Design of a Soluble Multivalent Notch Agonist

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Abstract

Designed protein agonists can enhance the efficiency of endogenous signaling pathways, and provide a powerful means to control cellular functions and develop disease therapeutics. Designing a soluble cytokine-like agonist for Notch signaling, an evolutionarily conserved pathway that regulates cell fate in embryonic and adult development, is especially challenging because Notch receptor activation requires a mechanical force that is typically mediated by cell-associated transmembrane ligands at sites of cell-cell contact. Moreover, free soluble Notch ligand is signal inhibitory. Here, we exploit computationally designed protein oligomers with precise geometries and valencies to generate cytokine-like, ‘protein only,’ multivalent soluble Notch agonists. These tools promote cell-cell contact, cluster Notch proteins in synapses at the cell surface, and activate Notch signaling in reporter cell lines and cells expressing endogenous receptors. We demonstrate the utility of these soluble Notch agonists in T cell differentiation from cord blood (CB) and human induced pluripotent stem cells (iPSCs), and in bioreactor production of T cells in liquid suspension. Soluble multivalent Notch agonists can be applied broadly to in vitro cellular differentiation methods to generate clinical cell products and to develop immunotherapies.

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