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Literature DB >> 17627120

Disorders of human dentin.

Abstract

Dentin, the most abundant tissue in teeth, is produced by odontoblasts, which differentiate from mesenchymal cells of the dental papilla. Dentinogenesis is a highly controlled process that results in the conversion of unmineralized predentin to mineralized dentin. By weight, 70% of the dentin matrix is mineralized, while the organic phase accounts for 20% and water constitutes the remaining 10%. Type I collagen is the primary component (>85%) of the organic portion of dentin. The non-collagenous part of the organic matrix is composed of various proteins, with dentin phosphoprotein predominating, accounting for about 50% of the non-collagenous part. Dentin defects are broadly classified into two major types: dentinogenesis imperfectas (DIs, types I-III) and dentin dysplasias (DDs, types I and II). To date, mutations in DSPP have been found to underlie the dentin disorders DI types II and III and DD type II. With the elucidation of the underlying genetic mechanisms has come the realization that the clinical characteristics associated with DSPP mutations appear to represent a continuum of phenotypes. Thus, these disorders should likely be called DSPP-associated dentin defects, with DD type II representing the mild end of the phenotypic spectrum and DI type III representing the severe end. Copyright 2007 S. Karger AG, Basel.

Entities: Chemical Disease Gene Species

Mesh：

Substances：

Year: 2007 PMID： 17627120 PMCID： PMC4617234 DOI： 10.1159/000102682

Source DB: PubMed Journal: Cells Tissues Organs ISSN： 1422-6405 Impact factor: 2.481

42 in total

1. Dentin sialophosphoprotein is processed by MMP-2 and MMP-20 in vitro and in vivo.

Authors: Yasuo Yamakoshi; Jan C-C Hu; Takanori Iwata; Kazuyuki Kobayashi; Makoto Fukae; James P Simmer
Journal: J Biol Chem Date: 2006-10-17 Impact factor: 5.157

2. Classical Ehlers-Danlos syndrome caused by a mutation in type I collagen.

Authors: L Nuytinck; M Freund; L Lagae; G E Pierard; T Hermanns-Le; A De Paepe
Journal: Am J Hum Genet Date: 2000-03-17 Impact factor: 11.025

3. A proposed classification for heritable human dentine defects with a description of a new entity.

Authors: E D Shields; D Bixler; A M el-Kafrawy
Journal: Arch Oral Biol Date: 1973-04 Impact factor: 2.633

4. Phenotypic variation in dentinogenesis imperfecta/dentin dysplasia linked to 4q21.

Authors: M L Beattie; J-W Kim; S-G Gong; C A Murdoch-Kinch; J P Simmer; J C-C Hu
Journal: J Dent Res Date: 2006-04 Impact factor: 6.116

5. A novel GALNT3 mutation in a pseudoautosomal dominant form of tumoral calcinosis: evidence that the disorder is autosomal recessive.

Authors: Shoji Ichikawa; Kenneth W Lyles; Michael J Econs
Journal: J Clin Endocrinol Metab Date: 2005-02-01 Impact factor: 5.958

6. Mutational hot spot in the DSPP gene causing dentinogenesis imperfecta type II.

Authors: Jung-Wook Kim; Jan C-C Hu; Jae-Il Lee; Sung-Kwon Moon; Young-Jae Kim; Ki-Taeg Jang; Sang-Hoon Lee; Chong-Chul Kim; Se-Hyun Hahn; James P Simmer
Journal: Hum Genet Date: 2004-12-08 Impact factor: 4.132

7. Splicing site mutations in dentin sialophosphoprotein causing dentinogenesis imperfecta type II.

Authors: Heidi Holappa; Pekka Nieminen; Liisa Tolva; Pirjo-Liisa Lukinmaa; Satu Alaluusua
Journal: Eur J Oral Sci Date: 2006-10 Impact factor: 2.612

8. Autosomal dominant hypophosphataemic rickets is associated with mutations in FGF23.

Authors:
Journal: Nat Genet Date: 2000-11 Impact factor: 38.330

9. DSPP mutation in dentinogenesis imperfecta Shields type II.

Authors: X Zhang; J Zhao; C Li; S Gao; C Qiu; P Liu; G Wu; B Qiang; W H Lo; Y Shen
Journal: Nat Genet Date: 2001-02 Impact factor: 38.330

10. Clinical, histopathologic, and genetic investigation in two large families with dentinogenesis imperfecta type II.

Authors: B Malmgren; S Lindskog; A Elgadi; S Norgren
Journal: Hum Genet Date: 2004-02-03 Impact factor: 4.132

42 in total

1. Immortalized mouse floxed Bmp2 dental papilla mesenchymal cell lines preserve odontoblastic phenotype and respond to BMP2.

Authors: Li-an Wu; Junsheng Feng; Lynn Wang; Yan-dong Mu; Andrew Baker; Kevin J Donly; Jelica Gluhak-Heinrich; Stephen E Harris; Mary MacDougall; Shuo Chen
Journal: J Cell Physiol Date: 2010-10 Impact factor: 6.384

2. Dentin phosphoprotein (DPP) activates integrin-mediated anchorage-dependent signals in undifferentiated mesenchymal cells.

Authors: Asha Eapen; Amsaveni Ramachandran; Anne George
Journal: J Biol Chem Date: 2011-12-01 Impact factor: 5.157

3. Bmp2 is required for odontoblast differentiation and pulp vasculogenesis.

Authors: W Yang; M A Harris; Y Cui; Y Mishina; S E Harris; J Gluhak-Heinrich
Journal: J Dent Res Date: 2011-10-07 Impact factor: 6.116

Review 4. Dentin sialophosphoprotein and dentin matrix protein-1: Two highly phosphorylated proteins in mineralized tissues.

Authors: Shigeki Suzuki; Naoto Haruyama; Fusanori Nishimura; Ashok B Kulkarni
Journal: Arch Oral Biol Date: 2012-04-24 Impact factor: 2.633

5. Mutant Dentin Sialophosphoprotein Causes Dentinogenesis Imperfecta.

Authors: T Liang; H Zhang; Q Xu; S Wang; C Qin; Y Lu
Journal: J Dent Res Date: 2019-06-07 Impact factor: 6.116

6. Enamel malformations associated with a defined dentin sialophosphoprotein mutation in two families.

Authors: Shih-Kai Wang; Hui-Chen Chan; Sudha Rajderkar; Rachel N Milkovich; Karen A Uston; Jung-Wook Kim; James P Simmer; Jan C-C Hu
Journal: Eur J Oral Sci Date: 2011-12 Impact factor: 2.612

7. Rough endoplasmic reticulum trafficking errors by different classes of mutant dentin sialophosphoprotein (DSPP) cause dominant negative effects in both dentinogenesis imperfecta and dentin dysplasia by entrapping normal DSPP.

Authors: Zofia von Marschall; Seeun Mok; Matthew D Phillips; Dianalee A McKnight; Larry W Fisher
Journal: J Bone Miner Res Date: 2012-06 Impact factor: 6.741