Tuning Insulin Receptor Signaling UsingDe NovoDesigned Agonists

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Abstract

Summary Binding of insulin to the insulin receptor (IR) induces conformational changes in the extracellular portion of the receptor that lead to activation of the intracellular kinase domain and the AKT and MAPK pathways, and downstream modulation of glucose metabolism and cell proliferation. We reasoned that designed agonists that induce different conformational changes in the receptor might induce different downstream responses, which could be useful both therapeutically and to shed light on how extracellular conformation is coupled to intracellular signaling. We used de novo protein design to first generate binders to individual IR extracellular domains, and then to fuse these together in different orientations and with different conformational flexibility. We describe a series of synthetic agonists that signal through the IR that differ from insulin and from each other in the induction of receptor autophosphorylation, MAPK activation, intracellular trafficking, and cell proliferation. We identify designs that are more potent than insulin causing much longer lasting reductions in glucose levels, and that retain signaling activity on disease-causing receptor mutants that do not respond to insulin. These results inform our understanding of how changes in receptor conformation and dynamics are transmitted to downstream signaling, and our synthetic agonists have considerable therapeutic potential for diabetes and severe insulin resistance syndromes. Highlights Computational design yielded super agonists, partial agonists, and antagonists of IR. De novo agonists induce a distinct IR active conformation. Design: ed agonists tune IR signaling by modulating conformational dynamics of activated IR. Design: ed agonists are more potent than insulin, reducing glucose levels longer and activating disease-causing IR mutants.

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last seen: 2026-05-20T01:45:00.602351+00:00