Structural and Functional Characterization of SOSTDC1
Melissa M Gouge, Gregory Gipson, Chandramohan Kattamuri, Thomas B. Thompson

TL;DR
This paper studies SOSTDC1, a protein that can both inhibit BMPs and modulate Wnt signaling, revealing its unique dimer structure and how it interacts with LRP6.
Contribution
The study reveals a new dimerization motif in SOSTDC1 and explains its dual role in BMP and Wnt signaling.
Findings
SOSTDC1 forms a stable dimer with a unique interface compared to other DAN family members.
SOSTDC1 inhibits Wnt1 signaling but promotes Wnt3a signaling through LRP6.
The NXI motif in SOSTDC1 is solvent-exposed, allowing interaction with LRP6.
Abstract
The differential screening-selected gene in neuroblastoma (DAN) family of antagonists are secreted extracellular proteins which preferentially bind to and inhibit BMP ligands. SOSTDC1 (Sclerostin domain containing protein 1) is a divergent member of the DAN family which has previously been shown to perform dual roles as a BMP inhibitor and a Wnt modulator. With the current understanding of SOSTDC1, it is challenging to determine the effect of SOSTDC1 activity within the BMP-Wnt signaling gradients, which are commonly seen in development, gut homeostasis, and female reproduction. SOST, the closest homologue of SOSTDC1, is a monomeric inhibitor of WNT signaling, binding to LRP6 β-propeller domain 1 through a conserved motif (NXI) but does not inhibit BMPs. Our lab has previously shown that unlike SOST, SOSTDC1 exists as a stable non-disulfide linked dimer, which binds to and inhibits…
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Taxonomy
TopicsProtein Tyrosine Phosphatases
