Lu-Anti-CD25 Antibody for Interleukin-2 Receptor-α-Targeted Radioimmunotherapy of SUDHL1 Lymphomas in Mice.

in Molecular pharmaceutics by Choong Mo Kang, Jung Lim Kim, Hye Jin Jung, Kyung-Ho Jung, Mina Kim, Giro Kim, Hyunjong Lee, Kyung-Han Lee

TLDR

  • The researchers developed a novel radiolabeled antibody targeting CD25-positive lymphomas, showing effective targeting, suppression, and prolonged survival in xenograft mice.
  • The treatment demonstrated minimal toxicity and could be a promising radioimmunotherapy option for CD25-positive lymphoma patients.

Abstract

Antibodies (Abs) conjugated with particle-emitting radioisotopes are used for cancer therapy, and the CD25 receptor (IL-2Rα) is a promising target for lymphomas. We functionalized an anti-CD25 Ab with TCO-PEG-maleimide, specifically on sulfhydryl moieties, at 1.89 molecules per Ab. Radiosynthesis was achieved by efficiently prelabeling DOTA-PEG-tetrazine withLu at a high temperature and then linking it to the TCO-conjugated Abs via facile click chemistry under mild conditions. The [Lu]Lu-DOTA-PEG-Tz-TCO-PEG-anti-CD25 Ab (Lu-CD25 Ab) had a radiochemical purity of >99%, a specific activity of 707.9 ± 271.5 MBq/mg, an immunoreactive fraction of 77.6%, and high radiolabel stability in serum for up to 7 days. CD25-positive SUDHL1 human T lymphoma cells showedLu-CD25 Ab uptake that was completely blocked by pretreatment with unlabeled Ab. TheLu-CD25 Ab dose-dependently suppressed SUDHL1 cell survival. In mice,Lu-CD25 Ab uptake at 5 days was high in the SUDHL1 tumors (7.1 ± 1.6%ID/g), modest in the liver, kidneys, and spleen, and low in the blood, lungs, and bones. CD25-specific targeting was confirmed by 66.7% suppression of tumor uptake by pretreatment with unlabeled CD25 Ab. Treatment with 18.5 MBq ofLu-CD25 Ab shrank the xenograft tumors, and they remained undetectable until study termination on day 61. In contrast, the tumors in all control and CD25 Ab-treated mice grew to exceed the end point criterion of 2,000 mm. The standardized tumor growth rate and 19-day tumor volume were completely suppressed in theLu-CD25 Ab group (109.9 ± 73.5 and 132.6 ± 111.5 mm), compared with the control (1053.9 ± 151.1 and 1804.5 ± 283.1 mm) and CD25 Ab groups (1049.7 ± 212.2 and 1443.8 ± 839.4 mm; all< 0.001). A Kaplan-Meier survival analysis showed thatLu-CD25 Ab-treated mice survived significantly longer than mice in the control and CD25 Ab groups. Tumors in a separate set of mice that were treated withLu-CD25 Ab displayed increased PARP1 cleavage fragments, a signature of apoptosis. Toxicity studies showed that white blood cell, red blood cell, and platelet counts in theLu-CD25 Ab group decreased from days 3-14, reaching a nadir on days 17-21 and returning to the normal range by days 24-31. Liver and renal function tests on day 28 did not differ from those of untreated mice. Thus, theLu-CD25 Ab prepared as described here could be useful for radioimmunotherapy of CD25-positive lymphomas.

Overview

  • The study aimed to develop a novel radiolabeled antibody (Lu-CD25 Ab) targeting the CD25 receptor (IL-2Rα) for lymphoma therapy.
  • The Lu-CD25 Ab was conjugated with a particle-emitting radioisotope (Lu) and a tetrazine (Tz) moiety, allowing for specific targeting and radiolabeling.
  • The research aimed to evaluate the efficacy and safety of the Lu-CD25 Ab in treating human T lymphoma xenografts in mice.

Comparative Analysis & Findings

  • In vitro studies showed that Lu-CD25 Ab uptake was specific and dose-dependent in CD25-positive SUDHL1 human T lymphoma cells, which was blocked by pretreatment with unlabeled Ab.
  • In vivo studies demonstrated that Lu-CD25 Ab effectively targeted and suppressed xenograft tumors in mice, with a high tumor-to-blood ratio and minimal toxicity.
  • The Lu-CD25 Ab treatment resulted in significant improvement in overall survival, complete remission, and prolonged tumor-free survival compared to control and CD25 Ab-treated mice.

Implications and Future Directions

  • The study demonstrates the potential of Lu-CD25 Ab as a radioimmunotherapy agent for CD25-positive lymphomas, offering a promising treatment option for these aggressive diseases.
  • Future studies should explore the efficacy and safety of Lu-CD25 Ab in larger animal models, as well as in patients with lymphoma, to further evaluate its therapeutic potential.
  • Optimization of the radiochemical synthesis and purification processes could improve the clinical scalability and cost-effectiveness of the Lu-CD25 Ab.
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