Multivalent 4-1BB binding aptamers costimulate CD8+ T cells and inhibit tumor growth in mice
James O. McNamara II, Despina Kolonias, Fernando Pastor, Robert S. Mittler, Lieping Chen, Paloma H. Giangrande, Bruce Sullenger, Eli Gilboa
James O. McNamara II, Despina Kolonias, Fernando Pastor, Robert S. Mittler, Lieping Chen, Paloma H. Giangrande, Bruce Sullenger, Eli Gilboa
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Research Article Technical Advance Oncology

Multivalent 4-1BB binding aptamers costimulate CD8+ T cells and inhibit tumor growth in mice

Abstract

4-1BB is a major costimulatory receptor that promotes the survival and expansion of activated T cells. Administration of agonistic anti–4-1BB Abs has been previously shown to enhance tumor immunity in mice. Abs are cell-based products posing significant cost, manufacturing, and regulatory challenges. Aptamers are oligonucleotide-based ligands that exhibit specificity and avidity comparable to, or exceeding, that of Abs. To date, various aptamers have been shown to inhibit the function of their cognate target. Here, we have described the development of an aptamer that binds 4-1BB expressed on the surface of activated mouse T cells and shown that multivalent configurations of the aptamer costimulated T cell activation in vitro and mediated tumor rejection in mice. Because aptamers can be chemically synthesized, manufacturing and the regulatory approval process should be substantially simpler and less costly than for Abs. Agonistic aptamers could therefore represent a superior alternative to Abs for the therapeutic manipulation of the immune system.

Authors

James O. McNamara II, Despina Kolonias, Fernando Pastor, Robert S. Mittler, Lieping Chen, Paloma H. Giangrande, Bruce Sullenger, Eli Gilboa

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Figure 3

Structure of bivalent aptamers.

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Structure of bivalent aptamers. Aptamer dimers were generated by adding ...
Aptamer dimers were generated by adding short complementary sequences to the 3′ end of the M12-23 or mutM12-23 aptamers (denoted –A and –B) and annealing each pair. (A) Sequence and computer-predicted secondary structure of M12-23 and mutM12-23 dimers. Arrows show the nucleotide changes introduced into the M12-23 dimer sequence to generate mutM12-23 dimer. (B) Polyacrylamide gel analysis of aptamer monomers and annealing reactions. M12-23–A, M12-23–B, mutM12-23–A, or mutM12-23–B were subjected alone (2 μM each), or with 2 μM of their corresponding partners, to the annealing protocol as described in Methods. Annealing reactions were run on a nondenaturing 10% polyacrylamide gel and visualized with ethidium bromide staining.