Literature DB >> 21924256

Lrp5 and Lrp6 redundantly control skeletal development in the mouse embryo.

Kyu Sang Joeng1, Cassie A Schumacher, Cassandra R Zylstra-Diegel, Fanxin Long, Bart O Williams.   

Abstract

The role of Wnt signaling in osteoblastogenesis in the embryo remains to be fully established. Although β-catenin, a multifunctional protein also mediating canonical Wnt signaling, is indispensable for embryonic osteoblast differentiation, the roles of the key Wnt co-receptors Lrp5 and Lrp6 are unclear. Indeed, global deletion of either Lrp5 or Lrp6 did not overtly affect osteoblast differentiation in the mouse embryo. Here, we generated mice lacking both receptors specifically in the embryonic mesenchyme and observed an absence of osteoblasts in the embryo. In addition, the double-deficient embryos developed supernumerary cartilage elements in the zeugopod, revealing an important role for mesenchymal Lrp5/6 signaling in limb patterning. Importantly, the phenotypes of the Lrp5/6 mutant closely resembled those of the β-catenin-deficient embryos. These phenotypes are likely independent of any effect on the adherens junction, as deletion of α-catenin, another component of the complex, did not cause similar defects. Thus, Lrp5 and 6 redundantly control embryonic skeletal development, likely through β-catenin signaling.
Copyright © 2011. Published by Elsevier Inc.

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Year:  2011        PMID: 21924256      PMCID: PMC3220949          DOI: 10.1016/j.ydbio.2011.08.020

Source DB:  PubMed          Journal:  Dev Biol        ISSN: 0012-1606            Impact factor:   3.582


  39 in total

1.  arrow encodes an LDL-receptor-related protein essential for Wingless signalling.

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2.  An LDL-receptor-related protein mediates Wnt signalling in mice.

Authors:  K I Pinson; J Brennan; S Monkley; B J Avery; W C Skarnes
Journal:  Nature       Date:  2000-09-28       Impact factor: 49.962

Review 3.  New aspects of Wnt signaling pathways in higher vertebrates.

Authors:  J Huelsken; W Birchmeier
Journal:  Curr Opin Genet Dev       Date:  2001-10       Impact factor: 5.578

4.  LDL receptor-related protein 5 (LRP5) affects bone accrual and eye development.

Authors:  Y Gong; R B Slee; N Fukai; G Rawadi; S Roman-Roman; A M Reginato; H Wang; T Cundy; F H Glorieux; D Lev; M Zacharin; K Oexle; J Marcelino; W Suwairi; S Heeger; G Sabatakos; S Apte; W N Adkins; J Allgrove; M Arslan-Kirchner; J A Batch; P Beighton; G C Black; R G Boles; L M Boon; C Borrone; H G Brunner; G F Carle; B Dallapiccola; A De Paepe; B Floege; M L Halfhide; B Hall; R C Hennekam; T Hirose; A Jans; H Jüppner; C A Kim; K Keppler-Noreuil; A Kohlschuetter; D LaCombe; M Lambert; E Lemyre; T Letteboer; L Peltonen; R S Ramesar; M Romanengo; H Somer; E Steichen-Gersdorf; B Steinmann; B Sullivan; A Superti-Furga; W Swoboda; M J van den Boogaard; W Van Hul; M Vikkula; M Votruba; B Zabel; T Garcia; R Baron; B R Olsen; M L Warman
Journal:  Cell       Date:  2001-11-16       Impact factor: 41.582

5.  A mutation in the LDL receptor-related protein 5 gene results in the autosomal dominant high-bone-mass trait.

Authors:  Randall D Little; John P Carulli; Richard G Del Mastro; Josée Dupuis; Mark Osborne; Colleen Folz; Susan P Manning; Pamela M Swain; Shan-Chuan Zhao; Brenda Eustace; Michelle M Lappe; Lia Spitzer; Susan Zweier; Karen Braunschweiger; Youssef Benchekroun; Xintong Hu; Ronald Adair; Linda Chee; Michael G FitzGerald; Craig Tulig; Anthony Caruso; Nia Tzellas; Alicia Bawa; Barbara Franklin; Shannon McGuire; Xavier Nogues; Gordon Gong; Kristina M Allen; Anthony Anisowicz; Arturo J Morales; Peter T Lomedico; Susan M Recker; Paul Van Eerdewegh; Robert R Recker; Mark L Johnson
Journal:  Am J Hum Genet       Date:  2001-12-03       Impact factor: 11.025

6.  Increased bone density in sclerosteosis is due to the deficiency of a novel secreted protein (SOST).

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7.  Low-density lipoprotein receptor-related protein-5 binds to Axin and regulates the canonical Wnt signaling pathway.

