Levine AJ et al. (2009), GDF3 is a BMP inhibitor that can activate Nodal...

XB-ART-39202

Dev Biol 2009 Jan 01;3251:43-8. doi: 10.1016/j.ydbio.2008.09.006.

Show Gene links Show Anatomy links

GDF3 is a BMP inhibitor that can activate Nodal signaling only at very high doses.

Levine AJ , Levine ZJ , Brivanlou AH .

???displayArticle.abstract???
Within the TGF-beta superfamily, there are approximately forty ligands divided into two major branches: the TGF-beta/Activin/Nodal ligands and the BMP/GDF ligands. We studied the ligand GDF3 and found that it inhibits signaling by its co-family members, the BMPs; however, GDF3 has been described by others to have Nodal-like activity. Here, we show that GDF3 can activate Nodal signaling, but only at very high doses and only upon mRNA over-expression. In contrast, GDF3 inhibits BMP signaling upon over-expression of GDF3 mRNA, as recombinant protein, and regardless of its dose. We therefore further characterized the mechanism through which GDF3 protein acts as a specific BMP inhibitor and found that the BMP inhibitory activity of GDF3 resides redundantly in the unprocessed, predominant form and in the mature form of the protein. These results confirm and extend the activity that we described for GDF3 and illuminate the experimental basis for the different observations of others. We suggest that GDF3 is either a bi-functional TGF-beta ligand, or, more likely, that it is a BMP inhibitor that can artificially activate Nodal signaling under non-physiological conditions.

???displayArticle.pubmedLink??? 18823971
???displayArticle.pmcLink??? PMC3740937
???displayArticle.link??? Dev Biol
???displayArticle.grants??? [+]

Species referenced: Xenopus
Genes referenced: babam2 bmp4 gdf3 gdf5 msx1 nodal nodal1 nog odc1 sox2 tgfb1

???attribute.lit??? ???displayArticles.show???

	Fig. 1. Dose effects of GDF3 ORF and ORF plus untranslated regions (UTRs). Embryos were injected with increasing doses (1 pg, 10 pg, 100 pg, 1000 pg) of GDF3 RNA for the open reading frame (ORF) or the coding region plus UTRs (ORF + UTRs). (A) Top panel: western blot with goat anti-GDF3 of embryos injected with increasing doses of GDF3 constructs. Other panels: RT-PCR showing the effect of GDF3 constructs on cell fate. In lanes 1 and 2, whole embryo mRNA is shown with (1) and without (2) reverse-transcription is shown as controls for each marker gene. Lane 3 shows uninjected animal caps that express Msx1 (epidermis). Increasing doses of GDF3 induce Sox2 (neural tissue) and high doses of GDF3 ORF + UTRs induce BU (mesoderm). ODC is shown as a loading control. (B) Whole embryo (stage 17) or animal caps isolated at stage 9 and cultured until sibling stage 17. Caps were uninjected (−), injected with noggin RNA (200 pg) or injected with increasing doses of GDF3 ORF or ORF + UTRs. Morphology of caps injected with 10, 100, 1000 pg of each GDF3 construct are shown. (C) Luciferase assay using an Activin-responsive element (ARE-Lux) or a BMP-responsive element (BRE-Lux) driving luciferase reporters. For the BRE-Lux experiments, embryos were injected with BRE alone or with BRE and 100 pg of BMP4 RNA to activate the reporter. Increasing doses (1 pg, 10 pg, 100 pg, 1000 pg) of GDF3 ORF or ORF + UTRs were injected with each reporter.
	Fig. 2. Direct effects of GDF3 over-expression in frog embryos. GDF3 was injected with and without α-amanitin, which blocks protein translation. Embryos were harvested at stage 9 and analyzed for activation of BMP and Nodal signaling (Psmad1 and Psmad2, respectively). Stage 6 embryos are shown as a negative control for TGF-β activation, tubulin is shown as a loading control.
	Fig. 3. Recombinant human GDF3 protein (rhGDF3) inhibits BMP activity in animal caps. Animal caps were isolated from stage 9 embryos and were cultured intact or were disassociated. The intact caps were treated with increasing doses of rhGDF3 or with recombinant mouse Nodal (rmNodal) to test for BU (mesoderm) induction. Disassociated caps express Sox2 (neural tissue) but treatment with BMP4 alone induces Msx1 (epidermis). Increasing doses of rhGDF3 protein antagonize BMP4 protein to revert the cells to a neural state. ODC is shown as a loading control. No RT is a control for genomic DNA.
	Fig. 4. The prepro form and domain of GDF3 can inhibit BMP signaling. Luciferase assay using a BMP-responsive element (BRE) driving expression of a luciferase reporter (BRE-Lux). Embryos were injected with BMP4 RNA (100 pg/embryo) alone or with 1 ng of GDF3 constructs for wild-type GDF3 (Wt), a cleavage mutant of GDF3 (CM), or the prepro domain of GDF3 (prepro). Reporter alone is shown as a baseline control.

References [+] :

Andersson, Distinct and cooperative roles of mammalian Vg1 homologs GDF1 and GDF3 during early embryonic development. 2007, Pubmed, Xenbase