Growth and mineralization of fetal mouse long bones under microgravity and daily 1 g gravity exposure

Jack J. W. A. van Loon; Olga P. Berezovska; Theodorus J. M. Bervoets; Dina Montufar-Solis; Cor M. Semeins; Behrouz Zandieh-Doulabi; P. Natalia V. Rodionova; Jackie Duke; J. Paul Veldhuijzen

doi:10.1038/s41526-024-00421-4

npj Microgravity (Jul 2024)

Growth and mineralization of fetal mouse long bones under microgravity and daily 1 g gravity exposure

Jack J. W. A. van Loon,
Olga P. Berezovska,
Theodorus J. M. Bervoets,
Dina Montufar-Solis,
Cor M. Semeins,
Behrouz Zandieh-Doulabi,
P. Natalia V. Rodionova,
Jackie Duke,
J. Paul Veldhuijzen

Affiliations

Jack J. W. A. van Loon: Department of Oral Biology, Section Oral Cell Biology, ACTA–Vrije Universiteit
Olga P. Berezovska: Department of Radiobiology and Radioecology, Institute for Nuclear Research of National Academy of Sciences of Ukraine
Theodorus J. M. Bervoets: Department of Oral Biology, Section Oral Cell Biology, ACTA–Vrije Universiteit
Dina Montufar-Solis: Department of Integrative Biology and Pharmacology, McGovern Medical School, University of Texas Health Science Center
Cor M. Semeins: Department of Oral Biology, Section Oral Cell Biology, ACTA–Vrije Universiteit
Behrouz Zandieh-Doulabi: Department of Oral Biology, Section Oral Cell Biology, ACTA–Vrije Universiteit
P. Natalia V. Rodionova: Schmalhausen Institute for Zoology, National Academy of Sciences Ukraine
Jackie Duke: Department of Orthodontics & Dentofacial Orthopedics, University of Texas Health Science Center
J. Paul Veldhuijzen: Department of Oral Biology, Section Oral Cell Biology, ACTA–Vrije Universiteit

DOI: https://doi.org/10.1038/s41526-024-00421-4
Journal volume & issue: Vol. 10, no. 1
pp. 1 – 9

Abstract

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Abstract In a previous Space Shuttle/Spacelab experiment (STS-42), we observed direct responses of isolated fetal mouse long bones to near weightlessness. This paper aimed to verify those results and study the effects of daily 1×g exposure during microgravity on the growth and mineralization of these bones. Two experiments were conducted: one on an American Space Shuttle mission (IML-2 on STS-65) and another on a Russian Bio-Cosmos flight (Bion-10 on Cosmos-2229). Despite differences in hardware, both used 17-day-old fetal mouse metatarsals cultured for 4 days. Results showed reduced proteoglycan content under microgravity compared to 1×g conditions, with no main differences in other cellular structures. While the overall metatarsal length was unaffected, the length increase of the mineralized diaphysis was significantly reduced under microgravity. Daily 1×g exposure for at least 6 h abolished the microgravity-induced reduction in cartilage mineralization, indicating the need for long-duration exposure to 1×g as an in-flight countermeasure using artificial gravity.

Published in npj Microgravity

ISSN: 2373-8065 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology: Biotechnology; Science: Physiology
Website: https://www.nature.com/npjmgrav/

About the journal