Tandem Isotope Therapy with<sup>225</sup>Ac- and<sup>177</sup>Lu-PSMA-617 in a Murine Model of Prostate Cancer
Catherine Meyer, Andreea D. Stuparu, Katharina Lueckerath, Jérémie Calais, Johannes Czernin, Roger Slavik, Magnus Dahlbom
Abstract
Radionuclide therapy targeting prostate-specific membrane antigen (PSMA) is a promising option for metastatic castration-resistant prostate cancer. Clinical experience using <sup>177</sup>Lu or <sup>225</sup>Ac has demonstrated encouraging treatment responses; however, responses are not durable. Dual-isotope combinations, or “tandem” approaches, may improve tolerability while retaining a high tumor dose. In this study, we directly compared α- versus β-particle treatment, as well as a combination thereof, at different stages of disease in a murine model of disseminated prostate cancer. <b>Methods:</b> First, to determine comparable injected activities from <sup>177</sup>Lu- and <sup>225</sup>Ac-PSMA-617, ex vivo biodistribution studies were performed at 5 time points after treatment of C4-2 subcutaneous tumor–bearing NSG mice. To establish a more representative model of metastatic prostate cancer, NSG mice were inoculated with luciferase-expressing C4-2 cells in the left ventricle, leading to disseminated visceral and bone lesions. At either 3 or 5 wk after inoculation, the mice were treated with equivalent tumor dose–depositing activities of <sup>177</sup>Lu- or <sup>225</sup>Ac-PSMA-617 alone or in combination (35 MBq of <sup>177</sup>Lu, 40 kBq of <sup>225</sup>Ac, or 17 MBq of <sup>177</sup>Lu + 20 kBq <sup>225</sup>Ac; 10/group). Disease burden was assessed by weekly bioluminescence imaging. Treatment efficacy was evaluated using whole-body tumor burden and overall survival. <b>Results:</b> The ex vivo biodistribution studies revealed that 35 MBq of <sup>177</sup>Lu and 40 kBq of <sup>225</sup>Ac yield equivalent absorbed tumor doses in a subcutaneous C4-2 model. The disease burden of mice treated at 3 wk after inoculation (microscopic disease) with <sup>177</sup>Lu was not significantly different from that of untreated mice. However, <sup>225</sup>Ac-PSMA-617 both as a single agent and in combination with <sup>177</sup>Lu (17 MBq of <sup>177</sup>Lu + 20 kBq of <sup>225</sup>Ac) were associated with significant whole-body tumor growth retardation and survival benefit (overall survival, 8.3 wk for nontreatment, 9.4 wk for <sup>177</sup>Lu, 15.3 wk for <sup>225</sup>Ac alone, and 14.1 wk for tandem therapy). When treated at 5 wk after inoculation (macroscopic disease), all treatment groups showed retarded tumor growth and improved survival, with no significant differences between <sup>225</sup>Ac alone and administration of half the <sup>225</sup>Ac activity in tandem with <sup>177</sup>Lu (overall survival, 7.9 wk for nontreatment, 10.3 wk for <sup>177</sup>Lu, 14.6 wk for <sup>225</sup>Ac alone, and 13.2 wk for tandem therapy). <b>Conclusion:</b> Treatment of a disseminated model of prostate cancer with simultaneous <sup>225</sup>Ac- and <sup>177</sup>Lu-PSMA-617 results in significantly decreased tumor growth compared with <sup>177</sup>Lu, which was ineffective as a single agent against microscopic lesions. Mice treated later in the disease progression and bearing macroscopic, millimeter-sized lesions experienced significant tumor growth retardation and survival benefit in both monoisotopic and tandem regimens of <sup>177</sup>Lu and <sup>225</sup>Ac. Although the greatest benefits were observed with the single agent <sup>225</sup>Ac, the tandem arm experienced no significant difference in disease burden or survival benefit, suggesting that the reduced activity of <sup>225</sup>Ac was adequately compensated in the tandem arm. The superior therapeutic efficacy of <sup>225</sup>Ac in this model suggests a preference for α-emitters alone, or possibly in combination, in the microscopic disease setting.