Authors:  J Mao; J Wang; B Liu; W Pan; G H Farr; C Flynn; H Yuan; S Takada; D Kimelman; L Li; D Wu
Journal:  Mol Cell       Date:  2001-04       Impact factor: 17.970

8.  Bone dysplasia sclerosteosis results from loss of the SOST gene product, a novel cystine knot-containing protein.

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9.  Inactivation of the beta-catenin gene by Wnt1-Cre-mediated deletion results in dramatic brain malformation and failure of craniofacial development.

Authors:  V Brault; R Moore; S Kutsch; M Ishibashi; D H Rowitch; A P McMahon; L Sommer; O Boussadia; R Kemler
Journal:  Development       Date:  2001-04       Impact factor: 6.868

10.  Lrp5 functions in bone to regulate bone mass.

Authors:  Yajun Cui; Paul J Niziolek; Bryan T MacDonald; Cassandra R Zylstra; Natalia Alenina; Daniel R Robinson; Zhendong Zhong; Susann Matthes; Christina M Jacobsen; Ronald A Conlon; Robert Brommage; Qingyun Liu; Faika Mseeh; David R Powell; Qi M Yang; Brian Zambrowicz; Han Gerrits; Jan A Gossen; Xi He; Michael Bader; Bart O Williams; Matthew L Warman; Alexander G Robling
Journal:  Nat Med       Date:  2011-05-22       Impact factor: 53.440
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  75 in total

Review 1.  Building strong bones: molecular regulation of the osteoblast lineage.

Authors:  Fanxin Long
Journal:  Nat Rev Mol Cell Biol       Date:  2011-12-22       Impact factor: 94.444

2.  Mesenchymal Wnt signaling promotes formation of sternum and thoracic body wall.

Authors:  John Snowball; Manoj Ambalavanan; Bridget Cornett; Richard Lang; Jeffrey Whitsett; Debora Sinner
Journal:  Dev Biol       Date:  2015-02-26       Impact factor: 3.582

Review 3.  A Comprehensive Overview of Skeletal Phenotypes Associated with Alterations in Wnt/β-catenin Signaling in Humans and Mice.

Authors:  Kevin A Maupin; Casey J Droscha; Bart O Williams
Journal:  Bone Res       Date:  2013-03-29       Impact factor: 13.567

4.  Sox9 plays multiple roles in the lung epithelium during branching morphogenesis.

Authors:  Briana E Rockich; Steven M Hrycaj; Hung Ping Shih; Melinda S Nagy; Michael A H Ferguson; Janel L Kopp; Maike Sander; Deneen M Wellik; Jason R Spence
Journal:  Proc Natl Acad Sci U S A       Date:  2013-11-04       Impact factor: 11.205

5.  Wntless functions in mature osteoblasts to regulate bone mass.

Authors:  Zhendong Zhong; Cassandra R Zylstra-Diegel; Cassie A Schumacher; Jacob J Baker; April C Carpenter; Sujata Rao; Wei Yao; Min Guan; Jill A Helms; Nancy E Lane; Richard A Lang; Bart O Williams
Journal:  Proc Natl Acad Sci U S A       Date:  2012-06-28       Impact factor: 11.205

Review 6.  Low-Density Lipoprotein Receptor-Related Proteins in Skeletal Development and Disease.

Authors:  Tao Yang; Bart O Williams
Journal:  Physiol Rev       Date:  2017-07-01       Impact factor: 37.312

Review 7.  Wnt signaling in cardiovascular disease: opportunities and challenges.

Authors:  Austin Gay; Dwight A Towler
Journal:  Curr Opin Lipidol       Date:  2017-10       Impact factor: 4.776

Review 8.  WNT signaling in bone homeostasis and disease: from human mutations to treatments.

Authors:  Roland Baron; Michaela Kneissel
Journal:  Nat Med       Date:  2013-02-06       Impact factor: 53.440

9.  Frizzled 2 and frizzled 7 function redundantly in convergent extension and closure of the ventricular septum and palate: evidence for a network of interacting genes.

Authors:  Huimin Yu; Xin Ye; Nini Guo; Jeremy Nathans
Journal:  Development       Date:  2012-10-24       Impact factor: 6.868

Review 10.  LRP5 and LRP6 in development and disease.

Authors:  Danese M Joiner; Jiyuan Ke; Zhendong Zhong; H Eric Xu; Bart O Williams
Journal:  Trends Endocrinol Metab       Date:  2013-01       Impact factor: 12.015
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