Targeting CRABP1 Signalosomes in Managing Neurodegeneration

Retinoic acid (RA) binds RA (RAR) and Retinoid X (RXR) receptors to elicit biological effects by regulating transcription. RA is also known to have non-canonical activities mediated, primarily, by cellular retinoic acid-binding protein 1 (CRABP1) which forms protein complexes named “CRABP1 signalosomes” to regulate cytosolic signaling independent of RARs/RXRs. This review focuses on therapeutic applications in neurodegeneration by targeting CRABP1 signalosomes including CRABP1–MAPK, CRABP1–CaMKII, CRABP1–eIF2α, and others recently identified from our proteomic studies. The mouse Crabp1 gene is regulated by various epigenetic factors and is important for the health of multiple cell types including motor neurons (MNs). In humans, CRABP1 gene expression is reduced in ALS- and SMA-patient MNs. RA is a therapeutic agent for leukemias and dermatological disorders and is being investigated for managing neurodegenerative diseases, but its therapeutic effects are accompanied by RAR-mediated toxic effects. We have uncovered a novel class of synthetic retinoids that bind CRABP1 without acting on RARs, circumventing RAR-mediated toxic effects. These first-generation CRABP1-selective compounds C3, C4, and C32 target CRABP1–MAPK and/or CRABP1–CaMKII signalosomes. This knowledge, together with emerging structural information, sheds lights on the strategies in designing next-generation CRABP1-signalosome-selective retinoids for the management of neurodegenerative diseases.