Gravitational Experimental Platform for Animal Models, a New Platform at ESA’s Terrestrial Facilities to Study the Effects of Micro- and Hypergravity on Aquatic and Rodent Animal Models

Gravitational Experimental Platform for Animal Models, a New Platform at ESA’s Terrestrial Facilities to Study the Effects of Micro- and Hypergravity on Aquatic and Rodent Animal Models

Using rotors to expose animals to different levels of hypergravity is an efficient means of understanding how altered gravity affects physiological functions, interactions between physiological systems and animal development. Furthermore, rotors can be used to prepare space experiments, e.g., conduc...

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Main Authors: Julie Bonnefoy, Stéphanie Ghislin, Jérôme Beyrend, Florence Coste, Gaetano Calcagno, Isabelle Lartaud, Guillemette Gauquelin-Koch, Sylvain Poussier, Jean-Pol Frippiat
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:International Journal of Molecular Sciences
Subjects:
gravity
spaceflight
development
adaptation
amphibian
mice
Online Access:https://www.mdpi.com/1422-0067/22/6/2961
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spelling doaj-0f9f0bacff4647b79d2f24d35a3f6bf82021-03-16T00:00:40ZengMDPI AGInternational Journal of Molecular Sciences1661-65961422-00672021-03-01222961296110.3390/ijms22062961Gravitational Experimental Platform for Animal Models, a New Platform at ESA’s Terrestrial Facilities to Study the Effects of Micro- and Hypergravity on Aquatic and Rodent Animal ModelsJulie Bonnefoy0Stéphanie Ghislin1Jérôme Beyrend2Florence Coste3Gaetano Calcagno4Isabelle Lartaud5Guillemette Gauquelin-Koch6Sylvain Poussier7Jean-Pol Frippiat8Stress, Immunity, Pathogens Laboratory, SIMPA, Université de Lorraine, F-54000 Nancy, FranceStress, Immunity, Pathogens Laboratory, SIMPA, Université de Lorraine, F-54000 Nancy, FranceAnimalerie du Campus Biologie Santé, ACBS, Université de Lorraine, F-54000 Nancy, FranceStress, Immunity, Pathogens Laboratory, SIMPA, Université de Lorraine, F-54000 Nancy, FranceStress, Immunity, Pathogens Laboratory, SIMPA, Université de Lorraine, F-54000 Nancy, FranceAnimalerie du Campus Biologie Santé, ACBS, Université de Lorraine, F-54000 Nancy, FranceLife Sciences in Microgravity, French National Space Agency, CNES, F-75001 Paris, FranceAnimalerie du Campus Biologie Santé, ACBS, Université de Lorraine, F-54000 Nancy, FranceStress, Immunity, Pathogens Laboratory, SIMPA, Université de Lorraine, F-54000 Nancy, FranceUsing rotors to expose animals to different levels of hypergravity is an efficient means of understanding how altered gravity affects physiological functions, interactions between physiological systems and animal development. Furthermore, rotors can be used to prepare space experiments, e.g., conducting hypergravity experiments to demonstrate the feasibility of a study before its implementation and to complement inflight experiments by comparing the effects of micro- and hypergravity. In this paper, we present a new platform called the Gravitational Experimental Platform for Animal Models (GEPAM), which has been part of European Space Agency (ESA)’s portfolio of ground-based facilities since 2020, to study the effects of altered gravity on aquatic animal models (amphibian embryos/tadpoles) and mice. This platform comprises rotors for hypergravity exposure (three aquatic rotors and one rodent rotor) and models to simulate microgravity (cages for mouse hindlimb unloading and a random positioning machine (RPM)). Four species of amphibians can be used at present. All murine strains can be used and are maintained in a specific pathogen-free area. This platform is surrounded by numerous facilities for sample preparation and analysis using state-of-the-art techniques. Finally, we illustrate how GEPAM can contribute to the understanding of molecular and cellular mechanisms and the identification of countermeasures.https://www.mdpi.com/1422-0067/22/6/2961gravityspaceflightdevelopmentadaptationamphibianmice
