RT Journal Article
SR Electronic
T1 Biodistribution, Pharmacokinetics, and Dosimetry of 177Lu-, 90Y-, and 111In-Labeled Somatostatin Receptor Antagonist OPS201 in Comparison to the Agonist 177Lu-DOTATATE: The Mass Effect
JF Journal of Nuclear Medicine
JO J Nucl Med
FD Society of Nuclear Medicine
SP 1435
OP 1441
DO 10.2967/jnumed.117.191684
VO 58
IS 9
A1 Guillaume P. Nicolas
A1 Rosalba Mansi
A1 Lisa McDougall
A1 Jens Kaufmann
A1 Hakim Bouterfa
A1 Damian Wild
A1 Melpomeni Fani
YR 2017
UL http://jnm.snmjournals.org/content/58/9/1435.abstract
AB Radiolabeled somatostatin receptor (SSTR) antagonists have shown in vivo higher uptake in SSTR-expressing tumors than agonists. In this preclinical study, the SSTR2 antagonist OPS201 (DOTA-JR11; DOTA-[Cpa-c(DCys-Aph(Hor)-DAph(Cbm)-Lys-Thr-Cys)-DTyr-NH2]) labeled with 177Lu, 90Y, and 111In was compared with the SSTR2 agonist 177Lu-DOTATATE. Methods: Biodistribution, pharmacokinetics, SPECT/CT, and dosimetry studies were performed to assess the bioequivalence of all radiotracers. Use of escalated peptide mass and nephroprotective agents were systematically investigated. Results: The tumor residence time was 15.6 h (13.4–17.7) for 177Lu-OPS201 (10 pmol) and 6.4 h (5.4–7.3) for 177Lu-DOTATATE, resulting in a 2.5-times-higher tumor dose for the antagonist than for the agonist (0.854 vs. 0.333 mGy/MBq for a 4-cm tumor). The overall tumor–to–kidney dose ratio was approximately 24% and 32% higher for 177Lu-OPS201 than for 90Y-OPS201 and 177Lu-DOTATATE, respectively. 111In-OPS201 had a biodistribution significantly different from 90Y-OPS201 and is therefore not a surrogate for 90Y-OPS201 dosimetry studies. Importantly, and in contrast to 177Lu-DOTATATE, injection of 10, 200, and 2,000 pmol of 177Lu-OPS201 did not cause any relevant tumor saturation, with tumor uptake 4 h after injection: 23.9, 24.9, and 18.8 percentage of injected activity per gram of tissue (%IA/g), respectively, for the antagonist (P > 0.05), as compared with 17.8, 12.0, and 9.9 %IA/g for the agonist (P < 0.05). Increasing the peptide mass of 177Lu-OPS201 from 10 to 200 pmol drastically decreased the effective dose from 0.0908 to 0.0184 mSv/MBq and decreased the uptake in the liver, bone marrow, and all SSTR2-expressing organs; thus, the therapeutic index improved considerably. Lysine and succinylated gelatine, alone or in combination, significantly reduced the renal dose of 177Lu-OPS201 compared with the control group, by 45%, 25%, and 40%, respectively (P < 0.05). The reduction was similar for 10 and 200 pmol, whereas lysine performed better than succinylated gelatine. Conclusion: 177Lu-OPS201 exhibits higher tumor uptake, longer tumor residence time, and improved tumor–to–kidney dose ratio compared with 177Lu-DOTATATE and 90Y-OPS201. Importantly, the mass-escalation study indicates that an optimized antagonist mass might further improve the safety window of peptide receptor radionuclide therapy by reducing the liver and bone marrow doses as well as the effective dose. Clinical studies are warranted to confirm the efficacy and advantageous toxicity profile of 177Lu-OPS201.