Skeletal Development of Mice Lacking Bone Sialoprotein (BSP) - Impairment of Long Bone Growth and Progressive Establishment of High Trabecular Bone Mass

Bouleftour, Wafa; Boudiffa, Maya; Wade‐Gueye, Ndéye Marième; Bouet, Guénaëlle; Cardelli, Marco; Laroche, Norbert; Vanden‐Bossche, Arnaud; Thomas, Mireille; Bonnelye, Edith; Aubin, Jane E.; Vico, Laurence; Lafage-Proust, Marie-Hélène; Malaval, Luc

doi:10.1371/journal.pone.0095144

Cited by 47 publications

(47 citation statements)

References 28 publications

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“…While there was no difference in the overall length of the growth plate in newborn Bsp −/− versus WT mice, in agreement with the first published work on the Bsp −/− mice by the Malaval group [25], we observed the resting and proliferative zone lengths were increased and decreased, respectively, with no change in hypertrophic zone length in the P0.5 Bsp −/− growth plates. This differs from the recent work published by Malaval's group 1 where they observed reduced thickness of both the growth plate and the hypertrophic zone length in newborn Bsp −/− mice [35]. At present, we cannot explain these apparent differences; however, differences in housing conditions, animal chow, and/or breeding strategies could be responsible.…”

Section: Malaval Et Al Have Characterized the Defects In The Long Bocontrasting

confidence: 98%

“…In our study, the mineralized regions of neonatal tibiae from the Bsp −/− mice show a different picture of osteogenic marker expression during development: a normal expression of Spp1 but the decreased expression of other osteogenic cell markers (Alp1, Col1a1, Sp7, Runx2, Bglap) suggesting fewer mature osteoblasts in the Bsp −/− mouse. This is similar to the recently published work on young P6 whole bone extracts from the Bsp −/− mouse [35]. This discrepancy in expression patterns between developing and mature bone suggests multiple roles for BSP at different stages of development.…”

Section: Malaval Et Al Have Characterized the Defects In The Long Bosupporting

confidence: 90%

“…Drawing a parallel between the chondrocytes and osteoblasts, we propose the following model for BSP's role in chondrocyte maturation within the growth plate. Lowlevel BSP expression in the chondrocytes initiates cell proliferation 1 After submission of this manuscript, Reference [35] by the Malaval group was published online. from the resting phase while also helping to maintain their proliferative capacity as they mature.…”

Section: Malaval Et Al Have Characterized the Defects In The Long Bomentioning

confidence: 99%

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Loss of bone sialoprotein leads to impaired endochondral bone development and mineralization

Holm

Aubin

Hunter

et al. 2015

Bone

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Section: Malaval Et Al Have Characterized the Defects In The Long Bocontrasting

confidence: 98%

Section: Malaval Et Al Have Characterized the Defects In The Long Bosupporting

confidence: 90%

Section: Malaval Et Al Have Characterized the Defects In The Long Bomentioning

confidence: 99%

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Loss of bone sialoprotein leads to impaired endochondral bone development and mineralization

Holm

Aubin

Hunter

et al. 2015

Bone

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“…Secondly, morphometric microarchitecture of the bones in KO mice on standard diet or those supplemented either with 12xETD or 12xAST was evaluated by mCT followed by 3D reconstruction and segmentation. In agreement with previous publications, 29,30 there were significant differences between the male and female mice on bone microarchitecture (Fig. 3).…”

Section: Effects Of Bisphosphonates On Bone Morphology and Mineralizasupporting

confidence: 93%

The effects of bisphosphonates on ectopic soft tissue mineralization caused by mutations in the ABCC6 gene

