Bo Wang, Qian Zhao, Xiaoxia Gong, Caixia Wang, Yan Bai, Hongying Wang, Jianfeng Zhou, Xiaozhi Rong
The Journal of biological chemistry 2022 DecThe bone morphogenetic protein (BMP) signaling pathway plays pivotal roles in various biological processes during embryogenesis and adult homeostasis. Transmembrane anterior posterior transformation 1 (TAPT1) is an evolutionarily conserved protein involved in murine axial skeletal patterning. Genetic defects in TAPT1 result in complex lethal osteochondrodysplasia. However, the specific cellular activity of TAPT1 is not clear. Herein, we report that TAPT1 inhibits BMP signaling and destabilizes the SMAD1/5 protein by facilitating its interaction with SMURF1 E3 ubiquitin ligase, which leads to SMAD1/5 proteasomal degradation. In addition, we found that the activation of BMP signaling facilitates the redistribution of TAPT1 and promotes its association with SMAD1. TAPT1-deficient murine C2C12 myoblasts or C3H/10T1/2 mesenchymal stem cells exhibit elevated SMAD1/5/9 protein levels, which amplifies BMP activation, in turn leading to a boost in the transdifferentiation or differentiation processing of these distinct TAPT1-deficient cell lines changing into mature osteoblasts. Furthermore, the enhancing effect of TAPT1 deficiency on osteogenic differentiation of C3H/10T1/2 cells was observed in an in vivo ectopic bone formation model. Importantly, a subset of TAPT1 mutations identified in humans with lethal skeletal dysplasia exhibited gain-of-function activity on SMAD1 protein levels. Thus, this finding elucidates the role of TAPT1 in the regulation of SMAD1/5 protein stability for controlling BMP signaling. Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.
Bo Wang, Qian Zhao, Xiaoxia Gong, Caixia Wang, Yan Bai, Hongying Wang, Jianfeng Zhou, Xiaozhi Rong. Transmembrane anterior posterior transformation 1 regulates BMP signaling and modulates the protein stability of SMAD1/5. The Journal of biological chemistry. 2022 Dec;298(12):102684
PMID: 36370851
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