[177Lu]Bz-DTPA-EGF : Preclinical characterization of a potential radionuclide targeting agent against glioma

• Patients with glioblastoma multiforme have a poor prognosis due to recurrences originating from spread cells. The use of radionuclide targeting might increase the chance of inactivating single tumor cells with minimal damage to surrounding healthy tissue. As a target, overexpressed epidermal growth factor receptors (EGFR) may be used. A natural ligand to EGFR, the epidermal growth factor (EGF) is an attractive targeting agent due to its low molecular weight (6 kDa) and high affinity for EGFR. 177Lu (T(1/2) = 6.7 days) is a radionuclide well suited for treatment of small tumor cell clusters, since it emits relatively low-energy beta particles. The goal of this study was to prepare and preclinically evaluate both in vitro and in vivo the [177Lu]Bz-DTPA-EGF conjugate. The conjugate was characterized in vitro for its cell-binding properties, and in vivo for its pharmacokinetics and ability to target EGFR. [177Lu]Bz-DTPA-EGF bound to cultured U343 glioblastoma cells with an affinity of 1.9 nM. Interaction with EGFR led to rapid internalization, and more than 70% of the cell-associated radioactivity was internalized after 30 minutes of incubation. The retention of radioactivity was good, with more than 65% of the 177Lu still cell-associated after 2 days. Biodistribution studies of i.v. injected [177Lu]Bz-DTPA-EGF in NMRI mice demonstrated a rapid blood clearance. Most of the radioactivity was found in the liver and kidneys. The liver uptake was receptor-mediated, since it could be significantly reduced by preinjection of unlabeled EGF. In conclusion, [177Lu]Bz-DTPA-EGF seems to be a promising candidate for locoregional treatment of glioblastoma due to its high binding affinity, low molecular weight, and ability to target EGFR in vivo.

Nyckelord

Animals

Cell Line; Tumor

Chelating Agents/chemistry/pharmacokinetics

Drug Evaluation; Preclinical

Epidermal Growth Factor/chemistry/pharmacokinetics/*therapeutic use

Glioblastoma/*radiotherapy

Humans

Lutetium/chemistry/pharmacokinetics/*therapeutic use

Mice

Mice; Inbred Strains

Pentetic Acid/chemistry/pharmacokinetics

Protein Binding

Radioisotopes/chemistry/pharmacokinetics/*therapeutic use

Radiopharmaceuticals/chemical synthesis/chemistry/pharmacokinetics/*therapeutic use

Research Support; Non-U.S. Gov't

Sensitivity and Specificity

Tissue Distribution

MEDICINE

MEDICIN

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