Sundberg

Levine

et al. 2015

Cell Cycle

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Abbreviations: PXE, pseudoxanthoma elasticum; GACI, generalized arterial calcification of infancy; ETD, etidronate disodium;AST, alendronate sodium trihydrate; KO, knock-out; WT, wild-type.Pseudoxanthoma elasticum (PXE) and generalized arterial calcification of infancy (GACI) are heritable ectopic mineralization disorders. Most cases of PXE and many cases of GACI harbor mutations in the ABCC6 gene. There is no effective treatment for these disorders. We explored the potential efficacy of bisphosphonates to prevent ectopic calcification caused by ABCC6 mutations by feeding Abcc6 ¡/¡ mice with diet containing etidronate disodium (ETD) or alendronate sodium trihydrate (AST) in quantities corresponding to 1x, 5x, or 12x of the doses used to treat osteoporosis in humans. The mice were placed on diet at 4 weeks of age, and the degree of mineralization was assessed at 12 weeks by quantitation of the calcium deposits in the dermal sheath of vibrissae, a progressive biomarker of the mineralization, by computerized morphometry of histopathologic sections and by direct chemical assay of calcium. We found that ETD, but not AST, at the 12x dosage, significantly reduced mineralization, suggesting that selected bisphosphonates may be helpful for prevention of mineral deposits in PXE and GACI caused by mutations in the ABCC6 gene, when combined with careful monitoring of efficacy and potential side-effects.

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“…In a femur cortical bone defect model, Bsp −/− mice displayed delayed bone repair (Malaval et al, 2009b; Monfoulet et al, 2010), and in a femur bone marrow ablation model, absence of BSP caused both reduced medullary trabecular bone formation and delayed osteoclastic resorption (Wade-Gueye et al, 2012). Investigations focusing on early stages of long bone development identified alterations in the growth plate, delayed initiation of mineralization, and a reduction in expression of some osteogenic markers in Bsp −/− vs. WT mice (Bouleftour et al, 2014; Holm et al, 2015). …”

Section: Introductionmentioning

confidence: 99%

Mineralization defects in cementum and craniofacial bone from loss of bone sialoprotein

Foster¹,

Ao²,

Willoughby³

et al. 2015

Bone

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Bone sialoprotein (BSP) is a multifunctional extracellular matrix protein found in mineralized tissues, including bone, cartilage, tooth root cementum (both acellular and cellular types), and dentin. In order to define the role BSP plays in the process of biomineralization of these tissues, we analyzed cementogenesis, dentinogenesis, and osteogenesis (intramembranous and endochondral) in craniofacial bone in Bsp null mice and wild-type (WT) controls over a developmental period (1-60 days post natal; dpn) by histology, immunohistochemistry, undecalcified histochemistry, microcomputed tomography (microCT), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and quantitative PCR (qPCR). Regions of intramembranous ossification in the alveolus, mandible, and calvaria presented delayed mineralization and osteoid accumulation, assessed by von Kossa and Goldner's trichrome stains at 1 and 14 dpn. Moreover, Bsp−/− mice featured increased cranial suture size at the early time point, 1 dpn. Immunostaining and PCR demonstrated that osteoblast markers, osterix, alkaline phosphatase, and osteopontin were unchanged in Bsp null mandibles compared to WT. Bsp−/− mouse molars featured a lack of functional acellular cementum formation by histology, SEM, and TEM, and subsequent loss of Sharpey's collagen fiber insertion into the tooth root structure. Bsp−/− mouse alveolar and mandibular bone featured equivalent or fewer osteoclasts at early ages (1 and 14 dpn), however, increased RANKL immunostaining and mRNA, and significantly increased number of osteoclast-like cells (2-5 fold) were found at later ages (26 and 60 dpn), corresponding to periodontal breakdown and severe alveolar bone resorption observed following molar teeth entering occlusion. Dentin formation was unperturbed in Bsp−/− mouse molars, with no delay in mineralization, no alteration in dentin dimensions, and no differences in odontoblast markers analyzed. No defects were identified in endochondral ossification in the cranial base, and craniofacial morphology was unaffected in Bsp−/− mice. These analyses confirm a critical role for BSP in processes of cementogenesis and intramembranous ossification of craniofacial bone, whereas endochondral ossification in the cranial base was minimally affected and dentinogenesis was normal in Bsp−/− molar teeth. Dissimilar effects of loss of BSP on mineralization of dental and craniofacial tissues suggest local differences in the role of BSP and/or yet to be defined interactions with site-specific factors.

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Skeletal Development of Mice Lacking Bone Sialoprotein (BSP) - Impairment of Long Bone Growth and Progressive Establishment of High Trabecular Bone Mass

Cited by 47 publications

References 28 publications

Loss of bone sialoprotein leads to impaired endochondral bone development and mineralization

Loss of bone sialoprotein leads to impaired endochondral bone development and mineralization

The effects of bisphosphonates on ectopic soft tissue mineralization caused by mutations in the ABCC6 gene

Mineralization defects in cementum and craniofacial bone from loss of bone sialoprotein

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