Growth differentiation factor 15 (GDF15) is a divergent member of the transforming growth factor- superfamily and has been identified in different contexts as a hypoxia-inducible gene product and as a molecule involved in hepcidin regulation. The biology of iron and oxygen is closely related, and known regulatory pathways involving hypoxia-inducible factor (HIF) and iron-regulatory proteins (IRPs) are responsive to both these stimuli. We therefore sought to characterize the regulation of GDF15 by iron and oxygen and to define the involvement or otherwise of HIF and IRP pathways. Here we show that GDF15 is strongly up-regulated by stimuli that deplete cells of iron and that this response is specifically antagonized by the reprovision of iron. GDF15 exhibits greater sensitivity to iron depletion than hypoxia, and responses to hypoxia and iron depletion are independent of HIF and IRP activation, suggesting a novel mechanism of regulation. We also report significant induction of serum GDF15 in irondeficient subjects and after administration of an iron chelator to normal subjects. These findings indicate that GDF15 can be induced by pathophysiologic changes in iron availability, raising important questions about the mechanism of regulation and its role in iron homeostasis. (Blood.
2009;113:1555-1563)
IntroductionOriginally identified as factors important for regulating development, differentiation, and tissue repair, the transforming growth factor- (TGF-) superfamily of proteins comprises more than 40 members, broadly divided into 2 branches, defined by sequence homology and the signaling pathways that they activate. The first branch contains TGF-, activins, and the nodal family, and the second encompasses bone morphogenetic proteins (BMPs), growth and differentiation factors (GDFs), and Mullerian-inhibiting substance. 1 Despite sharing a 7-cysteine domain that results in a characteristic "cysteine knot," sequence identity between subfamilies is low, accounting for the diverse range of biologic functions. GDF15 is one of the most divergent members of the TFG- family, showing only 15% to 29% identity to other family members, suggesting a unique biologic role.GDF15 is also known as macrophage inhibitory cytokine 1 (MIC-1), 2 nonsteroidal anti-inflammatory drug-regulated protein 1, 3 prostate differentiation factor, 4 placental bone morphogenic protein, 5 and placental TGF-. 6 GDF15 exerts diverse biologic functions in distinct cellular contexts. It inhibits the late phase of macrophage activation, 2 inhibits proliferation of immature hematopoietic progenitors, 5 inhibits growth of assorted tumor cell lines, 6,7 and is involved in embryonic, osteogenic, and hematopoietic development. 4,8 The gene comprises 2 exons, and in common with other TGF- family members, GDF15 is synthesized as a 62-kDa intracellular proprotein that contains a conserved diarginine motif (RXXR), which, after cleavage by a furin-like protease, is secreted as a 25-kDa disulfide-linked dimeric protein. 2 Bioinformatic and functional promoter an...
