Impaired osteoblastic differentiation, reduced bone formation, and severe osteoporosis in noggin-overexpressing mice
Xue-Bin Wu, Yanan Li, Adina Schneider, Wanqin Yu, Gopalan Rajendren, Jameel Iqbal, Matsuo Yamamoto, Mohammad Alam, Lisa J. Brunet, Harry C. Blair, Mone Zaidi, Etsuko Abe
Xue-Bin Wu, Yanan Li, Adina Schneider, Wanqin Yu, Gopalan Rajendren, Jameel Iqbal, Matsuo Yamamoto, Mohammad Alam, Lisa J. Brunet, Harry C. Blair, Mone Zaidi, Etsuko Abe
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Article Bone biology

Impaired osteoblastic differentiation, reduced bone formation, and severe osteoporosis in noggin-overexpressing mice

Abstract

We describe the effects of the overexpression of noggin, a bone morphogenetic protein (BMP) inhibitor, on osteoblast differentiation and bone formation. Cells of the osteoblast and chondrocyte lineages, as well as bone marrow macrophages, showed intense β-gal histo- or cytostaining in adult noggin+/– mice that had a LacZ transgene inserted at the site of noggin deletion. Despite identical BMP levels, however, osteoblasts of 20-month-old C57BL/6J and 4-month-old senescence-accelerated mice (SAM-P6 mice) had noggin expression levels that were approximately fourfold higher than those of 4-month-old C57BL/6J and SAM-R1 (control) mice, respectively. U-33 preosteoblastic cells overexpressing the noggin gene showed defective maturation and, in parallel, a decreased expression of Runx-2, bone sialoprotein, osteocalcin, and RANK-L. Noggin did not inhibit the ligandless signaling and pro-differentiation action of the constitutively activated BMP receptor type 1A, ca-ALK-3. Transgenic mice overexpressing noggin in mature osteocalcin-positive osteoblasts showed dramatic decreases in bone mineral density and bone formation rates with histological evidence of decreased trabecular bone and CFU-osteoblast colonies at 4 and 8 months. Together, the results provide compelling evidence that noggin, expressed in mature osteoblasts, inhibits osteoblast differentiation and bone formation. Thus, the overproduction of noggin during biological aging may result in impaired osteoblast formation and function and hence, net bone loss.

Authors

Xue-Bin Wu, Yanan Li, Adina Schneider, Wanqin Yu, Gopalan Rajendren, Jameel Iqbal, Matsuo Yamamoto, Mohammad Alam, Lisa J. Brunet, Harry C. Blair, Mone Zaidi, Etsuko Abe

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Noggin expression in SAM-P6 mice and aged mice. Cell lysates (100 μg pro...
Noggin expression in SAM-P6 mice and aged mice. Cell lysates (100 μg protein) prepared from long bone (a) and calvaria (b and c) of SAM-R1 (R1) and SAM-P6 (P6) mice (a and b) or from young (4-month-old) and old (20-month-old) mice (c) were subjected to Western blot to detect noggin protein expression. Band intensities of noggin expression in the top panels, which represent samples from individual animals, were quantified for β-actin expression and expressed in the graphs as a ratio of noggin to β-actin. (d and e) Noggin and BMP-4 expression in bone marrow cell cultures of young and old mice (C57BL/6J) or SAM-R1 (R1) and SAM-P6 (P6) mice were analyzed by real-time RT-PCR after culturing with 1 mM ascorbic acid–2-phosphate for 4 weeks. Gene expression is indicated as a ratio to the young or R1 control mice. *P < 0.05, significantly different from SAM-R1 or young control mice.