G protein-coupled receptors (GPCRs) represent the largest family of surface receptors and are responsible for key physiological functions, including cell growth, neurotransmission, hormone release, and cell migration. The GPCR 56 (GPR56), encoded by ADGRG1, is an adhesion GPCR found on diverse cell types, including neural progenitor cells, melanoma cells, and lymphocytes, such as effector memory T cells, γδ T cells, and NK cells. Using RNA-sequencing and high-resolution flow cytometry, we found that GPR56 mRNA and protein expression increased with NK cell differentiation, reaching its peak in adaptive NK cells. Small interfering RNA silencing of GPR56 led to increased spontaneous and chemokine-induced migration, suggesting that GPR56 functions as an upstream checkpoint for migration of highly differentiated NK cells. Increased NK cell migration could also be induced by agonistic stimulation of GPR56 leading to rapid internalization and deactivation of the receptor. Mechanistically, GPR56 ligation and downregulation were associated with transcriptional coactivator with PDZ-binding motif translocation to the nucleus and increased actin polymerization. Together, these data provide insights into the role of GPR56 in the migratory behavior of human NK cell subsets and may open possibilities to improve NK cell infiltration into cancer tissues by releasing a migratory checkpoint.
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