Examination of aminophenol-containing compounds designed as antiproliferative agents and potential atypical retinoids.

Retinoic acid (RA, 1), an oxidized form of vitamin A, binds to retinoic acid receptors (RAR) and retinoid X receptors (RXR) to regulate gene expression and has important functions such as cell proliferation and differentiation. Synthetic ligands regarding RAR and RXR have been devised for the treatment of various diseases, particularly promyelocytic leukemia, but their side effects have led to the development of new, less toxic therapeutic agents. Fenretinide (4-HPR, 2), an aminophenol derivative of RA, exhibits potent antiproliferative activity without binding to RAR/RXR, but its clinical trial was discontinued due to side effects of impaired dark adaptation.

Design and synthesis of a new orthogonally protected glutamic acid analog and its use in the preparation of high affinity polo-like kinase 1 polo-box domain - binding peptide macrocycles.

Targeting protein - protein interactions (PPIs) has emerged as an important area of discovery for anticancer therapeutic development. In the case of phospho-dependent PPIs, such as the polo-like kinase 1 (Plk1) polo-box domain (PBD), a phosphorylated protein residue can provide high-affinity recognition and binding to target protein hot spots. Developing antagonists of the Plk1 PBD can be particularly challenging if one relies solely on interactions within and proximal to the phospho-binding pocket.

Diversity-Oriented A-Macrocyclization for Studying Influences of Ring-Size and Shape of Cyclic Peptides: CD36 Receptor Modulators.

Cyclic peptide diversity has been broadened by elaborating the A-macrocyclization to include various di-amino carboxylate components with different -amine substituents. Triple-bond reduction provided new cyclic peptide macrocycles with -olefin and completely saturated structures. Moreover, cyclic azasulfurylpeptides were prepared by exchanging the propargylglycine (Pra) component for an amino sulfamide surrogate.

Cyst Reduction in a Polycystic Kidney Disease Model Using Smac Mimics.

Autosomal dominant polycystic kidney disease (ADPKD) is an inherited malady affecting 12.5 million people worldwide. Therapeutic options to treat PKD are limited, due in part to lack of precise knowledge of underlying pathological mechanisms.

Solid-Phase Azopeptide Diels-Alder Chemistry for Aza-pipecolyl Residue Synthesis To Study Peptide Conformation.

Solid-phase chemistry for the synthesis and Diels-Alder reaction of Fmoc-protected azopeptides has been developed and used to construct aza-pipecolyl (azaPip) peptides. Considering their ability to induce electronic and structural constraints that favor cis-amide isomer geometry and type VI β-turn conformation in model peptides, azaPip residues have now been introduced into biologically relevant targets by this enabling synthetic method. Turn conformers were shown to be important for receptor affinity, selectivity, and activity by employing azaPip residues to study the conformational requirements of opioid and cluster of differentiation 36 receptor peptide ligands.

Azasulfurylpeptide Modulation of CD36-Mediated Inflammation Without Effect on Neovascularization.

Modulation of the cluster of differentiation-36 receptor (CD36) has proven promising for dampening pro-inflammatory macrophage signaling. For example, azapeptides (e.g.

Azapeptide Synthesis Methods for Expanding Side-Chain Diversity for Biomedical Applications.

Mimicry of bioactive conformations is critical for peptide-based medicinal chemistry because such peptidomimetics may augment stability, enhance affinity, and increase specificity. Azapeptides are peptidomimetics in which the α-carbon(s) of one or more amino acid residues are substituted by nitrogen. The resulting semicarbazide analogues have been shown to reinforce β-turn conformation through the combination of lone pair-lone pair repulsion of the adjacent hydrazine nitrogen and urea planarity.

Application of constrained aza-valine analogs for Smac mimicry.

Constrained azapeptides were designed based on the Ala-Val-Pro-Ile sequence from the second mitochondria-derived activator of caspases (Smac) protein and tested for ability to induce apoptosis in cancer cells. Diels-Alder cyclizations and Alder-ene reactions on azopeptides enabled construction of a set of constrained aza-valine dipeptide building blocks, that were introduced into mimics using effective coupling conditions to acylate bulky semicarbazide residues. Evaluation of azapeptides 7-11 in MCF-7 breast cancer cells indicated aza-cyclohexanylglycyine analog 11 induced cell death more efficiently than the parent tetrapeptide likely by a caspase-9 mediated apoptotic pathway.

Azopeptides: Synthesis and Pericyclic Chemistry.

Azopeptides possess an imino urea as an amino amide surrogate in the sequence. Azopeptides were synthesized by oxidation of aza-glycine residues and employed in pericyclic chemistry. Diels-Alder cyclizations and Alder-ene reactions on azopeptides enabled construction of constrained aza-pipecolyl and reactive aza-allylglycyl residues.