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1.
Bone ; 120: 411-422, 2019 03.
Article in English | MEDLINE | ID: mdl-30529011

ABSTRACT

The two SIBLING (Small Integrin Binding Ligand N-linked Glycoproteins), bone sialoprotein (BSP) and osteopontin (OPN) are expressed in osteoblasts and osteoclasts. In mature BSP knockout (KO, -/-) mice, both bone formation and resorption as well as mineralization are impaired. OPN-/- mice display impaired resorption, and OPN is described as an inhibitor of mineralization. However, OPN is overexpressed in BSP-/- mice, complicating the understanding of their phenotype. We have generated and characterized mice with a double KO (DKO) of OPN and BSP, to try and unravel their respective contributions. Despite the absence of OPN, DKO bones are still hypomineralized. The SIBLING, matrix extracellular phosphoglycoprotein with ASARM motif (MEPE) is highly overexpressed in both BSP-/- and DKO and may impair mineralization through liberation of its ASARM (Acidic Serine-Aspartate Rich MEPE associated) peptides. DKO mice also display evidence of active formation of trabecular, secondary bone as well as primary bone in the marrow-ablation repair model. A higher number of osteoclasts form in DKO marrow cultures, with higher resorption activity, and DKO long bones display a localized and conspicuous cortical macroporosity. High bone formation and resorption parameters, and high cortical porosity in DKO mice suggest an active bone modeling/remodeling, in the absence of two key regulators of bone cell performance. This first double KO of SIBLING proteins thus results in a singular, non-trivial phenotype leading to reconsider the interpretation of each single KO, concerning in particular matrix mineralization and the regulation of bone cell activity.


Subject(s)
Bone Remodeling/physiology , Bone and Bones/physiopathology , Calcification, Physiologic/physiology , Gene Deletion , Integrin-Binding Sialoprotein/deficiency , Osteopontin/deficiency , Animals , Biomarkers/metabolism , Bone Marrow/pathology , Bone Matrix/physiopathology , Cancellous Bone/physiopathology , Cell Differentiation , Extracellular Matrix Proteins/metabolism , Gene Expression Regulation , Integrin-Binding Sialoprotein/metabolism , Mice, Knockout , Osteoblasts/metabolism , Osteoclasts/metabolism , Osteogenesis , Osteopontin/metabolism , Reproducibility of Results
2.
Bone ; 105: 134-147, 2017 Dec.
Article in English | MEDLINE | ID: mdl-28866368

ABSTRACT

Although acellular cementum is essential for tooth attachment, factors directing its development and regeneration remain poorly understood. Inorganic pyrophosphate (PPi), a mineralization inhibitor, is a key regulator of cementum formation: tissue-nonspecific alkaline phosphatase (Alpl/TNAP) null mice (increased PPi) feature deficient cementum, while progressive ankylosis protein (Ank/ANK) null mice (decreased PPi) feature increased cementum. Bone sialoprotein (Bsp/BSP) and osteopontin (Spp1/OPN) are multifunctional extracellular matrix components of cementum proposed to have direct and indirect effects on cell activities and mineralization. Studies on dentoalveolar development of Bsp knockout (Bsp-/-) mice revealed severely reduced acellular cementum, however underlying mechanisms remain unclear. The similarity in defective cementum phenotypes between Bsp-/- mice and Alpl-/- mice (the latter featuring elevated PPi and OPN), prompted us to examine whether BSP is operating by modulating PPi-associated genes. Genetic ablation of Bsp caused a 2-fold increase in circulating PPi, altered mRNA expression of Alpl, Spp1, and Ank, and increased OPN protein in the periodontia. Generation of a Bsp knock-out (KO) cementoblast cell line revealed significantly decreased mineralization capacity, 50% increased PPi in culture media, and increased Spp1 and Ank mRNA expression. While addition of 2µg/ml recombinant BSP altered Spp1, Ank, and Enpp1 expression in cementoblasts, changes resulting from this dose were not dependent on the integrin-binding RGD motif or MAPK/ERK signaling pathway. Decreasing PPi by genetic ablation of Ank on the Bsp-/- mouse background reestablished cementum formation, allowing >3-fold increased acellular cementum volume compared to wild-type (WT). However, deleting Ank did not fully compensate for the absence of BSP. Bsp-/-; Ank-/- double-deficient mice exhibited mean 20-27% reduced cementum thickness and volume compared to Ank-/- mice. From these data, we conclude that the perturbations in PPi metabolism are not solely driving the cementum pathology in Bsp-/- mice, and that PPi is more potent than BSP as a cementum regulator, as shown by the ability to override loss of BSP by lowering PPi. We propose that BSP and PPi work in concert to direct mineralization in cementum and likely other mineralized tissues.


