225Ac-MACROPATATE: A Novel a-Particle Peptide Receptor Radionuclide Therapy for Neuroendocrine Tumors

Abstract

Neuroendocrine tumors (NETs) express somatostatin receptors (SSTRs) 2 and 5. Modified variants of somatostatin, the cognate ligand for SSTR2 and SSTR5, are used in treatment for metastatic and locoregional disease. Peptide receptor radionuclide therapy with 177Lu-DOTATATE (DOTA-octreotate), a b-particle–emitting somatostatin derivative, has demonstrated survival benefit in patients with SSTR-positive NETs. Despite excellent results, a subset of patients has tumors that are resistant to treatment, and alternative agents are needed. Targeted a-particle therapy has been shown to kill tumors that are resistant to targeted b-particle therapy, suggesting that targeted a-particle therapy may offer a promising treatment option for patients with 177Lu-DOTATATE–resistant disease. Although DOTATATE can chelate the clinically relevant a-particle–emitting radionuclide 225Ac, the labeling reaction requires high temperatures, and the resulting radioconjugate has suboptimal stability. Methods: We designed and synthesized MACROPATATE (MACROPA-octreotate), a novel radioconjugate capable of chelating 225Ac at room temperature, and assessed its in vitro and in vivo performance. Results: MACROPATATE demonstrated comparable affinity to DOTATATE (dissociation constant, 21 nM) in U2-OS-SSTR2, a SSTR2-positive transfected cell line. 225Ac-MACROPATATE demonstrated superior serum stability at 37°C over time compared with 225Ac-DOTATATE. Biodistribution studies demonstrated higher tumor uptake of 225Ac-MACROPATATE than of 225Ac-DOTATATE in mice engrafted with subcutaneous H69 NETs. Therapy studies showed that 225Ac-MACROPATATE exhibits significant antitumor and survival benefit compared with saline control in mice engrafted with SSTR-positive tumors. However, the increased accumulation of 225Ac-MACROPA-TATE in liver and kidneys and subsequent toxicity to these organs decreased its therapeutic index compared with 225Ac-DOTATATE. Conclusion: 225Ac-MACROPATATE and 225Ac-DOTATATE exhibit favorable therapeutic efficacy in animal models. Because of elevated liver and kidney accumulation and lower administered activity for dose-limiting toxicity of 225Ac-MACROPATATE, 225Ac-DOTATATE was deemed the superior agent for targeted a-particle peptide receptor radionuclide therapy.