Abstract
Kallikrein 4 (Klk4) is believed to play an essential role in enamel biomineralization, because defects in KLK4 cause hypomaturation amelogenesis imperfecta. We used gene targeting to generate a knockin mouse that replaces the Klk4 gene sequence, starting at the translation initiation site, with a lacZ reporter gene. Correct targeting of the transgene was confirmed by Southern blot and PCR analyses. Histochemical X-gal (5-bromo-4-chloro-3-indolyl-beta-d-galactopyranoside) staining demonstrated expression of beta-galactosidase in maturation stage ameloblasts. No X-gal staining was observed in secretory stage ameloblasts or in odontoblasts. Retained enamel proteins were observed in the maturation stage enamel of the Klk4 null mouse, but not in the Klk4 heterozygous or wild-type mice. The enamel layer in the Klk4 null mouse was normal in thickness and contained decussating enamel rods but was rapidly abraded following weaning, despite the mice being maintained on soft chow. In function the enamel readily fractured within the initial rod and interrod enamel above the parallel enamel covering the dentino-enamel junction. Despite the lack of Klk4 and the retention of enamel proteins, significant levels of crystal maturation occurred (although delayed), and the enamel achieved a mineral density in some places greater than that detected in bone and dentin. An important finding was that individual enamel crystallites of erupted teeth failed to grow together, interlock, and function as a unit. Instead, individual crystallites seemed to spill out of the enamel when fractured. These results demonstrate that Klk4 is essential for the removal of enamel proteins and the proper maturation of enamel crystals.
Highlights
Dental enamel is composed of highly ordered, very long crystals of calcium hydroxyapatite (Ca10(PO4)6(OH)2)
We demonstrate that Klk4 is not expressed by secretory stage ameloblasts, but is expressed by ameloblasts later in enamel formation and is necessary for the proper removal of enamel proteins, the final thickening of enamel crystals, and for hardening of the enamel layer
By replacing the Klk4 translation initiation site and 5Ј code with the nuclear localization signal (NLS)-lacZ translation initiation site and code, we simultaneously knocked out Klk4 expression while knocking in NLSlacZ expression in its place
Summary
Mmp-20, matrix metalloproteinase 20; Klk, kallikrein 4; Cre, Cre recombinase; DEJ, dentino-enamel junction; KI, knockin; Neo, neomycin; NLS, nuclear localization signal; PBS, phosphate-buffered saline; PFA, paraformaldehyde; PGK, phosphoglycerine kinase; PN, postnatal; SEM, scanning electron microscopy; -gal, -galactosidase. Genomic DNA hybridized with the 5Ј probe showing wild-type (38.6 kbp) and targeted allele (9.7 kbp) NheI bands. Gene maps of the targeting construct and wild-type Klk gene show the predicted sizes of the relevant NheI and EcoRV restriction fragments and the hybridization sites for the 5Ј, 3Ј, and Neo probes. Secretory stage ameloblasts, but is expressed by ameloblasts later in enamel formation and is necessary for the proper removal of enamel proteins, the final thickening of enamel crystals, and for hardening of the enamel layer
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