Literature DB >> 25457968

Stem cell health and tissue regeneration in microgravity.

Elizabeth Blaber1, Kevin Sato, Eduardo A C Almeida.   

Abstract

Exposure to microgravity causes significant mechanical unloading of mammalian tissues, resulting in rapid alterations of their physiology, which poses a significant risk for long-duration manned spaceflight. The immediate degenerative effects of spaceflight we understand best are those studied during short-term low-Earth-orbit experiments, and include rapid microgravity-adaptive bone and muscle loss, loss of cardiovascular capacity, defects in wound and bone fracture healing, and impaired immune function. Over the long-term, exposure to microgravity may cause severe deficits in mammalian stem cell-based tissue regenerative health, including, osteogenesis, hematopoiesis, and lymphopoeisis, as well as cause significant stem cell-based tissue degeneration in amphibian tail and lens regeneration. To address the needs for stem cell and other cell science research on the International Space Station (ISS), NASA has developed the new Bioculture System that will allow investigators to initiate and conduct on-orbit experiments that astronauts will be able to monitor and interact with during the course of cell cultures. This cell culture capability combined with advanced technologies for molecular biology and on-orbit measurement of gene expression (WetLab2) and other tools that are now coming online bring the ISS National Laboratory a step closer to becoming a fully functional space laboratory for advancing space biological sciences.

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Mesh:

Year:  2014        PMID: 25457968      PMCID: PMC4235978          DOI: 10.1089/scd.2014.0408

Source DB:  PubMed          Journal:  Stem Cells Dev        ISSN: 1547-3287            Impact factor:   3.272


  46 in total

Review 1.  Microgravity and immune responsiveness: implications for space travel.

Authors:  Andrea T Borchers; Carl L Keen; M Eric Gershwin
Journal:  Nutrition       Date:  2002-10       Impact factor: 4.008

Review 2.  Alterations in protein metabolism during space flight and inactivity.

Authors:  Arny A Ferrando; Doug Paddon-Jones; Robert R Wolfe
Journal:  Nutrition       Date:  2002-10       Impact factor: 4.008

Review 3.  The impact of skeletal unloading on bone formation.

Authors:  Daniel D Bikle; Takeshi Sakata; Bernard P Halloran
Journal:  Gravit Space Biol Bull       Date:  2003-06

Review 4.  Function of the cytoskeleton in gravisensing during spaceflight.

Authors:  M Hughes-Fulford
Journal:  Adv Space Res       Date:  2003       Impact factor: 2.152

5.  The effect of microgravity on bone fracture healing in rats flown on Cosmos-2044.

Authors:  A S Kaplansky; G N Durnova; T E Burkovskaya; E V Vorotnikova
Journal:  Physiologist       Date:  1991-02

Review 6.  Human orientation and movement control in weightless and artificial gravity environments.

Authors:  J R Lackner; P DiZio
Journal:  Exp Brain Res       Date:  2000-01       Impact factor: 1.972

7.  Mechanical unloading of bone in microgravity reduces mesenchymal and hematopoietic stem cell-mediated tissue regeneration.

Authors:  E A Blaber; N Dvorochkin; M L Torres; R Yousuf; B P Burns; R K Globus; E A C Almeida
Journal:  Stem Cell Res       Date:  2014-06-09       Impact factor: 2.020

8.  Genetic models in applied physiology: selected contribution: effects of spaceflight on immunity in the C57BL/6 mouse. I. Immune population distributions.

Authors:  Michael J Pecaut; Gregory A Nelson; Luanne L Peters; Paul J Kostenuik; Ted A Bateman; Sean Morony; Louis S Stodieck; David L Lacey; Steven J Simske; Daila S Gridley
Journal:  J Appl Physiol (1985)       Date:  2003-01-03

Review 9.  Calcium and bone metabolism during space flight.

Authors:  Scott M Smith; Martina Heer
Journal:  Nutrition       Date:  2002-10       Impact factor: 4.008

Review 10.  Functional and structural adaptations of skeletal muscle to microgravity.

