G protein-coupled receptor-targeted proteolysis-targeting chimeras in cancer therapeutics.

Abstract

G protein-coupled receptors (GPCRs) comprise a family of heptahelical membrane proteins that mediate intracellular and intercellular transmembrane signaling. Defects in GPCR signaling pathways are implicated in the pathophysiology of many diseases, including cardiovascular disease, endocrinopathies, immune disorders, and cancer. Although GPCRs are attractive drug targets, only a small number of Food and Drug Administration-approved anticancer therapeutics target GPCRs. Targeted protein degradation (TPD) technology allows for the direct modulation of the cellular expression level of a protein of interest. TPD methods such as proteolysis-targeting chimeras (PROTACs) use the ubiquitin-proteasome system to degrade a protein of interest selectively. Although the PROTAC system has not been widely applied to GPCRs and other membrane proteins, there is evidence that PROTACs or other TPD methods could be applied to the GPCRome. Current GPCR PROTACs show the feasibility of using PROTACs to degrade GPCRs; however, the degradation mechanism for some of these GPCR PROTACs is uncertain. Additional studies aimed at elucidating the degradation mechanism of GPCRs with PROTACs are necessary. Discovery of new allosteric intracellular small molecule binders of GPCRs will be required for the development of intracellularly oriented PROTACs. Promising early results in targeted degradation of GPCRs suggest that TPD drug discovery platforms will be useful in developing PROTACs targeting pathological GPCRs. SIGNIFICANCE STATEMENT: Aberrant signaling of G protein-coupled receptors (GPCRs) can contribute to the pathophysiology of cancer. Although GPCRs are generally highly attractive drug targets, many individual GPCRs are currently undrugged using traditional drug discovery approaches. Targeted protein degradation technologies, such as proteolysis-targeting chimeras, provide a new approach to drug discovery for targeting previously undruggable GPCRs relevant to the molecular pathophysiology of cancer.