Discovery of a novel ^sup 18^F prosthetic group that enables radiolabeling of anti-human PD-L1 Adnectins

Discovery of a novel ^sup 18^F prosthetic group that enables radiolabeling of anti-human PD-L1 Adnectins

Objectives: Recently, there has been a resurgence in the application of protein based scaffolds to create novel molecular imaging agents for numerous oncology targets. These scaffolds offer the affinity and specificity needed to maximize signal to background ratios needed to visualize a molecular ta...

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Veröffentlicht in:The Journal of nuclear medicine (1978) 2017-05, Vol.58, p.68
Hauptverfasser: Donnelly, David, Smith, R Adam, Cohen, Daniel, Lafont, Virginie, Cole, Erin, Hayes, Wendy, Kim, Joonyoung, Cao, Kai, Bonacorsi, Samuel, Lipovsek, Dasa, Wright, Martin
Format: Artikel
Sprache:eng
Schlagworte:
Affinity
Alkynes
Buffers (chemistry)
Chemical synthesis
Chemistry
Conjugation
Copper
Disulfide bonds
Fibronectin
Fluorides
Fluorine
Fluorine isotopes
Group dynamics
Heterogeneity
Image contrast
Medical imaging
Molecules
Nuclear medicine
Oncology
Organic chemistry
PD-L1 protein
Positron emission
Prostheses
Prosthetic groups
Protein structure
Proteins
Purity
Radioactivity
Radiochemistry
Radioisotopes
Radiolabelling
Scaffolds
Stability
Tomography
Tumors
Volatilization
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Zusammenfassung:Objectives: Recently, there has been a resurgence in the application of protein based scaffolds to create novel molecular imaging agents for numerous oncology targets. These scaffolds offer the affinity and specificity needed to maximize signal to background ratios needed to visualize a molecular target within the tumor microenvironment. Adnectins are a family of proteins that are derived from the 10th type III domain of human fibronectin (10Fn3), which structurally resemble antibody variable domains, with two sets of antiparallel beta sheets with solvent accessible loops at each pole. These loops can be engineered to provide nano- to picomolar binding affinity to a wide variety of targets. Adnectins have several advantages as targeting domains for molecular imaging agents such as: smaller size ( ~10kDa), which allows for good image contrast with rapid delivery to targeted tissues and fast glomerular clearance of unbound probe to drive image contrast; high stability; and absence of cysteine or disulfide bonds, which allows for site specific engineering to enable conjugation of PET radionuclides. Although many prosthetic groups have been developed for peptide labeling with F-18, these agents are not amenable for labeling protein or protein like molecules in aqueous media. Accordingly, there is still a continuing need to develop prosthetic groups that can effectively radiolabel these scaffolds. The aim of this study focuses on the development of a novel prosthetic group [18F](3-(2-(2-(2-(2-azidoethoxy)ethoxy)ethoxy)ethoxy)-2-fluoropyridine to efficiently radiolabel protein based scaffolds such as Adnectins in high yields, specific activities and short reaction times. Methods: The proposed synthetic pathway starts with the preparation of 3-(2-(2-(2-(2-azidoethoxy)ethoxy)ethoxy)ethoxy)-2-nitropyridine to form its corresponding [18F]containing azide moiety. Once labeled with 18F, this prosthetic group was conjugated to a protein based scaffold using copper free "click" chemistry. This was accomplished using a modified Adnectin that contained a ring constrained (DBCO) alkyne. [18F](3-(2-(2-(2-(2-azidoethoxy)ethoxy)ethoxy)ethoxy)-2-fluoropyridine ([18F]FPPEGA) was isolated in an ethanoic solution, evaporated to dryness and reconstituted in phosphate buffered saline (PBS). Stability and volatilization studies were conducted with this derivative. Results: [18F]FPPEGA was generated in high radiochemical yield (>70% non-decay corrected yield, n= 40), in >90% radioche
ISSN:0161-5505
1535-5667