P.M. Collier

AN AMELOGENIN GENE DEFECT ASSOCIATED WITH HUMAN X-LINKED AMELOGENESIS IMPERFECTA

Dental enamel is a product of ameloblast cells, which secrete a mineralizing organic matrix, composed primarily of amelogenin proteins. The amelogenins are thought to be crucial for development of normal, highly mineralized enamel. The X-chromosomal amelogenin gene is a candidate gene for those cases of amelogenesis imperfecta, resulting in defective enamel, in which inheritance is X-linked. In this report, a kindred is described that has a C to A mutation resulting in a pro to thr change in exon 6 of the X-chromosomal amelogenin gene in three affected individuals, a change not found in unaffected members of the kindred. The proline that is changed by the mutation is conserved in amelogenin genes from all species examined to date.

Analysis of amelogenin mRNA during bovine tooth development

The amelogenins are highly conserved enamel-matrix proteins that are essential for proper mineral formation. Transcriptionally active genes encoding the bovine amelogenin proteins reside on both the X and Y chromosomes. Comparison of relative levels of amelogenin mRNAs at various stages of development indicated that the X-chromosomal amelogenin message is at least six fold more abundant than the Y. Alternative splicing generates at least seven messages, five from the X primary transcript, and two from the Y. The two most abundant X-chromosomal amelogenin messages are approx. 850 and 450 nucleotides long, and nearly 10-fold more 850-nucleotide mRNA can be measured than 450 nucleotide, which has lost most of exon 6 by splicing. The predominant small message encodes leucine-rich amelogenin protein (LRAP), and amounts of LRAP message are relatively constant during development. However, the amelogenin message from which exon 3 has been spliced declines approximately 2.3-fold, when compared to total X chromosomal amelogenin transcripts, suggesting differential regulation of alternative splicing. In addition, a new exon was identified within genomic DNA, which was shown to be expressed by the use of reverse transcriptase-polymerase chain reaction, and the exons were renamed accordingly. This new exon-4 sequence is unusual in that it is not highly conserved between species.

Analysis of Amelogenin Proteins Using Monospecific Antibodies to Defined Sequences

Amelogenins are the predominant proteins found in the developing enamel matrix and are believed to play a crucial role in normal mineralization. Although the amelogenin gene is found as a single copy in all species in which it has been examined, multiple amelogenin polypeptides ranging in size from 5 to 25 kDa are obtained upon extraction of developing enamel matrix, making identification and characterization of individual components difficult. This heterogeneity may be ascribed to transcription of divergent genes located on the X and Y chromosomes, alternative splicing of the primary transcripts, physiologic degradative processing, and artefactual degradation. In order to characterize individual components, antibodies were produced to the following peptides: (1) QPLQPMQPMQPLQPLQPL (corresponding to the repeat sequence encoded only in the bovine X chromosome gene), (2) IRHPPLPP (corresponding to a unique sequence generated by alternative splicing found in leucine-rich amelogenin peptide (LRAP), (3) LPDLPLEAWPATDKTKREEVD corresponding to the amelogenin carboxy-terminus. Amelogenin proteins obtained from fetal bovine molars were subjected to SDS PAGE and Western electrotransfer, and immuno-ultrastructural analysis. These analyses demonstrated that: (1) the distribution of amelogenin polypeptides isolated from male fetuses differed appreciably from that of females, (2) the LRAP junctional peptide sequence can be specifically identified, and (3) the LRAP peptide can be immunolocalized in the enamel matrix of both males and females.

Comparison of upstream regions of X- and Y-chromosomal amelogenin genes

The amelogenin genes encode abundant enamel proteins that are required for the development of normal tooth enamel. These genes are active only in enamel-forming ameloblasts within the dental organ of the developing tooth, and are part of a small group of genes that are active on both sex chromosomes. The upstream regions of the bovine X- and Y-chromosomal and the sole murine X-chromosomal amelogenin genes have been cloned and sequenced, and conservation at nearly 60% is found in the 300 bp upstream of exon 1 for the 3 genes. A region of the bovine X-chromosomal gene that has inhibitory activity when assayed by gene transfer into heterologous cells includes motifs that have a silencing activity in other genes, and may be important to the mechanism that represses amelogenin expression in non-ameloblast cells in vivo. A comparison of sequences from three genes has led to the identification of several regions with conserved motifs that are strong candidates for having positive or negative regulatory functions, and these regions can now be tested further for interaction with nuclear proteins, and for their ability to regulate expression in vivo.

Analysis of the regulatory region of the bovine X-chromosomal amelogenin gene.

The amelogenin proteins, which are crucial for normal enamel mineral formation, are secreted by ameloblasts during development of tooth enamel. In order to better understand the mechanisms involved in regulation of expression of the amelogenin genes, the bovine X-chromosomal amelogenin gene was cloned and a 3.5 KB fragment upstream of exon 1 was inserted into a beta galactosidase (beta gal) expression vector for production of transgenic mice. When tissues from these mice were treated with Xgal, a substrate for beta gal, only ameloblasts and some of the adjacent stratum intermedium cells contained blue stain. To obtain further information concerning regulation of expression, the 3.5 KB amelogenin gene fragment was evaluated in transfection experiments. Nonoverlapping 1.9 and 1.5 KB fragments of the upstream region were subcloned separately into a vector that contains the SV40 promoter and the CAT reporter gene. Each amelogenin gene fragment was able to suppress CAT activity driven by the heterologous SV40 promoter in transfected HeLa cells. We theorize that each of these gene fragments contains regulatory elements important for the tissue-specific and developmentally-regulated pattern of expression of the X-chromosomal amelogenin gene.

Albumin Gene Expression During Mouse Odontogenesis

Albumin protein is present in developing teeth of several species. Oligomer primers and cRNA probes specific for albumin were designed to perform RT-PCR, and for in situ hybridization, respectively. In situ hybridization failed to reveal albumin expression in any tooth cells, however, albumin PCR products were amplified from tissues adhering to the roots of developing teeth from four-week-old mice. It is concluded that this source is not the primary source of albumin protein found in developing enamel, because of the location and level of expression of albumin mRNA in periodontal tissue.

An Amelogenin Gene Mutation Associated with X-linked Amelogenesis Imperfecta

A kindred was described with X-linked hypo-maturation Amelogenesis Imperfecta, in which the teeth of the propositus had mottled yellowish white enamel and his mother had vertical bands of opaque white and translucent enamel (Sauk et al., Am. J. Hum. Genet., 24, 267, 1972). Members of this family were contacted to obtain blood samples, in order to search for a mutation within the coding region of the X-chromosomal amelogenin gene. Primers were designed to amplify by the polymerase chain reaction (PCR) the coding regions: PCR products were sequenced directly, or cloned and sequenced. A point mutation was identified in the sequence encoding the 8th amino acid (pro > thr) of exon-6 of three affected family members. Two unaffected sisters of the propositus each had the normal DNA sequence as described by Salido et al. (Am. J. Hum. Genet., 50, 303, 1992). This proline is conserved in human X and Y chromosomal amelogenin genes, as well as in cow, pig, mouse, rat and opossum amelogenins, and is located within a h...