Abstract
Fatty acid-binding proteins (FABPs) represent a superfamily of intracellular lipid chaperones essential for the transport of lipids and homeostatic lipid metabolism. Although well-known for their role in systemic metabolic diseases, emerging evidence has identified brain-expressed FABPs as core players in neurodegeneration. This review focuses on brain-expressed FABPs, synthesizing recent advancements that link their role in metabolic dysregulation to neurotoxicity. We present a system that integrates these proteins within a multi-tiered complex pathobiological system that involves: an advanced glial "meta-inflammation" paradigm; a novel view on proteotoxicity via liquid-liquid phase separation (LLPS); changes in the gut-brain axis; and an involvement in the regulation of ferroptosis. Additionally, we also discuss the emerging pharmacological pipeline, highlighting notable preclinical ligands and drawing important lessons from systemic disease first-in-class-targeted FABPs. These first-in-class therapies have successfully validated this target family in systemic diseases. Finally, we explore future therapeutic strategies, where we emphasize the challenges and the precision cell-type-specific delivery approaches to harness the full therapeutic potential of these pivotal proteins.