The Glucocorticoid Receptor in Osterix-Expressing Cells Regulates Bone Mass, Bone Marrow Adipose Tissue, and Systemic Metabolism in Female Mice During Aging

Pierce, Jessica L.; Sharma, A.; Roberts, Rachel L.; Yu, Kanglun; Irsik, Debra L.; Choudhary, Vivek; Dorn, Jennifer S; Bensreti, Husam; Benson, Reginald D.; Kaiser, Helen; Khayrullin, Andrew; Davis, Colleen; Wehrle, Chase J.; Johnson, Maribeth H.; Bollag, Wendy B.; Hamrick, Mark W.; Shi, Xingming; Isales, Carlos M.; McGee‐Lawrence, Meghan E.

doi:10.1002/jbmr.4468

Cited by 15 publications

(7 citation statements)

References 69 publications

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“…Contrary to estrogens, the steroid hormone cortisol can upregulate BMA. Cortisol and glucocorticoid receptor knock-out have been associated with higher BMA 58 . In our cohort, morning cortisol levels increased in both sexes during spaceflight and rapidly returned to baseline postflight (Fig.…”

Section: Discussionmentioning

confidence: 98%

Bone marrow adiposity modulation after long duration spaceflight in astronauts

et al. 2023

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Space travel requires metabolic adaptations from multiple systems. While vital to bone and blood production, human bone marrow adipose (BMA) tissue modulation in space is unknown. Here we show significant downregulation of the lumbar vertebrae BMA in 14 astronauts, 41 days after landing from six months’ missions on the International Space Station. Spectral analyses indicated depletion of marrow adipose reserves. We then demonstrate enhanced erythropoiesis temporally related to low BMA. Next, we demonstrated systemic and then, local lumbar vertebrae bone anabolism temporally related to low BMA. These support the hypothesis that BMA is a preferential local energy source supplying the hypermetabolic bone marrow postflight, leading to its downregulation. A late postflight upregulation abolished the lower BMA of female astronauts and BMA modulation amplitude was higher in younger astronauts. The study design in the extreme environment of space can limit these conclusions. BMA modulation in astronauts can help explain observations on Earth.

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Section: Discussionmentioning

confidence: 98%

Bone marrow adiposity modulation after long duration spaceflight in astronauts

et al. 2023

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“…In addition to the unexpected finding of a fat phenotype driven by Osx-Cre , we also did not anticipate the strong effect of age on activation of this Cre . Previous studies utilizing this Cre driver primarily utilize mice under 6 months of age, and the few studies with mice at or beyond 1 year of age did not describe, or specifically look for, Cre expression outside of bone 39 – 41 . Since this study was undertaken to examine the role of IKKα in bone, studies of fat and metabolism were not initially planned.…”

Section: Discussionmentioning

confidence: 99%

Conditional loss of IKKα in Osterix + cells has no effect on bone but leads to age-related loss of peripheral fat

Davis

Pokhrel

Cox

et al. 2022

Sci Rep

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NF-κB has been reported to both promote and inhibit bone formation. To explore its role in osteolineage cells, we conditionally deleted IKKα, an upstream kinase required for non-canonical NF-κB activation, using Osterix (Osx)-Cre. Surprisingly, we found no effect on either cancellous or cortical bone, even following mechanical loading. However, we noted that IKKα conditional knockout (cKO) mice began to lose body weight after 6 months of age with severe reductions in fat mass and lower adipocyte size in geriatric animals. qPCR analysis of adipogenic markers in fat pads of cKO mice indicated no difference in early differentiation, but instead markedly lower leptin with age. We challenged young mice with a high fat diet finding that cKO mice gained less weight and showed improved glucose metabolism. Low levels of recombination at the IKKα locus were detected in fat pads isolated from old cKO mice. To determine whether recombination occurs in adipocytes, we examined fat pads in Osx-Cre;TdT reporter mice; these showed increasing Osx-Cre-mediated expression in peripheral adipocytes from 6 weeks to 18 months. Since Osx-Cre drives recombination in peripheral adipocytes with age, we conclude that fat loss in cKO mice is most likely caused by progressive deficits of IKKα in adipocytes.

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“…Several studies have shown that Osterix can promote mitochondrial biogenesis and function in osteoblasts ( Shahi et al, 2017 ). It does so by activating the expression of genes involved in oxidative phosphorylation and mitochondrial respiration, which results in increased ATP production and enhanced cellular metabolism ( Pierce et al, 2022 ). Osterix also regulates the expression of genes involved in glucose metabolism, including GLUT1, a glucose transporter that facilitates glucose uptake and utilization in osteoblasts ( Kong et al, 2021 ).…”

Section: Cell Metabolic Regulation In Bone Regenerationmentioning

confidence: 99%

Metabolic regulation by biomaterials in osteoblast

Kang

Zhang

et al. 2023

Front. Bioeng. Biotechnol.

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The repair of bone defects resulting from high-energy trauma, infection, or pathological fracture remains a challenge in the field of medicine. The development of biomaterials involved in the metabolic regulation provides a promising solution to this problem and has emerged as a prominent research area in regenerative engineering. While recent research on cell metabolism has advanced our knowledge of metabolic regulation in bone regeneration, the extent to which materials affect intracellular metabolic remains unclear. This review provides a detailed discussion of the mechanisms of bone regeneration, an overview of metabolic regulation in bone regeneration in osteoblasts and biomaterials involved in the metabolic regulation for bone regeneration. Furthermore, it introduces how materials, such as promoting favorable physicochemical characteristics (e.g., bioactivity, appropriate porosity, and superior mechanical properties), incorporating external stimuli (e.g., photothermal, electrical, and magnetic stimulation), and delivering metabolic regulators (e.g., metal ions, bioactive molecules like drugs and peptides, and regulatory metabolites such as alpha ketoglutarate), can affect cell metabolism and lead to changes of cell state. Considering the growing interests in cell metabolic regulation, advanced materials have the potential to help a larger population in overcoming bone defects.

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The Glucocorticoid Receptor in Osterix-Expressing Cells Regulates Bone Mass, Bone Marrow Adipose Tissue, and Systemic Metabolism in Female Mice During Aging

Cited by 15 publications

References 69 publications

Bone marrow adiposity modulation after long duration spaceflight in astronauts

Bone marrow adiposity modulation after long duration spaceflight in astronauts

Conditional loss of IKKα in Osterix + cells has no effect on bone but leads to age-related loss of peripheral fat

Metabolic regulation by biomaterials in osteoblast

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