Min Xu scite author profile

Exposure to microgravity causes bone loss in humans, and the underlying mechanism is thought to be at least partially due to a decrease in bone formation by osteoblasts. In the present study, we examined the hypothesis that microgravity changes osteoblast gene expression profiles, resulting in bone loss. For this study, we developed an in vitro system that simulates microgravity using the Random Positioning Machine (RPM) to study the effects of microgravity on 2T3 preosteoblast cells grown in gas-permeable culture disks. Exposure of 2T3 cells to simulated microgravity using the RPM for up to 9 days significantly inhibited alkaline phosphatase activity, recapitulating a bone loss response that occurs in real microgravity conditions without altering cell proliferation and shape. Next, we performed DNA microarray analysis to determine the gene expression profile of 2T3 cells exposed to 3 days of simulated microgravity. Among 10,000 genes examined using the microarray, 88 were downregulated and 52 were upregulated significantly more than twofold using simulated microgravity compared with the static 1-g condition. We then verified the microarray data for some of the genes relevant in bone biology using real-time PCR assays and immunoblotting. We confirmed that microgravity downregulated levels of alkaline phosphatase, runt-related transcription factor 2, osteomodulin, and parathyroid hormone receptor 1 mRNA; upregulated cathepsin K mRNA; and did not significantly affect bone morphogenic protein 4 and cystatin C protein levels. The identification of gravisensitive genes provides useful insight that may lead to further hypotheses regarding their roles in not only microgravity-induced bone loss but also the general patient population with similar pathological conditions, such as osteoporosis.

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Differential expression and co-assembly of NMDAξ1 and ϵ subunits in the mouse cerebellum during postnatal development

Didier

Berman

et al. 1995

NeuroReport

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Upregulation of hepatic melanocortin 4 receptor during rat liver regeneration

Xu¹,

Alwahsh²,

Ramadori³

et al. 2016

Journal of Surgical Research

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Yang

Zhang

et al. 2021

Acta Cardiologica

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Min Xu

Simulated microgravity using the Random Positioning Machine inhibits differentiation and alters gene expression profiles of 2T3 preosteoblasts

Differential expression and co-assembly of NMDAξ1 and ϵ subunits in the mouse cerebellum during postnatal development

Upregulation of hepatic melanocortin 4 receptor during rat liver regeneration

Meta-analysis of high power short duration in atrial fibrillation ablation – a superior efficient ablation strategy

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Min Xu

Simulated microgravity using the Random Positioning Machine inhibits differentiation and alters gene expression profiles of 2T3 preosteoblasts

Differential expression and co-assembly of NMDAξ1 and &epsiv; subunits in the mouse cerebellum during postnatal development

Upregulation of hepatic melanocortin 4 receptor during rat liver regeneration

Meta-analysis of high power short duration in atrial fibrillation ablation – a superior efficient ablation strategy

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Product

Resources

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Differential expression and co-assembly of NMDAξ1 and ϵ subunits in the mouse cerebellum during postnatal development