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Contributions of increased osteopontin and hypophosphatemia to dentoalveolar defects in osteomalacic Hyp mice.

Authors :
Mohamed, Fatma F.
Hoac, Betty
Phanrungsuwan, Aonjittra
Tan, Michelle H.
Giovani, Priscila Alves
Ghiba, Sana
Murshed, Monzur
Foster, Brian L.
McKee, Marc D.
Source :
BONE. Nov2023, Vol. 176, pN.PAG-N.PAG. 1p.
Publication Year :
2023

Abstract

X-linked hypophosphatemia (XLH) is an inherited disorder caused by inactivating mutations in the PHEX gene leading to renal phosphate wasting, rickets and osteomalacia. XLH is also associated with dentoalveolar mineralization defects in tooth enamel, dentin and cementum, and in alveolar bone, which lead to an increased prevalence of dental abscesses, periodontal disease and tooth loss. Genetic mouse experiments, and deficiencies in XLH patient therapies where treatments do not fully ameliorate mineralization defects, suggest that other pathogenic mechanisms may exist in XLH. The mineralization-inhibiting, secreted extracellular matrix phosphoprotein osteopontin (OPN, gene Spp1) is a substrate for the PHEX enzyme whereby extensive and inactivating degradation of inhibitory OPN by PHEX facilitates mineralization. Conversely, excess OPN accumulation in skeletal and dental tissues – for example in XLH where inactivating mutations in the PHEX gene limit degradation of inhibitory OPN, or as occurs in Fgf23 -null mice – contributes to mineralization defects. We hypothesized that Spp1 /OPN ablation in Hyp mice (a mouse model for XLH) would reduce dentoalveolar mineralization defects. Immunostaining revealed increased OPN in Hyp vs. wild-type (WT) alveolar bone, particularly in osteocyte lacunocanalicular networks where Hyp mice have characteristic hypomineralized peri-osteocytic lesions (POLs). Micro-computed tomography and histology showed that ablation of Spp1 in Hyp mice (Hyp;Spp1 −/− ) on a normal diet did not ameliorate bulk defects in enamel, dentin, or alveolar bone. On a high-phosphate diet, both Hyp and Hyp;Spp1 −/− mice showed improved mineralization of enamel, dentin, and alveolar bone. Silver staining indicated Spp1 ablation did not improve alveolar or mandibular bone osteocyte POLs in Hyp mice; however, they were normalized by a high-phosphate diet in both Hyp and Hyp;Spp1 −/− mice, although inducing increased OPN. Collectively, these data indicate that despite changes in OPN content in the dentoalveolar mineralized tissues, there exist other compensatory mineralization mechanisms that arise from knockout of Spp1 /OPN in the Hyp background. • Levels of osteopontin (Spp1 /OPN), a mineralization-inhibiting non-collagenous matrix protein, are increased in dentoalveolar tissues of the Hyp mutant mouse model of X-linked hypophosphatemia (XLH) • Genetic ablation of Spp1 /OPN in Hyp mice did not reduce mineralization defects in most dentoalveolar tissues • High phosphate diet markedly improved many mineralization measurements in Hyp and Hyp ; Spp1 double deficient mouse dentoalveolar tissues, with some indication of interaction between genotype and diet [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
87563282
Volume :
176
Database :
Academic Search Index
Journal :
BONE
Publication Type :
Academic Journal
Accession number :
171989157
Full Text :
https://doi.org/10.1016/j.bone.2023.116886