RATIONALE: Among the extracellular modulators of Bmp (bone morphogenetic protein) signaling, Bmper (Bmp endothelial cell precursor-derived regulator) both enhances and inhibits Bmp signaling. Recently we found that Bmper modulates Bmp4 activity via a concentration-dependent, endocytic trap-and-sink mechanism. OBJECTIVE: To investigate the molecular mechanisms required for endocytosis of the Bmper/Bmp4 and signaling complex and determine the mechanism of Bmper's differential effects on Bmp4 signaling. METHODS AND RESULTS: Using an array of biochemical and cell biology techniques, we report that LRP1 (LDL receptor-related protein 1), a member of the LDL receptor family, acts as an endocytic receptor for Bmper and a coreceptor of Bmp4 to mediate the endocytosis of the Bmper/Bmp4 signaling complex. Furthermore, we demonstrate that LRP1-dependent Bmper/Bmp4 endocytosis is essential for Bmp4 signaling, as evidenced by the phenotype of lrp1-deficient zebrafish, which have abnormal cardiovascular development and decreased Smad1/5/8 activity in key vasculogenic structures. CONCLUSIONS: Together, these data reveal a novel role for LRP1 in the regulation of Bmp4 signaling by regulating receptor complex endocytosis. In addition, these data introduce LRP1 as a critical regulator of vascular development. These observations demonstrate Bmper's ability to fine-tune Bmp4 signaling at the single-cell level, unlike the spatial regulatory mechanisms applied by other Bmp modulators.
RATIONALE: Among the extracellular modulators of Bmp (bone morphogenetic protein) signaling, Bmper (Bmp endothelial cell precursor-derived regulator) both enhances and inhibits Bmp signaling. Recently we found that Bmper modulates Bmp4 activity via a concentration-dependent, endocytic trap-and-sink mechanism. OBJECTIVE: To investigate the molecular mechanisms required for endocytosis of the Bmper/Bmp4 and signaling complex and determine the mechanism of Bmper's differential effects on Bmp4 signaling. METHODS AND RESULTS: Using an array of biochemical and cell biology techniques, we report that LRP1 (LDL receptor-related protein 1), a member of the LDL receptor family, acts as an endocytic receptor for Bmper and a coreceptor of Bmp4 to mediate the endocytosis of the Bmper/Bmp4 signaling complex. Furthermore, we demonstrate that LRP1-dependent Bmper/Bmp4 endocytosis is essential for Bmp4 signaling, as evidenced by the phenotype of lrp1-deficient zebrafish, which have abnormal cardiovascular development and decreased Smad1/5/8 activity in key vasculogenic structures. CONCLUSIONS: Together, these data reveal a novel role for LRP1 in the regulation of Bmp4 signaling by regulating receptor complex endocytosis. In addition, these data introduce LRP1 as a critical regulator of vascular development. These observations demonstrate Bmper's ability to fine-tune Bmp4 signaling at the single-cell level, unlike the spatial regulatory mechanisms applied by other Bmp modulators.
Authors: Petra May; Astrid Rohlmann; Hans H Bock; Kai Zurhove; Jamey D Marth; Eike D Schomburg; Jeffrey L Noebels; Uwe Beffert; J David Sweatt; Edwin J Weeber; Joachim Herz Journal: Mol Cell Biol Date: 2004-10 Impact factor: 4.272
Authors: Martin Moser; Olav Binder; Yaxu Wu; Julius Aitsebaomo; Rongqin Ren; Christoph Bode; Victoria L Bautch; Frank L Conlon; Cam Patterson Journal: Mol Cell Biol Date: 2003-08 Impact factor: 4.272
Authors: Steffen E Storck; Sabrina Meister; Julius Nahrath; Julius N Meißner; Nils Schubert; Alessandro Di Spiezio; Sandra Baches; Roosmarijn E Vandenbroucke; Yvonne Bouter; Ingrid Prikulis; Carsten Korth; Sascha Weggen; Axel Heimann; Markus Schwaninger; Thomas A Bayer; Claus U Pietrzik Journal: J Clin Invest Date: 2015-11-30 Impact factor: 14.808