Sage Journals: Discover world-class research

Abstract

Amelogenins are proteins formed by alternative splicing of the amelogenin gene, and are essential for tooth enamel formation. However, the unique functions of various alternatively spliced amelogenins in enamel formation are not well understood. In this study, we determined the spatiotemporal location of amelogenins derived from transcripts containing exon4 (AMG+4) in the enamel matrix, and the relative binding of recombinant AMG+4 to hydroxyapatite (HAP). Immunohistochemistry and mass spectrometry analyses showed that AMG+4 proteins were secreted into the enamel matrix at the early maturation stage. A stage-specific increase in the synthesis of AMG+4 was further supported by our observation that in mice overexpressing leucine-rich amelogenin peptide (TgLRAP), in which ameloblasts differentiate earlier, AMG+4 transcripts were also upregulated earlier. In vitro binding studies, supported by in silico modeling of protein binding to calcium and phosphate, showed that more recombinant AMG+4 bound to hydroxyapatite (HAP) as compared with recombinant AMG-4. The temporal and spatial localization of amelogenins containing exon4 peptide, and their functional differences in HAP binding, suggests that the unique properties of amelogenins containing exon4 cause a specific enhancement of biomineralization related to stabilization of early-formed HAP at the maturation stage.

Keywords

mineralized tissue protein expression tooth development matrix biology craniofacial biology cell-matrix interactions

Get full access to this article

View all access options for this article.

References

Bleicher

Couble

Farges

Couble

Magloire

. 1999. Sequential expression of matrix protein genes in developing rat teeth. Matrix Biol. 18(2):133–143.

Boabaid

Gibson

Kuehl

Berry

Snead

Nociti

Jr Katchburian

Somerman

. 2004. Leucine-rich amelogenin peptide: a candidate signaling molecule during cementogenesis. J Periodontol. 75(8):1126–1136.

Chen

Yuan

Wright

Hong

Collier

Hall

D’Angelo

Decker

Piddington

. 2003. The small bovine amelogenin LRAP fails to rescue the amelogenin null phenotype. Calcif Tissue Int. 73(5):487–495.

Cho

Kim

Lee

Yun

Lee

Shin

Hyun

Kim

Lee

. 2014. Alteration of conserved alternative splicing in AMELX causes enamel defects. J Dent Res. 93(10):980–987.

Den Besten

. 1986. Effects of fluoride on protein secretion and removal during enamel development in the rat. J Dent Res. 65(10):1272–1277.

Duailibi

Young

Bartlett

Vacanti

Yelick

. 2004. Bioengineered teeth from cultured rat tooth bud cells. J Dent Res. 83(7):523–528.

Eastoe

. 1964. The chemical composition of bone and teeth. In: JL

Hardwick

, editor. Advance in Fluorine Research Dental Caries Prevent. Oxford (UK): Pergamon Press. p. 5–17.

Fincham

Belcourt

Termine

Butler

Cothran

. 1981. Dental enamel matrix: sequences of two amelogenin polypeptides. Biosci Rep. 1(10):771–-778.

Fincham

Moradian-Oldak

Simmer

Sarte

Lau

Diekwisch

Slavkin

. 1994. Self-assembly of a recombinant amelogenin protein generates supramolecular structures. J Struct Biol. 112(2):103–109.

10.

Gibson

Golub

Ding

Shimokawa

Young

Termine

Rosenbloom

. 1991. Identification of the leucine-rich amelogenin peptide (LRAP) as the translation product of an alternatively spliced transcript. Biochem Biophys Res Commun. 174(3):1306–1312.

11.

Gibson

Golub

Abrams

Shen

Ding

Rosenbloom

. 1992. Bovine amelogenin message heterogeneity: alternative splicing and Y-chromosomal gene transcription. Biochemistry. 31(35):8384–8388.

12.

Gibson

Suggs

Kuehl

Pugach

Kulkarni

Wright

. 2011. Rescue of the murine amelogenin null phenotype with two amelogenin transgenes. Eur J Oral Sci. 119(Suppl 1):70–74.

13.

Gomori

. 1950. A rapid one-step trichrome stain. Am J Clin Pathol. 20(7):661–664.

14.

