Effects of the intermolecular toxin-monoclonal antibody linkage on the in vivo stability, immunogenicity and anti-leukemic activity of B43 (anti-CD19) pokeweed antiviral protein immunotoxin.

We have successfully constructed highly potent and selective anti-CD19 PAP immunotoxins using each of the three crosslinking agents, SPDP, LC-SPDP, or SMPT, to generate an intermolecular bridge between the B43 MoAb and PAP toxin moieties. These immunotoxins were selectively immunoreactive with and cytotoxic against CD19+ B-lineage ALL cells. In this report, we compared (a) in vivo chemical, immunological, and biological stability, (b) in vivo immunogenicity, and (c) in vivo anti-leukemic activity of various B43-PAP immunotoxin constructs. Our data recommend the use of SPDP and SMPT rather than LC-SPDP for generation of B43(anti-CD19)-PAP immunotoxins as clinical anti-leukemic agents. To our knowledge, this is the first comparative analysis of the in vivo pharmacokinetic features, immunogenicity, and anti-leukemic activity of anti-CD19 PAP immunotoxins that were prepared with different heterobifunctional crosslinking agents.