Mihai Ciobanu scite author profile

With the recent clinical success of bispecific antibodies, a strategy to rapidly synthesize and evaluate bispecific or higher order multispecific molecules could facilitate the discovery of new therapeutic agents. Here we show that unnatural amino acids (UAAs) with orthogonal chemical reactivity can be used to generate site-specific antibody-oligonucleotide conjugates. These constructs can then be self-assembled into multimeric complexes with defined composition, valency and geometry. Using this approach, we generated potent bispecific antibodies that recruit cytotoxic T lymphocytes to Her2 and CD20 positive cancer cells, as well as multimeric antibody fragments with enhanced activity. This strategy should accelerate the synthesis and in vitro characterization of antibody constructs with unique specificities and molecular architectures.

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DNA display of fragment pairs as a tool for the discovery of novel biologically active small molecules

Daguer

Zambaldo

Ciobanu

et al. 2015

Chem. Sci.

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DNA-templated combinatorial assembly of small molecule fragments amenable to selection/amplification cycles

et al. 2011

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The discovery of small molecule probes which selectively modulate biological pathways is a cornerstone in the development of new therapeutics. Progress in our ability to access libraries of biologically relevant small molecules in conjunction with streamlined screening technologies have also enabled a more systematic approach to chemical biology. Nevertheless, the current state of the art still requires a large infrastructure and only a small fraction of the proteome has been addressed thus far. The emergence of technologies based on nucleic acid encoding of small molecules presents a new screening paradigm. We describe a method based on DNA-templated combinatorial display of PNA-encoded drug fragments affording 62500 combinations which can be amplified following a selection. This concept was demonstrated with a screen against a representative target, carbonic anhydrase, by iterative cycles of affinity selection, amplification of DNA template and “translation” back into selected library members. The results show a clear convergence towards combinations which, upon resynthesis as covalent adducts, proved to bind cooperatively to carbonic anhydrase

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Mihai Ciobanu

Self-Assembled Antibody Multimers through Peptide Nucleic Acid Conjugation

DNA display of fragment pairs as a tool for the discovery of novel biologically active small molecules

DNA-templated combinatorial assembly of small molecule fragments amenable to selection/amplification cycles

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