Subject(s)
Calcification, Physiologic , Cementogenesis/drug effects , Diphosphates/pharmacology , Integrin-Binding Sialoprotein/metabolism , Animals , Calcification, Physiologic/drug effects , Dental Cementum/drug effects , Dental Cementum/metabolism , Gene Deletion , Gene Expression Regulation/drug effects , Integrin-Binding Sialoprotein/deficiency , Mice, Knockout , Periodontium/metabolism , Phenotype , Phosphate Transport Proteins/metabolism , Phosphorylation/drug effects
3.
J Cell Physiol ; 232(9): 2528-2537, 2017 Sep.
Article in English | MEDLINE | ID: mdl-27704558

ABSTRACT

The bone organ integrates the activity of bone tissue, bone marrow, and blood vessels and the factors ensuring this coordination remain ill defined. Bone sialoprotein (BSP) is with osteopontin (OPN) a member of the small integrin binding ligand N-linked glycoprotein (SIBLING) family, involved in bone formation, hematopoiesis and angiogenesis. In rodents, bone marrow ablation induces a rapid formation of medullary bone which peaks by ∼8 days (d8) and is blunted in BSP-/- mice. We investigated the coordinate hematopoietic and vascular recolonization of the bone shaft after marrow ablation of 2 month old BSP+/+ and BSP-/- mice. At d3, the ablated area in BSP-/- femurs showed higher vessel density (×4) and vascular volume (×7) than BSP+/+. Vessel numbers in the shaft of ablated BSP+/+ mice reached BSP-/- values only by d8, but with a vascular volume which was twice the value in BSP-/-, reflecting smaller vessel size in ablated mutants. At d6, a much higher number of Lin- (×3) as well as LSK (Lin- IL-7Rα- Sca-1hi c-Kithi , ×2) and hematopoietic stem cells (HSC: Flt3- LSK, ×2) were counted in BSP-/- marrow, indicating a faster recolonization. However, the proportion of LSK and HSC within the Lin- was lower in BSP-/- and more differentiated stages were more abundant, as also observed in unablated bone, suggesting that hematopoietic differentiation is favored in the absence of BSP. Interestingly, unablated BSP-/- femur marrow also contains more blood vessels than BSP+/+, and in both intact and ablated shafts expression of VEGF and OPN are higher, and DMP1 lower in the mutants. In conclusion, bone marrow ablation in BSP-/- mice is followed by a faster vascular and hematopoietic recolonization, along with lower medullary bone formation. Thus, lack of BSP affects the interplay between hematopoiesis, angiogenesis, and osteogenesis, maybe in part through higher expression of VEGF and the angiogenic SIBLING, OPN. J. Cell. Physiol. 232: 2528-2537, 2017. © 2016 Wiley Periodicals, Inc.


Subject(s)
Bone Marrow/blood supply , Bone Marrow/metabolism , Femur/blood supply , Femur/metabolism , Hematopoiesis , Hematopoietic Stem Cells/metabolism , Integrin-Binding Sialoprotein/deficiency , Neovascularization, Physiologic , Osteogenesis , Ablation Techniques , Animals , Biomarkers/metabolism , Bone Marrow/pathology , Bone Marrow/surgery , Cell Proliferation , Extracellular Matrix Proteins/genetics , Extracellular Matrix Proteins/metabolism , Femur/pathology , Femur/surgery , Genotype , Hematopoietic Stem Cells/pathology , Integrin-Binding Sialoprotein/genetics , Male , Mice, Knockout , Osteopontin/genetics , Osteopontin/metabolism , Phenotype , Signal Transduction , Time Factors , Vascular Endothelial Growth Factor A/genetics , Vascular Endothelial Growth Factor A/metabolism
4.
Bone ; 71: 145-54, 2015 Feb.
Article in English | MEDLINE | ID: mdl-25464126

