Literature DB >> 19035356

Identification of nucleus pulposus precursor cells and notochordal remnants in the mouse: implications for disk degeneration and chordoma formation.

Kyung-Suk Choi1, Martin J Cohn, Brian D Harfe.   

Abstract

A classically identified "notochordal" cell population in the nucleus pulposus is thought to regulate disk homeostasis. However, the embryonic origin of these cells has been under dispute for >60 years. Here we provide the first direct evidence that all cell types in the adult mouse nucleus pulposus are derived from the embryonic notochord. Additionally, rare isolated embryonic notochord cells remained in the vertebral column and resembled "notochordal remnants," which in humans have been proposed to give rise to a rare type of late-onset cancer called chordoma. Previously, this cell type had not been identified in the mouse model system. The development and characterization of a mouse model that can be used to fate map nucleus pulposus precursor cells in any mutant background will be useful for uncovering the cellular and molecular mechanisms of disk degeneration. In addition, the identification of notochordal remnants in mice is the first step towards generating an in vivo model of chordoma. (c) 2008 Wiley-Liss, Inc.

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Year:  2008        PMID: 19035356      PMCID: PMC2646501          DOI: 10.1002/dvdy.21805

Source DB:  PubMed          Journal:  Dev Dyn        ISSN: 1058-8388            Impact factor:   3.780


  34 in total

Review 1.  The notochordal cell in the nucleus pulposus: a review in the context of tissue engineering.

Authors:  C J Hunter; J R Matyas; N A Duncan
Journal:  Tissue Eng       Date:  2003-08

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Journal:  Nihon Juigaku Zasshi       Date:  1986-08

3.  Swelling pressure of the lumbar intervertebral discs: influence of age, spinal level, composition, and degeneration.

Authors:  J P Urban; J F McMullin
Journal:  Spine (Phila Pa 1976)       Date:  1988-02       Impact factor: 3.468

Review 4.  Human intervertebral disc: structure and function.

Authors:  M D Humzah; R W Soames
Journal:  Anat Rec       Date:  1988-04

5.  Age-related changes in the nucleus pulposus of intervertebral disc in mice. An electronmicroscopic study.

Authors:  M Higuchi; K Kaneda; K Abe
Journal:  Nihon Seikeigeka Gakkai Zasshi       Date:  1982-04

6.  Evidence for an expansion-based temporal Shh gradient in specifying vertebrate digit identities.

Authors:  Brian D Harfe; Paul J Scherz; Sahar Nissim; Hua Tian; Andrew P McMahon; Clifford J Tabin
Journal:  Cell       Date:  2004-08-20       Impact factor: 41.582

7.  Initial characterization of the metabolism of intervertebral disc cells encapsulated in microspheres.

Authors:  B A Maldonado; T R Oegema
Journal:  J Orthop Res       Date:  1992-09       Impact factor: 3.494

8.  Sacrococcygeal chordomas in patients with tuberous sclerosis complex show somatic loss of TSC1 or TSC2.

Authors:  Lisa Lee-Jones; Irene Aligianis; Peter A Davies; Ana Puga; Peter A Farndon; Anat Stemmer-Rachamimov; Vijaya Ramesh; Julian R Sampson
Journal:  Genes Chromosomes Cancer       Date:  2004-09       Impact factor: 5.006

9.  The development of fibrocartilage in the rat intervertebral disc.

Authors:  A Rufai; M Benjamin; J R Ralphs
Journal:  Anat Embryol (Berl)       Date:  1995-07

10.  Cre reporter strains produced by targeted insertion of EYFP and ECFP into the ROSA26 locus.

Authors:  S Srinivas; T Watanabe; C S Lin; C M William; Y Tanabe; T M Jessell; F Costantini
Journal:  BMC Dev Biol       Date:  2001-03-27       Impact factor: 1.978
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  133 in total

1.  Nuclei pulposi formation from the embryonic notochord occurs normally in GDF-5-deficient mice.

Authors:  Jennifer A Maier; Brian D Harfe
Journal:  Spine (Phila Pa 1976)       Date:  2011-11-15       Impact factor: 3.468

2.  The generation of vertebral segmental patterning in the chick embryo.

Authors:  Biruntha Senthinathan; Cátia Sousa; David Tannahill; Roger Keynes
Journal:  J Anat       Date:  2012-03-28       Impact factor: 2.610

Review 3.  Diversity of intervertebral disc cells: phenotype and function.

Authors:  Girish Pattappa; Zhen Li; Marianna Peroglio; Nadine Wismer; Mauro Alini; Sibylle Grad
Journal:  J Anat       Date:  2012-06-11       Impact factor: 2.610

4.  Immunohistochemical identification of notochordal markers in cells in the aging human lumbar intervertebral disc.

Authors:  Christoph Weiler; Andreas G Nerlich; Rainer Schaaf; Beatrice E Bachmeier; Karin Wuertz; Norbert Boos
Journal:  Eur Spine J       Date:  2010-04-07       Impact factor: 3.134

Review 5.  Notochord to Nucleus Pulposus Transition.

Authors:  Lisa Lawson; Brian D Harfe
Journal:  Curr Osteoporos Rep       Date:  2015-10       Impact factor: 5.096

6.  Chordoma: an update on the pathophysiology and molecular mechanisms.

Authors:  Xin Sun; Francis Hornicek; Joseph H Schwab
Journal:  Curr Rev Musculoskelet Med       Date:  2015-12

7.  Photocrosslinkable laminin-functionalized polyethylene glycol hydrogel for intervertebral disc regeneration.

Authors:  Aubrey T Francisco; Priscilla Y Hwang; Claire G Jeong; Liufang Jing; Jun Chen; Lori A Setton
Journal:  Acta Biomater       Date:  2013-11-25       Impact factor: 8.947

8.  Intervertebral Disc Degeneration in a Percutaneous Mouse Tail Injury Model.

Authors:  Zuozhen Tian; Xiaoyuan Ma; Miersalijiang Yasen; Robert L Mauck; Ling Qin; Frances S Shofer; Lachlan J Smith; Maurizio Pacifici; Motomi Enomoto-Iwamoto; Yejia Zhang
Journal:  Am J Phys Med Rehabil       Date:  2018-03       Impact factor: 2.159

9.  Anterior-posterior regionalized gene expression in the Ciona notochord.

Authors:  Wendy Reeves; Rachel Thayer; Michael Veeman
Journal:  Dev Dyn       Date:  2013-12-27       Impact factor: 3.780

Review 10.  An understanding of intervertebral disc development, maturation and cell phenotype provides clues to direct cell-based tissue regeneration therapies for disc degeneration.

Authors:  Ricardo Rodrigues-Pinto; Stephen M Richardson; Judith A Hoyland
Journal:  Eur Spine J       Date:  2014-04-29       Impact factor: 3.134
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