Abstract
FAM19A5 (also called TAFA5) is a novel secretory protein that is primarily expressed in the brain. However, a recent study reported that FAM19A5 is an adipocyte-derived adipokine that regulates vascular smooth muscle function. Furthermore, genome-wide association study (GWAS) and RNA-seq analyses revealed that the FAM19A5 was associated with a variety of diseases and tumorigenesis in peripheral tissues. We investigated FAM19A5 transcript and protein levels in the peripheral tissues, including adipose tissues from wild-type, FAM19A5 knock-out, and LacZ knock-in mice. In general, total FAM19A5 transcript levels in the central and peripheral nervous systems were higher than levels in any of the peripheral tissues including adipose tissues. Brain tissues expressed similar levels of the FAM19A5 transcript isoforms 1 and 2, whereas expression in the peripheral tissues predominantly expressed isoform 2. In the peripheral tissues, but not the brain, FAM19A5 protein levels in adipose and reproductive tissues were below detectable limits for analysis by Western blot. Additionally, we found that FAM19A5 protein did not interact with the S1PR2 receptor for G-protein-mediated signal transduction, β-arrestin recruitment, and ligand-mediated internalization. Instead, FAM19A5 was internalized into HEK293 cells in an extracellular matrix protein-dependent manner. Taken together, the present study determined basal levels of FAM19A5 transcripts and proteins in peripheral tissues, which provides compelling evidence to further investigate the function of FAM19A5 in peripheral tissues under pathological conditions, including metabolic diseases and/or tumorigenesis.