Mitochondrial Sirt3 contributes to the bone loss caused by aging or estrogen deficiency
Wen Ling, Kimberly Krager, Kimberly K. Richardson, Aaron D. Warren, Filipa Ponte, Nukhet Aykin-Burns, Stavros C. Manolagas, Maria Almeida, Ha-Neui Kim
Wen Ling, Kimberly Krager, Kimberly K. Richardson, Aaron D. Warren, Filipa Ponte, Nukhet Aykin-Burns, Stavros C. Manolagas, Maria Almeida, Ha-Neui Kim
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Research Article Bone biology

Mitochondrial Sirt3 contributes to the bone loss caused by aging or estrogen deficiency

Abstract

Altered mitochondria activity in osteoblasts and osteoclasts has been implicated in the loss of bone mass associated with aging and estrogen deficiency — the 2 most common causes of osteoporosis. However, the mechanisms that control mitochondrial metabolism in bone cells during health or disease remain unknown. The mitochondrial deacetylase sirtuin-3 (Sirt3) has been earlier implicated in age-related diseases. Here, we show that deletion of Sirt3 had no effect on the skeleton of young mice but attenuated the age-related loss of bone mass in both sexes. This effect was associated with impaired bone resorption. Osteoclast progenitors from aged Sirt3-null mice were able to differentiate into osteoclasts, though the differentiated cells exhibited impaired polykaryon formation and resorptive activity, as well as decreased oxidative phosphorylation and mitophagy. The Sirt3 inhibitor LC-0296 recapitulated the effects of Sirt3 deletion in osteoclast formation and mitochondrial function, and its administration to aging mice increased bone mass. Deletion of Sirt3 also attenuated the increase in bone resorption and loss of bone mass caused by estrogen deficiency. These findings suggest that Sirt3 inhibition and the resulting impairment of osteoclast mitochondrial function could be a novel therapeutic intervention for the 2 most important causes of osteoporosis.

Authors

Wen Ling, Kimberly Krager, Kimberly K. Richardson, Aaron D. Warren, Filipa Ponte, Nukhet Aykin-Burns, Stavros C. Manolagas, Maria Almeida, Ha-Neui Kim

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Figure 7

Administration of LC-0296 increases bone mass in aging mice by attenuating bone resorption.

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Administration of LC-0296 increases bone mass in aging mice by attenuati...
(A) Schedule of LC-0296 administration (5 μg/g body weight, 100 μL/each i.p. injection) to 12-month-old female C57BL/6 mice. (B and C) Representative images (B) and cortical thickness (C) of femoral cortical bone at midshaft. Scale bar: 100 μm. (D) BV/TV of trabecular bone in L5 measured by micro-CT (n = 13–15 animals/group). (E) Serum CTx by ELISA (n = 11 animals/group). (FH) Osteoclasts developed in cultures of BMMs from 16-month-old female C57BL/6 mice with M-CSF (30 ng/mL) and RANKL (30 ng/mL) for 5 days (F) or 3 days (G and H), in the presence or absence of LC-0296 (10 nM). (F) Representative pictures (left) and number (right) of TRAP+ multinucleated osteoclasts (triplicate cultures). Scale bar: 500 μm. (G) Osteoclast marker levels in mRNA of cultured osteoclasts measured by qPCR (triplicate cultures). (H) Mitochondrial respiration per cell, measured by Seahorse (n = 14–16 wells/group). Data are presented as ± SD. P values determined using Student’s t test. All in vitro assays were performed in cultured BMMs pooled from 3 mice.