TM14 Is a New Member of the Fibulin Family (Fibulin-7) That Interacts with Extracellular Matrix Molecules and Is Active for Cell Binding

Susana De Vega,Tsutomu Iwamoto,Takashi Nakamura,Kentaro Hozumi,Dianalee A Mcknight,Larry W Fisher,Satoshi Fukumoto,Yoshihiko Yamada

doi:10.1074/jbc.m705847200

Abstract

We identified a new extracellular protein, TM14, by differential hybridization using mouse tooth germ cDNA microarrays. TM14 cDNA encodes 440 amino acids containing a signal peptide. The protein contains 3 EGF modules at the center, a C-terminal domain homologous to the fibulin module, and a unique Sushi domain at the N terminus. In situ hybridization revealed that TM14 mRNA was expressed by preodontoblasts and odontoblasts in developing teeth. TM14 mRNA was also expressed in cartilage, hair follicles, and extraembryonic tissues of the placenta. Immunostaining revealed that TM14 was localized at the apical pericellular regions of preodontoblasts. When the dentin matrix was fully formed and dentin mineralization occurred, TM14 was present in the predentin matrix and along the dentinal tubules. We found that the recombinant TM14 protein was glycosylated with N-linked oligosaccharides and interacted with heparin, fibronectin, fibulin-1, and dentin sialophosphoprotein. We also found that TM14 preferentially bound dental mesenchyme cells and odontoblasts but not dental epithelial cells or nondental cells such as HeLa, COS7, or NIH3T3 cells. Heparin, EDTA, and anti-integrin beta1 antibody inhibited TM14 binding to dental mesenchyme cells, suggesting that both a heparan sulfate-containing cell surface receptor and an integrin are involved in TM14 cell binding. Our findings indicate that TM14 is a cell adhesion molecule that interacts with extracellular matrix molecules in teeth and suggest that TM14 plays important roles in both the differentiation and maintenance of odontoblasts as well as in dentin formation. Because of its protein characteristics, TM14 can be classified as a new member of the fibulin family: fibulin-7.

Highlights

The extracellular matrix (ECM)4 plays active roles during organ development and in mature tissue functions
We found that TM14 was a cell adhesion molecule for dental mesenchyme cells and odontoblasts and that it bound to heparin, fibulin-1, dentin sialophosphoprotein (DSPP), and fibronectin, suggesting interesting roles of TM14 in odontogenesis
We have identified TM14 as a new member of the extracellular matrix proteins

Summary

Introduction

The extracellular matrix (ECM) plays active roles during organ development and in mature tissue functions. Mature teeth consist of two major mineralized tissues, dentin and enamel, the hardest tissue in the body The development of these tissues is initiated by reciprocal interactions between the dental epithelium and mesenchyme, leading to the terminal differentiation of matrix-producing ameloblasts and odontoblasts, respectively [5]. Odontoblasts synthesize and secrete several collagenous and noncollagenous proteins to form the unique extracellular matrix of dentin. Fibronectin stabilizes the attachment of ECM to cells by acting as binding sites for cell surface receptors and plays a role in odontoblast polarization [15,16,17]. We found that TM14 was a cell adhesion molecule for dental mesenchyme cells and odontoblasts and that it bound to heparin, fibulin-1, DSPP, and fibronectin, suggesting interesting roles of TM14 in odontogenesis. Because of some motif homologies and protein interaction activities similar to fibulins, TM14 may be classified as a new member of the fibulin family, fibulin-7

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Conclusion