Abstract
Monoclonal antibody therapy has offered treatment benefits. Nonetheless, a lack of efficacy still exists, partially because monovalent binding of antibodies to specific receptors fails to translate into an active response. Here, we report a pretargeting–postassembly approach that exploits the selective Watson–Crick base pairing properties of oligonucleotides and multivalently tethers receptor-prebound antibodies to albumin at the cell surface. We demonstrate that this two-step self-assembling strategy allows sequential actions of receptor binding and clustering that broadens and strengthens the functions of antibodies. We show that anti-CD20 obinutuzumab (OBN) modified with one morpholino oligonucleotide (OBN-MORF1) maintains the feature of naked OBN antibody upon CD20 binding, and results in actin redistribution, homotypic adhesion, and lysosome-mediated cell death. Consecutive treatment with albumin grafted with multiple copies of a complementary morpholino oligonucleotide (HSA-(MORF2)x) hybridizes with surface-attached OBN-MORF1, manipulates CD20 clustering, and engages additional signals to induce calcium influx and caspase-related apoptosis. With the two types of different mechanisms collaborating in one system, the simple design exerted a notable survival extension of mice bearing disseminated B-cell lymphomas.
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