Small molecule protein binding to correct cellular folding or stabilize the native state against misfolding and aggregation

Protein misfolding diseases are caused by the difficulty of a protein to attain or stably maintain its native three-dimensional structure. In 2011, the first small molecule that specifically binds to the folded state of a protein was approved by a regulatory agency to treat a protein misfolding disease (tafamidis, transthyretin amyloidosis). Subsequently, folded state binders for three additional pathologies were approved. All of these molecules bind specifically to and stabilize the native state of a misfolding-prone protein and either correct cellular folding or stabilize the native state against misfolding and aggregation. We will use these four case studies to explain how protein folding coupled to small molecule binding is a promising approach to treat a variety of human maladies. •Stabilization of folded proteins is an effective strategy against their misfolding.•Native protein stabilizers have been approved by EMA/FDA against misfolding diseases.•Four protein misfolding diseases are currently treated with native state stabilizers.