Maya Boudiffa scite author profile

Bone sialoprotein (BSP) and osteopontin (OPN) are both highly expressed in bone, but their functional specificities are unknown. OPN knockout (−/−) mice do not lose bone in a model of hindlimb disuse (tail suspension), showing the importance of OPN in bone remodeling. We report that BSP−/− mice are viable and breed normally, but their weight and size are lower than wild-type (WT) mice. Bone is undermineralized in fetuses and young adults, but not in older (≥12 mo) BSP−/− mice. At 4 mo, BSP−/− mice display thinner cortical bones than WT, but greater trabecular bone volume with very low bone formation rate, which indicates reduced resorption, as confirmed by lower osteoclast surfaces. Although the frequency of total colonies and committed osteoblast colonies is the same, fewer mineralized colonies expressing decreased levels of osteoblast markers form in BSP−/− versus WT bone marrow stromal cultures. BSP−/− hematopoietic progenitors form fewer osteoclasts, but their resorptive activity on dentin is normal. Tail-suspended BSP−/− mice lose bone in hindlimbs, as expected. In conclusion, BSP deficiency impairs bone growth and mineralization, concomitant with dramatically reduced bone formation. It does not, however, prevent the bone loss resulting from loss of mechanical stimulation, a phenotype that is clearly different from OPN−/− mice.

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Bone sialoprotein plays a functional role in bone formation and osteoclastogenesis

Malaval¹,

Wade‐Gueye²,

Boudiffa³

et al. 2008

J Cell Biol

126

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Inositol Polyphosphate 4-Phosphatase B as a Regulator of Bone Mass in Mice and Humans

et al. 2011

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Summary Osteoporosis is a multifactorial genetic disease characterized by reduction of bone mass due to dysregulation of osteoclast differentiation or maturation. Herein, we identified a novel regulator of osteoclastogenesis, the murine homologue of inositol polyphosphate 4-phosphatase type IIa (Inpp4bα). Expression of Inpp4bα is detected from early osteoclast differentiation to activation stage. Targeted expression of native Inpp4bα ex-vivo repressed whereas phosphatase-inactive Inpp4ba stimulated osteoclast differentiation. Inpp4bα acts on intracellular calcium level that modulates NFATc1 nuclear translocation and activation. In vivo mice deficient in Inpp4b displayed increased osteoclast differentiation rate and potential resulting in decreased bone mass and osteoporosis. Importantly, INPP4B in human was identified as a susceptibility locus for osteoporosis. This study defined Inpp4b as a major modulator of the osteoclast differentiation and as a gene linked to variability of bone mineral density in mice and humans.

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Maya Boudiffa

The chondrocyte clock gene Bmal1 controls cartilage homeostasis and integrity

Bone sialoprotein plays a functional role in bone formation and osteoclastogenesis

Bone sialoprotein plays a functional role in bone formation and osteoclastogenesis

Inositol Polyphosphate 4-Phosphatase B as a Regulator of Bone Mass in Mice and Humans

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