Molecular mechanism of Activin receptor inhibition by DLK1
Daniel Antfolk, Qianqian Ming, Anna Manturova, Erich J. Goebel, Thomas B. Thompson, Vincent C. Luca

TL;DR
This study reveals that DLK1 inhibits Activin signaling by binding to ACVR2B, not by affecting Notch signaling as previously thought.
Contribution
The paper identifies DLK1 as a direct inhibitor of Activin receptor signaling through structural and functional analysis.
Findings
DLK1 binds to ACVR2B and mimics TGF-β ligands to block Activin signaling.
DLK1 promotes myoblast differentiation by antagonizing Myostatin-ACVR2B signaling.
DLK1 inhibits SMAD2/3-NICD colocalization, disrupting Notch and TGF-β crosstalk.
Abstract
Delta-like non-canonical Notch ligand 1 (DLK1) influences myogenesis, adipogenesis, and other aspects of human development through a process that is largely attributed to the downregulation of Notch signaling. Here, we show that DLK1 does not bind to Notch receptors or affect ligand-mediated Notch activation, but instead engages the TGF-β superfamily member Activin receptor type 2B (ACVR2B). The crystal structure of the DLK1-ACVR2B complex reveals that DLK1 mimics the binding mode of canonical TGF-β ligands to compete for access to ACVR2B. In functional assays, DLK1 antagonizes Myostatin-ACVR2B signaling to promote myoblast differentiation, rationalizing a mechanism for the role of DLK1 in muscle development and regeneration. Crosstalk between Notch and TGF-β is mediated by interactions between the transcriptional regulators SMAD2/3 and the Notch intracellular domain (NICD), and DLK1…
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Taxonomy
TopicsTGF-β signaling in diseases · Muscle Physiology and Disorders · Developmental Biology and Gene Regulation
