Synthesis and Optimization of 1-Substituted Imidazo[4,5- c ]quinoline TLR7 Agonists.

TLR7 agonists have significant therapeutic potential in a variety of oncology and autoimmune applications. We recently reported a potent TLR7 selective agonist 1 that could be delivered by antibody-drug conjugate (ADC) technology to elicit potent anticancer activity. Herein we report synthetic chemistry and structure-activity relationship studies to develop TLR7 agonists with improved potency for next-generation ADC efforts. We found that the addition of hydrophobic acyl tails to parent compound 1 generally resulted in retained or improved TLR7 agonist activity without sacrificing the permeability or the selectivity over TLR8. In contrast, the addition of a simple alkyl tail at the same position resulted in a dramatic loss in potency. Molecular modeling was performed to provide a rationale for this dramatic loss in potency. We ultimately identified compounds 17b , 16b , and 16d as highly potent TLR7 agonists that potently induced the activation of mouse macrophages and hPBMCs at low-nanomolar concentrations.