ABSTRACT

Bone sialoprotein (BSP) is an anionic phosphoprotein in the extracellular matrix of mineralized tissues, and a promoter of biomineralization and osteoblast development. Previous studies on the Bsp-deficient mouse (Bsp(-/-)) have demonstrated a significant bone and periodontal tissue phenotype in adulthood. However, the role of BSP during early long bone development is not known. To address this, early endochondral ossification in the Bsp(-/-) mouse was studied. Embryonic day 15.5 (E15.5) wild-type (WT) tibiae showed early stages of ossification that were absent in Bsp(-/-) mice. At E16.5, mineralization had commenced in the Bsp(-/-) mice, but staining for mineral was less intense and more dispersed compared with that in WT controls. Tibiae from Bsp(-/-) mice also demonstrated decreased mineralization and shortened length at postnatal day 0.5 (P0.5) compared to WT bones. There was no detectable difference in the number of tartrate-resistant acid phosphatase-positive foci at P0.5, although the P0.5 Bsp(-/-) tibiae had decreased Vegfα expression compared with WT tissue. Due to the shortened tibiae the growth plates were examined and determined to be of normal overall length. However, the length of the resting zone was increased in P0.5 Bsp(-/-) tibiae whereas that of the proliferative zone was decreased, with no change in the hypertrophic zone length of Bsp(-/-) mice. A reduction in cells positive for Ki-67, an S-phase cell-cycle marker, was noted in the proliferative zone. Decreased numbers of TUNEL-positive hypertrophic chondrocytes were also apparent in the Bsp(-/-) tibial growth plates, suggesting decreased apoptosis. Expression of the osteogenic markers Alp1, Col1a1, Sp7, Runx2, and Bglap was reduced in the endochondral bone of the neonatal Bsp(-/-) compared to WT tibiae. These results suggest that BSP is an important and multifaceted protein that regulates both chondrocyte proliferation and apoptosis as well as transition from cartilage to bone during development of endochondral bone.


Subject(s)
Bone Development , Calcification, Physiologic , Integrin-Binding Sialoprotein/deficiency , Animals , Animals, Newborn , Biomarkers/metabolism , Bone Development/genetics , Bone Remodeling , Calcification, Physiologic/genetics , Chondrocytes/metabolism , Gene Expression Regulation , Gene Expression Regulation, Developmental , Growth Plate/pathology , Growth Plate/physiopathology , Integrin-Binding Sialoprotein/genetics , Integrin-Binding Sialoprotein/metabolism , Mice , Microdissection , Real-Time Polymerase Chain Reaction , Tibia/growth & development , Tibia/metabolism , Tibia/physiopathology
5.
J Cell Physiol ; 230(6): 1342-51, 2015 Jun.
Article in English | MEDLINE | ID: mdl-25502698

ABSTRACT

Matrix proteins of the SIBLING family interact with bone cells, extracellular matrix and mineral and are thus in a key position to regulate the microenvironment of the bone tissue, including its hematopoietic component. In this respect, osteopontin (OPN) has been implicated in the hematopoietic stem cell (HSC) niche as negative regulator of the HSC function. We investigated the impact on hematopoietic regulation of the absence of the cognate bone sialoprotein (BSP). BSP knockout (-/-) mice display increased bone marrow cellularity, and an altered commitment of hematopoietic precursors to myeloid lineages, leading in particular to an increased frequency of monocyte/macrophage cells. The B cell pool is increased in -/- bone marrow, and its composition is shifted toward more mature lymphocyte stages. BSP-null mice display a decreased HSC fraction among LSK cells and a higher percentage of more committed progenitors as compared to +/+. The fraction of proliferating LSK progenitors is higher in -/- mice, and after PTH treatment the mutant HSC pool is lower than in +/+. Strikingly, circulating levels of OPN as well as its expression in the bone tissue are much higher in the -/-. Thus, a BSP-null bone microenvironment affects the hematopoietic system both quantitatively and qualitatively, in a manner in part opposite to the OPN knockout, suggesting that the effects might in part reflect the higher OPN expression in the absence of BSP.