Authors:  R H Fitts; D R Riley; J J Widrick
Journal:  J Exp Biol       Date:  2001-09       Impact factor: 3.312
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  29 in total

1.  The influence of simulated microgravity on proliferation and apoptosis in U251 glioma cells.

Authors:  Jiao Zhao; He Ma; Leitao Wu; Liang Cao; Qianqian Yang; Haijun Dong; Zongren Wang; Jing Ma; Zhen Li
Journal:  In Vitro Cell Dev Biol Anim       Date:  2017-07-13       Impact factor: 2.416

2.  Spaceflight/microgravity inhibits the proliferation of hematopoietic stem cells by decreasing Kit-Ras/cAMP-CREB pathway networks as evidenced by RNA-Seq assays.

Authors:  Peng Wang; Hongling Tian; Jiayu Zhang; Juanjuan Qian; Ling Li; Lu Shi; Yong Zhao
Journal:  FASEB J       Date:  2019-02-05       Impact factor: 5.191

3.  Effect of microgravity on proliferation and differentiation of embryonic stem cells in an automated culturing system during the TZ-1 space mission.

Authors:  Xiaohua Lei; Yujing Cao; Ying Zhang; Jingjing Qian; Qian Zhao; Fangwu Liu; Tao Zhang; Jiaxi Zhou; Ying Gu; Guoliang Xia; Enkui Duan
Journal:  Cell Prolif       Date:  2018-07-12       Impact factor: 6.831

4.  Effect of Simulated Microgravity Conditions on Differentiation of Adipose Derived Stem Cells towards Fibroblasts Using Connective Tissue Growth Factor.

Authors:  Farid Ebnerasuly; Zahra Hajebrahimi; Seyed Mehdi Tabaie; Mojtaba Darbouy
Journal:  Iran J Biotechnol       Date:  2017-12-29       Impact factor: 1.671

5.  Differential Single Cell Responses of Embryonic Stem Cells Versus Embryoid Bodies to Gravity Mechanostimulation.

Authors:  Cassandra M Juran; Justina Zvirblyte; Eduardo A C Almeida
Journal:  Stem Cells Dev       Date:  2022-07       Impact factor: 4.390

Review 6.  Wide Range Applications of Spirulina: From Earth to Space Missions.

Authors:  Giacomo Fais; Alessia Manca; Federico Bolognesi; Massimiliano Borselli; Alessandro Concas; Marco Busutti; Giovanni Broggi; Pierdanilo Sanna; Yandy Marx Castillo-Aleman; René Antonio Rivero-Jiménez; Antonio Alfonso Bencomo-Hernandez; Yendry Ventura-Carmenate; Michela Altea; Antonella Pantaleo; Gilberto Gabrielli; Federico Biglioli; Giacomo Cao; Giuseppe Giannaccare
Journal:  Mar Drugs       Date:  2022-04-28       Impact factor: 6.085

7.  The individual and combined effects of spaceflight radiation and microgravity on biologic systems and functional outcomes.

Authors:  Jeffrey S Willey; Richard A Britten; Elizabeth Blaber; Candice G T Tahimic; Jeffrey Chancellor; Marie Mortreux; Larry D Sanford; Angela J Kubik; Michael D Delp; Xiao Wen Mao
Journal:  J Environ Sci Health C Toxicol Carcinog       Date:  2021

Review 8.  The Effect of Space Travel on Bone Metabolism: Considerations on Today's Major Challenges and Advances in Pharmacology.

Authors:  Shirley Genah; Monica Monici; Lucia Morbidelli
Journal:  Int J Mol Sci       Date:  2021-04-27       Impact factor: 5.923

Review 9.  Effects of Gravity, Microgravity or Microgravity Simulation on Early Mammalian Development.

Authors:  Douglas M Ruden; Alan Bolnick; Awoniyi Awonuga; Mohammed Abdulhasan; Gloria Perez; Elizabeth E Puscheck; Daniel A Rappolee
Journal:  Stem Cells Dev       Date:  2018-06-11       Impact factor: 4.390

Review 10.  Role of Apoptosis in Wound Healing and Apoptosis Alterations in Microgravity.

Authors:  Stefan Riwaldt; Thomas J Corydon; Desiré Pantalone; Jayashree Sahana; Petra Wise; Markus Wehland; Marcus Krüger; Daniela Melnik; Sascha Kopp; Manfred Infanger; Daniela Grimm
Journal:  Front Bioeng Biotechnol       Date:  2021-06-17
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