collection DOAJ
language English
format Article
sources DOAJ
author Julie Bonnefoy
Stéphanie Ghislin
Jérôme Beyrend
Florence Coste
Gaetano Calcagno
Isabelle Lartaud
Guillemette Gauquelin-Koch
Sylvain Poussier
Jean-Pol Frippiat
spellingShingle Julie Bonnefoy
Stéphanie Ghislin
Jérôme Beyrend
Florence Coste
Gaetano Calcagno
Isabelle Lartaud
Guillemette Gauquelin-Koch
Sylvain Poussier
Jean-Pol Frippiat
Gravitational Experimental Platform for Animal Models, a New Platform at ESA’s Terrestrial Facilities to Study the Effects of Micro- and Hypergravity on Aquatic and Rodent Animal Models
International Journal of Molecular Sciences
gravity
spaceflight
development
adaptation
amphibian
mice
author_facet Julie Bonnefoy
Stéphanie Ghislin
Jérôme Beyrend
Florence Coste
Gaetano Calcagno
Isabelle Lartaud
Guillemette Gauquelin-Koch
Sylvain Poussier
Jean-Pol Frippiat
author_sort Julie Bonnefoy
title Gravitational Experimental Platform for Animal Models, a New Platform at ESA’s Terrestrial Facilities to Study the Effects of Micro- and Hypergravity on Aquatic and Rodent Animal Models
title_short Gravitational Experimental Platform for Animal Models, a New Platform at ESA’s Terrestrial Facilities to Study the Effects of Micro- and Hypergravity on Aquatic and Rodent Animal Models
title_full Gravitational Experimental Platform for Animal Models, a New Platform at ESA’s Terrestrial Facilities to Study the Effects of Micro- and Hypergravity on Aquatic and Rodent Animal Models
title_fullStr Gravitational Experimental Platform for Animal Models, a New Platform at ESA’s Terrestrial Facilities to Study the Effects of Micro- and Hypergravity on Aquatic and Rodent Animal Models
title_full_unstemmed Gravitational Experimental Platform for Animal Models, a New Platform at ESA’s Terrestrial Facilities to Study the Effects of Micro- and Hypergravity on Aquatic and Rodent Animal Models
title_sort gravitational experimental platform for animal models, a new platform at esa’s terrestrial facilities to study the effects of micro- and hypergravity on aquatic and rodent animal models
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1661-6596
1422-0067
publishDate 2021-03-01
description Using rotors to expose animals to different levels of hypergravity is an efficient means of understanding how altered gravity affects physiological functions, interactions between physiological systems and animal development. Furthermore, rotors can be used to prepare space experiments, e.g., conducting hypergravity experiments to demonstrate the feasibility of a study before its implementation and to complement inflight experiments by comparing the effects of micro- and hypergravity. In this paper, we present a new platform called the Gravitational Experimental Platform for Animal Models (GEPAM), which has been part of European Space Agency (ESA)’s portfolio of ground-based facilities since 2020, to study the effects of altered gravity on aquatic animal models (amphibian embryos/tadpoles) and mice. This platform comprises rotors for hypergravity exposure (three aquatic rotors and one rodent rotor) and models to simulate microgravity (cages for mouse hindlimb unloading and a random positioning machine (RPM)). Four species of amphibians can be used at present. All murine strains can be used and are maintained in a specific pathogen-free area. This platform is surrounded by numerous facilities for sample preparation and analysis using state-of-the-art techniques. Finally, we illustrate how GEPAM can contribute to the understanding of molecular and cellular mechanisms and the identification of countermeasures.
topic gravity
spaceflight
development
adaptation
amphibian
mice
url https://www.mdpi.com/1422-0067/22/6/2961
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