Ryu

Qian

Zhang

Simmer

. 1997. Cloning, characterization, and heterologous expression of exon-4-containing amelogenin mRNAs. J Dent Res. 76(2):641–647.

15.

Iacob

Veis

. 2006. Identification of temporal and spatial expression patterns of amelogenin isoforms during mouse molar development. Eur J Oral Sci. 114(Suppl 1):194–200.

16.

Zhang

Denbesten

. 2007. The effect of LRAP on enamel organ epithelial cell differentiation. J Dent Res. 86(11):1095–1099.

17.

Le Norcy

Kwak

Wiedemann-Bidlack

Beniash

Yamakoshi

Simmer

Margolis

. 2011. Potential role of the amelogenin N-terminus in the regulation of calcium phosphate formation in vitro. Cells Tissues Organs. 194(2-4):188–193.

18.

DenBesten

. 1995. Alternative splicing of amelogenin mRNA from rat incisor ameloblasts. J Dent Res. 74(12):1880–1885.

19.

Mathews

Gao

DenBesten

. 1998. Identification of two additional exons at the 3′ end of the amelogenin gene. Arch Oral Biol. 43(6):497–504.

20.

Liu

Oei

Mitchell

McGaughran

. 2001. Interstitial deletion of 3p22.2-p24.2: the first reported case. J Med Genet. 38(5):349–351.

21.

Lyngstadaas

Risnes

Sproat

Thrane

Prydz

. 1995. A synthetic, chemically modified ribozyme eliminates amelogenin, the major translation product in developing mouse enamel in vivo. EMBO J. 14(21):5224–5229.

22.

Nakano

Beertsen

van den Bos

Kawamoto

Oda

Takano

. 2004. Site-specific localization of two distinct phosphatases along the osteoblast plasma membrane: tissue non-specific alkaline phosphatase and plasma membrane calcium ATPase. Bone. 35(5):1077–1085.

23.

Nanci

Slavkin

Smith

. 1987. Immunocytochemical and radioautographic evidence for secretion and intracellular degradation of enamel proteins by ameloblasts during the maturation stage of amelogenesis in rat incisors. Anat Rec. 217(2):107–123.

24.

Salido

Yen

Koprivnikar

Shapiro

. 1992. The human enamel protein gene amelogenin is expressed from both the X and the Y chromosomes. Am J Hum Genet. 50(2):303–316.

25.

Sire

Huang

Delgado

Goldberg

Denbesten

. 2012. Evolutionary story of mammalian-specific amelogenin exons 4, “4b”, 8, and 9. J Dent Res. 91(1):84–89.

26.

Smith

Nanci

. 1989. A method for sampling the stages of amelogenesis on mandibular rat incisors using the molars as a reference for dissection. Anat Rec. 225(3):257–266.

27.

Stahl

Nakano

Kim

Gibson

Denbesten

. 2013. Leucine rich amelogenin peptide alters ameloblast differentiation in vivo. Matrix Biol. 32(7-8):432–442.

28.

Tanimoto

Zhu

Chen

Featherstone

DenBesten

. 2008. Effects of fluoride on the interactions between amelogenin and apatite crystals. J Dent Res. 87(1):39–44.

29.

Termine

Belcourt

Christner

Conn

Nylen

. 1980. Properties of dissociatively extracted fetal tooth matrix proteins. I. Principal molecular species in developing bovine enamel. J Biol Chem. 255(20):9760–9768.

30.

Warotayanont

Frenkel

Snead

Zhou

. 2009. Leucine-rich amelogenin peptide induces osteogenesis by activation of the Wnt pathway. Biochem Biophys Res Commun. 387(3):558–563.

31.

Yamakoshi

. 2011. Porcine amelogenin: alternative splicing, proteolytic processing, protein–protein interactions, and possible functions. J Oral Biosci. 53(3):275–283.

32.

Zhu

Butcher

Schneider

Den Besten

. 2006. Amelogenins in human developing and mature dental pulp. J Dent Res. 85(9):814–818.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

0.00 MB

0.41 MB

Exon4 Amelogenin Transcripts in Enamel Biomineralization

Abstract

Keywords

Get full access to this article

References

Supplementary Material