333366-30-6Relevant academic research and scientific papers
Unconventional Secondary Structure Mimics: Ladder-Rungs
Arancillo, Maritess,Burgess, Kevin,Lin, Chen-Ming,Whisenant, Jonathan
supporting information, p. 9398 - 9402 (2020/05/05)
Secondary structures tend to be recognizable because they have repeating structural motifs, but mimicry of these does not have to follow such well-defined patterns. Bioinformatics studies to match side-chain orientations of a novel hydantoin triazole chemotype (1) to protein-protein interfaces revealed it tends to align well across parallel and antiparallel sheets, like rungs on a ladder. One set of these overlays was observed for the protein-protein interaction uPA?uPAR. Consequently, chemotype 1 was made with appropriate side-chains to mimic uPA at this interface. Biophysical assays indicate these compounds did in fact bind uPAR, and elicit cellular responses that affected invasion, migration, and wound healing.
Applying small molecule microarrays and resulting affinity probe cocktails for proteome profiling of mammalian cell lysates
Shi, Haibin,Uttamchandani, Mahesh,Yao, Shao Q.
supporting information; experimental part, p. 2803 - 2815 (2012/07/14)
Small molecule microarrays (SMMs) are proving to be increasingly important tools for assessing protein-ligand interactions, as well as in screening for enzyme substrates and inhibitors, in a high-throughput manner. We previously described an SMM-facilitated screening strategy for the rapid identification of probes against γ-secretase, an aspartic protease. In this article, we extend upon this work with an expanded library of hydroxyethylamine-derived inhibitors which non-exclusively target aspartic proteases. Our library is diversified across P2, P1, P1 ′, and P2′ positions. Accordingly, 86 new inhibitors are synthesized using a combinatorial, solid-phase synthetic approach, bringing the total library size to 284-biotinylated compounds, which were arrayed onto avidin slides. In order to elucidate enzymatic activity and profiles within complex biological samples, screening is performed using fluorescently-labeled mammalian cell lysates. This yielded reproducible profiles or binding fingerprints that correspond with interactions from aspartic proteases or accessory proteins as well as other interacting targets that were present in the sample. The brightest microarray hits were converted to affinity-based probes (AfBPs) using convenient, 1-step "click" chemistry with benzophenone from the relevant building blocks. Pull-down/mass spectrometric analysis with these probes (individuals or cocktail) yielded putative protein targets that include well-known aspartic proteases, such as cathepsinD which is a clear marker for breast cancer cell lines, T47D. Many other hits were also identified, which may be secondary or tertiary interactors of aspartic proteases, or yet unreported off-targets of the hydroxyethylamine pharmacophore. Our work herein thus provides a candidate list of biomarkers for further investigations. Taken together, this SMM-facilitated strategy for the discovery of new AfBPs should provide a useful tool for high-throughput development of novel small molecule probes and the identification of new aspartic proteases as well as related biomarkers in the future.
On-resin cyclization of peptide ligands of the Vascular Endothelial Growth Factor Receptor 1 by copper(I)-catalyzed 1,3-dipolar azide-alkyne cycloaddition
Goncalves, Victor,Gautier, Benoit,Regazzetti, Anne,Coric, Pascale,Bouaziz, Serge,Garbay, Christiane,Vidal, Michel,Inguimbert, Nicolas
, p. 5590 - 5594 (2008/03/13)
Cyclic peptides were obtained, on-resin, by the copper (I) catalysed 1,3-dipolar cycloaddition of azides and alkynes. The reaction led exclusively to the formation of the expected cyclomonomeric products which acted as ligands of the Vascular Endothelial Growth Factor receptor 1.
Solid-phase Staudinger ligation from a novel core-shell-type resin: A tool for facile condensation of small peptide fragments
Kim, Hanyoung,Cho, Jin Ku,Aimoto, Saburo,Lee, Yoon-Sik
, p. 1149 - 1151 (2007/10/03)
Solid-phase Staudinger ligation of small peptides was performed on a novel core-shell-type resin. Solid-phase Staudinger ligation was mediated by synthetic solid-supported phosphinothiol, which was readily prepared by a straightforward synthetic route. This protocol afforded final peptide products in excellent yields and purities and thus could provide the opportunity to facilitate a simple manipulation for condensation of peptide fragments. In particular, the resulting resin could be recycled in a successful manner.
Improved solid-phase peptide synthesis method utilizing alpha-azide-protected amino acids.
Lundquist 4th.,Pelletier
, p. 781 - 783 (2007/10/03)
[structure: see text]. Pure alpha-azido acids were prepared using an efficient diazo transfer method followed by buffered workup. These building blocks were used to prepare small peptides on Wang resin by two approaches. Peptides prone to diketopiperazine formation were prepared in good yields by coupling acids to resin bound iminophosphoranes during Fmoc-Wang synthesis. The iminophosphoranes can also be hydrolyzed under neutral conditions to provide unprotected amines ready for further coupling.
