Affiliation:
1. From the Division of Hematology/Oncology, Department of Medicine, Columbia University Medical Center; the New York-Presbyterian Hospital, and the Herbert Irving Comprehensive Cancer Center, New York, NY.
Abstract
Because alpha-particles have a shorter range and a higher linear energy transfer (LET) compared with beta-particles, targeted alpha-particle immunotherapy offers the potential for more efficient tumor cell killing while sparing surrounding normal cells. To date, clinical studies of alpha-particle immunotherapy for acute myeloid leukemia (AML) have focused on the myeloid cell surface antigen CD33 as a target using the humanized monoclonal antibody lintuzumab. An initial phase I study demonstrated the safety, feasibility, and antileukemic effects of bismuth-213 (213Bi)-labeled lintuzumab. In a subsequent study, 213Bi-lintuzumab produced remissions in some patients with AML after partial cytoreduction with cytarabine, suggesting the utility of targeted alpha-particle therapy for small-volume disease. The widespread use of 213Bi, however, is limited by its short half-life. Therefore, a second-generation construct containing actinium-225 (225Ac), a radiometal that generates four alpha-particle emissions, was developed. A phase I trial demonstrated that 225Ac-lintuzumab is safe at doses of 3 μCi/kg or less and has antileukemic activity across all dose levels studied. Fractionated-dose 225Ac-lintuzumab in combination with low-dose cytarabine (LDAC) is now under investigation for the management of older patients with untreated AML in a multicenter trial. Preclinical studies using 213Bi- and astatine-211 (211At)-labeled anti-CD45 antibodies have shown that alpha-particle immunotherapy may be useful as part conditioning before hematopoietic cell transplantation. The use of novel pretargeting strategies may further improve target-to-normal organ dose ratios.
Publisher
American Society of Clinical Oncology (ASCO)
Cited by
60 articles.
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