical biology of peptides and proteins has been hampered by insufficient synthetic strategies for the site-specific introduction of a thioamide bond into a peptide backbone. A novel ynamide-mediated two-step strategy for thiopeptide bond formation with readily available monothiocarboxylic acids as thioacyl donors is described. The α-thioacyloxyenamide intermediates formed from the ynamides and monothiocarboxylic acids can be purified, characterized, and stored. The balance between their activity and stability enables them to act as effective thioacylating reagents to afford thiopeptide bonds under mild reaction conditions. Amino acid functional groups such as OH, CONH2, and indole NH groups need not be protected during thiopeptide synthesis. The modular nature of this strategy enables the site-specific incorporation of a thioamide bond into peptide backbones in both solution and the solid phase.