GDF1 is a novel mediator of macrophage infiltration in brown adipose tissue of obese mice

• GDF1 expression is downregulated in BAT of obese mice.
• GDF1 expression is decreased in brown adipocytes by oxidative and ER stress.
• GDF1 does not alter brown adipogenesis.
• GDF1 accelerates migration of macrophages through the BMP receptor.

We previously demonstrated a marked upregulation in the bone morphogenic protein (BMP)/growth differentiation factor (GDF) family member, GDF5, which is capable of promoting brown adipogenesis, in brown adipose tissue (BAT) of obese mice. In this study, we identified other GDF family members, besides GDF5 that are responsive to different obesogenic signals in BAT using inborn and acquired obesity animal models. In BAT from leptin-deficient ob/ob mice, GDF1 expression was preferentially downregulated, whereas the expression of several other genes in the BMP/GDF family, including GDF5, was upregulated. Moreover, in cultured brown adipocytes exposed to tunicamycin and hydrogen peroxide, at concentrations not affecting cellular viability, GDF1 expression was significantly downregulated. Recombinant GDF1 failed to significantly alter brown adipogenesis, despite the promoted phosphorylation of Smad1/5/8 in cultured brown adipocytes, but accelerated Smad1/5/8 phosphorylation with a concomitant increase in the number of migrating cells during exposure in a manner sensitive to activin-like kinase inhibitors in macrophagic RAW264.7 cells. Similarly, accelerated migration was observed in murine peritoneal macrophages exposed to GDF1. These results indicate that obesity could lead to predominant downregulation of GDF1 expression in BAT, which can modulate cellular migration through a mechanism relevant to activation of the downstream Smad signaling pathway in adjacent macrophages.