Radiolabelled peptides with high specificity and affinity towards receptors that are overexpressed by tumour cells are used in nuclear medicine for the diagnosis (imaging) and therapy of cancer. In some cases, the sequences of peptides under investigations contain methionine (Met), an amino acid prone to oxidation during radiolabelling procedures. The formation of oxidative side products can affect the purity of the final radiopharmaceutical product and/or impair its specificity and affinity towards the corresponding receptor. The replacement of Met with oxidation resistant amino acid analogues, for example, norleucine (Nle), can provide a solution. While this approach has been applied successfully to different radiolabelled peptides, a MetNle switch only preserves the length of the amino acid side chain important for hydrophobic interactions but not its hydrogen-bonding properties. We report here the use of methoxinine (Mox), a non-canonical amino acid that resembles more closely the electronic properties of Met in comparison to Nle. Specifically, we replaced Met(15) by Mox(15) and Nle(15) in the binding sequence of a radiometal-labelled human gastrin derivative [D-Glu(10)]HG(10-17), named MG11 (D-Glu-Ala-Tyr-Gly-Trp-Met-Asp-Phe-NH2). A comparison of the physicochemical properties of Lu-177-DOTA[X-15]MG11 (X=Met, Nle, Mox) in vitro (cell internalization/externalization properties, receptor affinity (IC50), blood plasma stability and logD) showed that Mox indeed represents a suitable, oxidation-stable amino acid substitute of Met in radiolabelled peptide conjugates.

• 出版日期2017-1