Abstract
Immunosuppressive myeloid cells are important in a variety of physiological and pathological contexts, including tumor development, but how hormones might regulate their activity is unclear. Secretogranins, a family of secretory proteins in endocrine and neuronal cells, are proposed to function as prohormones or hormones, but their specific receptors are unknown. Here we show that secretogranin 2 (SCG2), a granin family member, functionally interacts with leukocyte immunoglobulin-like receptor B4 (LILRB4) on monocytic cells. Tumor-derived SCG2 promotes tumor growth in myeloid-specific LILRB4 transgenic mice in a T cell-dependent manner, whereas SCG2 deficiency in host mice impairs tumor progression and reduces infiltration of immunosuppressive monocytic cells. Blockade of LILRB4 abrogates SCG2-induced signaling, immunosuppression and tumor growth. Mechanistically, this SCG2-LILRB4 interaction triggers SHP recruitment and SHP-independent STAT3 activation. These findings define a function for SCG2 in regulating monocytic immunosuppression and suggest that the SCG2-LILRB4 axis might be a therapeutic target.