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Abstract HuM195, a humanized anti-CD33 antibody, targets myeloid leukemia cells and has modest activity alone against AML. To increase the antibody’s potency and allow single cell killing, but avoid the nonspecific cytotoxicity associated with β-emitting isotopes, the α-emitter bismuth-213 (213Bi) was initially conjugated to HuM195. In phase I and II trials, 213Bi-HuM195 was capable of inducing remissions in AML after partial cytoreduction with cytarabine. Therapeutic applications of 213Bi, however, are limited by its 46-minute half-life. The isotope generator, 225Ac, a radiometal which yields 4 α-emitting isotopes and has a 10-day half life, can be conjugated to a variety of antibodies using the bifunctional chelate DOTA-SCN. 225Ac-containing immunoconjugates can kill in vitro at radioactivity doses 1000 times lower than 213Bi analogs and prolong survival of animals in several xenograft models (McDevitt et al. Science 2001). We are conducting a first-in-man phase I dose escalation trial to determine the safety, pharmacology, and biological activity of such an in vivo isotope generator using 225Ac-HuM195. Seven patients (median age, 61 years; range, 46–77) with relapsed (n=3) or refractory (n=4) AML were treated to date. Three had poor-risk cytogenetics. Patients received a single infusion of 225Ac-HuM195 at doses of 0.5 (n=3), 1 (n=3), or 2 μCi/kg (n=1). Total administered activities of 225Ac ranged from 23–170 μCi, and HuM195 doses ranged from 1–1.9 mg. No acute toxicities were seen. One of 2 patients evaluable for neutropenia developed an ANC 33% of BM blasts in 4 patients at 4 weeks following treatment. One patient had 3% bone marrow blasts after therapy. This is the first study to show that targeted therapy with an in vivo α-particle generator is feasible in humans. 225Ac-HuM195 appears safe and has antileukemic activity. Accrual to this trial continues.
Rosenblat et al. (Fri,) studied this question.