Evaluation of Astatine-211-Labeled Fibroblast Activation Protein Inhibitor (FAPI): Comparison of Different Linkers with Polyethylene Glycol and Piperazine.

Fibroblast activation proteins (FAP) are overexpressed in the tumor stroma and have received attention as target molecules for radionuclide therapy. The FAP inhibitor (FAPI) is used as a probe to deliver nuclides to cancer tissues. In this study, we designed and synthesized four novel At-FAPI(s) possessing polyethylene glycol (PEG) linkers between the FAP-targeting and At-attaching moieties.

A Novel Prodrug of a γ-Glutamylcyclotransferase Inhibitor Suppresses Cancer Cell Proliferation in vitro and Inhibits Tumor Growth in a Xenograft Mouse Model of Prostate Cancer.

γ-Glutamylcyclotransferase (GGCT) depletion inhibits cancer cell proliferation. However, whether the enzymatic activity of GGCT is critical for the regulation of cancer cell growth remains unclear. In this study, a novel diester-type cell-permeable prodrug, pro-GA, was developed based on the structure of N-glutaryl-l-alanine (GA), by structure optimization using temporary fluorophore-tagged prodrug candidates.

Easy-to-Attach/Detach Solubilizing-Tag-Aided Chemical Synthesis of an Aggregative Capsid Protein.

A solubilizing Trt-K tag was developed for the effective chemical preparation of peptides/proteins with low solubility. The Trt-K tag comprises a hydrophilic oligo-Lys sequence and a trityl anchor, and can be selectively introduced to a side chain thiol of Cys of deprotected peptides/proteins with a trityl alcohol-type introducing reagent Trt(OH)-K under acidic conditions. Significantly, the ligation product in the reaction mixture of a thiol-additive-free native chemical ligation can be modified directly in a one-pot manner to facilitate the isolation of the product by high-performance liquid chromatography.

Imidazole-Aided Native Chemical Ligation: Imidazole as a One-Pot Desulfurization-Amenable Non-Thiol-Type Alternative to 4-Mercaptophenylacetic Acid.

Various bioactive proteins have been synthesized by native chemical ligation (NCL) and its combination with subsequent desulfurization (e.g., conversion from Cys to Ala).

N-Sulfanylethylaminooxybutyramide (SEAoxy): A Crypto-Thioester Compatible with Fmoc Solid-Phase Peptide Synthesis.

An N-sulfanylethylaminooxybutyramide (SEAoxy) has been developed as a novel thioester equivalent for native chemical ligation. SEAoxy peptide was straightforwardly synthesized by conventional Fmoc solid-phase peptide synthesis without a problem. Moreover, SEAoxy peptide could be directly applied to native chemical ligation owing to the intramolecular N-to-S acyl shift that releases the peptide-thioester in situ.

Combination of Thiol-Additive-Free Native Chemical Ligation/Desulfurization and Intentional Replacement of Alanine with Cysteine.

We report a novel strategy for native chemical ligation (NCL). Alanines not located at a ligation site are temporarily replaced with cysteines, and this enables efficient thiol-additive-free NCL, with subsequent desulfurization to regenerate the target peptide. We synthesized stresscopin-related peptide and neuroendocrine regulatory peptide-2 (NERP-2) by this method.

Ordered self-assembly of the collagenous domain of adiponectin with noncovalent interactions via glycosylated lysine residues.

Adiponectin, an anti-atherogenic and insulin-sensitizing adipokine, forms multiple isoforms including a trimer, a hexamer and heavier oligomers (mainly octadecamer) that determine their biological activities. We designed 89-residue peptides containing modifications found in the collagenous domain of native adiponectin. Circular dichroism and analytical ultracentrifugation measurements showed that the peptide bearing glucosyl-galactosyl-hydroxylysine residues forms a stable collagen-like triple helical structure and spontaneously assembled into an octadecamer.

Development of a sufficiently reactive thioalkylester involving the side-chain thiol of cysteine applicable for kinetically controlled ligation.

N(α) -Trifluoroacetyl-Cys-Leu-NH2 (TfaC-Leu-NH2 ) was incorporated into thioesters through its side-chain thiol group to develop a more reactive peptide-thioester than the commonly used peptide-3-mercaptopropionic acid (MPA)-thioester. The TfaC-thioester could be readily synthesized by solid-phase peptide synthesis (SPPS) with Boc chemistry using in situ neutralization protocols in sufficient yield without any side reaction associated with the use of TfaC. This thioester proved to display a much higher reactivity in the thiol-free native chemical ligation (NCL) reaction than the MPA-thioester and to be comparable to the thioarylester, such as the 4-mercaptophenylacetic acid (MPAA)-thioester, in terms of the ligation rate.

Regioselective formation of multiple disulfide bonds with the aid of postsynthetic S-tritylation.

Disulfide bond formation performed in solution with the tert-butylthio (StBu) group was accomplished using a free peptide having only the sulfhydryl groups of Cys protected with the aid of postsynthetic S-tritylation. This facilitated removal of the StBu group with subsequent disulfide formation without any difficulty. This strategy using the StBu group in combination with the widely used acetamidomethyl (Acm), 4-methylbenzyl/4-methoxybenzyl (Meb/Mob), and trityl (Trt) groups enables reliable and regioselective synthesis of multicystine peptides.

Synthesis of cysteine-rich peptides by native chemical ligation without use of exogenous thiols.

Native chemical ligation (NCL) performed without resorting to the use of thiol additives was demonstrated to be an efficient and effective procedure for synthesizing Cys-rich peptides. This method using tris(2-carboxyethyl)phosphine (TCEP) as a reducing agent facilitates the ligation reaction even at the Thr-Cys or Ile-Cys site and enables one-pot synthesis of Cys-rich peptides throughout NCL and oxidative folding.

Postsynthetic modification of unprotected peptides via S-tritylation reaction.

Tritylation using trityl alcohol (Trt-OH) in 1,1,1,3,3,3-hexafluoro-2-propanol (HFIP) is a convenient and efficient procedure that can offer S-protection of the Cys located in fully unprotected peptides. The procedure simply requires Trt-OH and HFIP to selectively promote S-tritylation in the presence of peptide nucleophilic functionalities.

A fluorogenic probe for γ-glutamyl cyclotransferase: application of an enzyme-triggered O-to-N acyl migration-type reaction.

Light it up: human chromosome 7 ORF 24, a tumor-related protein, has been identified as a γ-glutamyl cyclotransferase (GGCT) in the glutathione homeostasis cycle. The singular substrate preference of the enzyme has hampered chemical probe development, and no fluorogenic probe has been reported. Here we report the first fluorogenic dipeptide probe, LISA-4, which should contribute toward further understanding of GGCT.

Modification of a novel angiogenic peptide, AG30, for the development of novel therapeutic agents.

We previously identified a novel angiogenic peptide, AG30, with antibacterial effects that could serve as a foundation molecule for the design of wound-healing drugs. Toward clinical application, in this study we have developed a modified version of the AG30 peptide characterized by improved antibacterial and angiogenic action, thus establishing a lead compound for a feasibility study. Because AG30 has an α-helix structure with a number of hydrophobic and cationic amino acids, we designed a modified AG30 peptide by replacing several of the amino acids.

Versatile synthesis of head group functionalized phospholipids via oxime bond formation.

A method for introduction of various head groups on phospholipid frameworks via oxime bond formation has been developed for the synthesis of cyclen-Cu(II), pyrene, naphthalene, and other headgroup functionalized phospholipids that can cleave the membrane protein, hemagglutinin.