Subject(s)
Bone Marrow/metabolism , Hematopoiesis/physiology , Integrin-Binding Sialoprotein/deficiency , Integrin-Binding Sialoprotein/metabolism , Osteopontin/metabolism , Animals , Bone and Bones/metabolism , Hematopoiesis/genetics , Mice , Mice, Nude , Osteogenesis/physiology , Transcriptional Activation , Up-Regulation
6.
PLoS One ; 8(5): e62936, 2013.
Article in English | MEDLINE | ID: mdl-23667544

ABSTRACT

Bone sialoprotein (BSP) has been implicated in a variety of physiological and pathophysiological events, including tumor cell invasion, bone homing, adhesion, and matrix degradation. To explore the potential involvement of BSP in human breast cancer cell invasion and metastasis, we used retrovirus-mediated RNAi to deplete BSP levels in the human bone-seeking breast cancer cell line MDA-MB-231BO (231BO) and established the 231BO-BSP27 and 231BO-BSP81 cell clones. Cell proliferation, colony formation, wound healing, and the ability to invade into matrigel of these BSP-depleted clones were all decreased. Both 231BO-BSP27 cells and 231BO-BSP81 cells showed a significant (15.4% and 28.6% respectively) reduction of bone metastatic potential following intracardiac injection as determined by X-ray detection and by hematoxylin and eosin staining. Moreover, the expression of integrins αvß3 and ß3 was decreased in the BSP-silenced cells whereas ectopic BSP expression increased the integrins αvß3 and ß3 levels. These results together suggest that BSP silencing decreased the integrin αvß3 and ß3 levels, in turn inhibiting cell migration and invasion and decreasing the ability of the cells to metastasize to bone.


Subject(s)
Bone Neoplasms/secondary , Breast Neoplasms/pathology , Cell Movement/genetics , Gene Silencing , Integrin-Binding Sialoprotein/deficiency , Integrin-Binding Sialoprotein/genetics , Cell Line, Tumor , Cell Proliferation , Clone Cells/pathology , Gene Expression Regulation, Neoplastic/genetics , Humans , Integrin alphaVbeta3/metabolism , Integrin beta3/metabolism , Integrin-Binding Sialoprotein/metabolism , Neoplasm Invasiveness , Stem Cells/pathology
7.
J Bone Miner Res ; 25(12): 2669-79, 2010 Dec.
Article in English | MEDLINE | ID: mdl-20812227

ABSTRACT

Bone sialoprotein (BSP) and osteopontin (OPN) belong to the small integrin-binding ligand N-linked glycoprotein (SIBLING) family, whose members interact with bone cells and bone mineral. Previously, we showed that BSP knockout (BSP(-/-) ) mice have a higher bone mass than wild type (BSP(+/+) ) littermates, with very low bone-formation activity and reduced osteoclast surfaces and numbers. Here we report that approximately twofold fewer tartrate-resistant acid phosphatase (TRACP)-positive cells and approximately fourfold fewer osteoclasts form in BSP(-/-) compared with BSP(+/+) spleen cell cultures. BSP(-/-) preosteoclast cultures display impaired proliferation and enhanced apoptosis. Addition of RGD-containing proteins restores osteoclast number in BSP(-/-) cultures to BSP(+/+) levels. The expression of osteoclast-associated genes is markedly altered in BSP(-/-) osteoclasts, with reduced expression of cell adhesion and migration genes (αV integrin chain and OPN) and increased expression of resorptive enzymes (TRACP and cathepsin K). The migration of preosteoclasts and mature osteoclasts is impaired in the absence of BSP, but resorption pit assays on dentine slices show no significant difference in pit numbers between BSP(+/+) and BSP(-/-) osteoclasts. However, resorption of mineral-coated slides by BSP(-/-) osteoclasts is markedly impaired but is fully restored by coating the mineral substrate with hrBSP and partly restored by hrOPN coating. In conclusion, lack of BSP affects both osteoclast formation and activity, which is in accordance with in vivo findings. Our results also suggest at least some functional redundancy between BSP and OPN that remains to be clarified.


Subject(s)
Bone Resorption/metabolism , Integrin-Binding Sialoprotein/deficiency , Minerals/metabolism , Osteoclasts/metabolism , Osteogenesis , Animals , Apoptosis/drug effects , Biomarkers/metabolism , Cell Count , Cell Differentiation/drug effects , Cell Movement/drug effects , Cell Proliferation/drug effects , Cells, Cultured , Dentin/metabolism , Durapatite/pharmacology , Gene Expression Profiling , Humans , Integrin-Binding Sialoprotein/genetics , Integrin-Binding Sialoprotein/metabolism , Mice , Oligopeptides/pharmacology , Osteoclasts/drug effects , Osteoclasts/pathology , Osteogenesis/drug effects , Osteopontin/genetics , Osteopontin/metabolism , Recombinant Proteins/pharmacology , Spleen/cytology
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