Toshimasa Ochiai scite author profile

Effects of 3-month exposure to microgravity environment on the expression of genes and proteins in mouse brain were studied. Moreover, responses of neurobiological parameters, nerve growth factor (NGF) and brain derived neurotrophic factor (BDNF), were also evaluated in the cerebellum, hippocampus, cortex, and adrenal glands. Spaceflight-related changes in gene and protein expression were observed. Biological processes of the up-regulated genes were related to the immune response, metabolic process, and/or inflammatory response. Changes of cellular components involving in microsome and vesicular fraction were also noted. Molecular function categories were related to various enzyme activities. The biological processes in the down-regulated genes were related to various metabolic and catabolic processes. Cellular components were related to cytoplasm and mitochondrion. The down-regulated molecular functions were related to catalytic and oxidoreductase activities. Up-regulation of 28 proteins was seen following spaceflight vs. those in ground control. These proteins were related to mitochondrial metabolism, synthesis and hydrolysis of ATP, calcium/calmodulin metabolism, nervous system, and transport of proteins and/or amino acids. Down-regulated proteins were related to mitochondrial metabolism. Expression of NGF in hippocampus, cortex, and adrenal gland of wild type animal tended to decrease following spaceflight. As for pleiotrophin transgenic mice, spaceflight-related reduction of NGF occured only in adrenal gland. Consistent trends between various portions of brain and adrenal gland were not observed in the responses of BDNF to spaceflight. Although exposure to real microgravity influenced the expression of a number of genes and proteins in the brain that have been shown to be involved in a wide spectrum of biological function, it is still unclear how the functional properties of brain were influenced by 3-month exposure to microgravity.

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Simulated microgravity enhances oligodendrocyte mitochondrial function and lipid metabolism

Espinosa‐Jeffrey¹,

Nguyen²,

Kumar³

et al. 2016

J of Neuroscience Research

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The primary energy sources of mammalian cells are proteins, fats, and sugars that are processed by well-known biochemical mechanisms that have been discovered and studied in 1G (terrestrial gravity). Here we sought to determine how simulated microgravity (sim-µG) impacts both energy and lipid metabolism in oligodendrocytes (OLs), the myelin-forming cells in the central nervous system. We report increased mitochondrial respiration and increased glycolysis 24 hr after exposure to sim-µG. Moreover, examination of the secretome after 3 days' exposure of OLs to sim-µG increased the Krebs cycle (Krebs and Weitzman, ) flux in sim-µG. The secretome study also revealed a significant increase in the synthesis of fatty acids and complex lipids such as 1,2-dipalmitoyl-GPC (5.67); lysolipids like 1-oleoyl-GPE (4.48) were also increased by microgravity. Although longer-chain lipids were not observed in this study, it is possible that at longer time points OLs would have continued moving forward toward the synthesis of lipids that constitute myelin. For centuries, basic developmental biology research has been the pillar of an array of discoveries that have led to clinical applications; we believe that studies using microgravity will open new avenues to our understanding of the brain in health and disease-in particular, to the discovery of new molecules and mechanisms impossible to unveil while in 1G. © 2016 Wiley Periodicals, Inc.

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NASDA next generation aquatic habitat for space shuttle and ISS

Masukawa¹,

Ochiai²,

Kamigaichi³

et al. 2003

Advances in Space Research

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Current activities for future reusable space trans...

Shimura

Mori

Ochiai

et al. 2005

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Effect of Parabolic Flight on Plasma Arginine Vasopressin as A Sensitive Marker for Psychophysiological Stress in Humans

et al. 2010

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A number of parabolic flight experiments have shown that processes within the central n e r v o u s s y s t e m (C N S ) a r e a f f e c t e d b y weightlessness in humans. However, it is likely that the changes in the CNS observed during parabolic flights are not solely due to the repeated changes in gravity experienced during the flight. Instead, these changes may be related to secondary psychophysiological reactions related to the emotional and physical stress during these flights. Arginine vasopressin (AVP) acts synergistically with corticotropin-releasing hormone to stimulate corticotropin release from the anterior pituitary, and it is critical in the regulation of hypothalamic-pituitaryadrenal axis activity, a major component of the stress response. The purpose of this study was to elucidate whether stress-related humoral factors, namely, AVP, were altered in human blood exposed to gravity-changing stress. Parabolic flight-naive subjects were exposed to gravity-changing stress eight times during repeated parabolic maneuvers performed by an airplane. Concentrations of AVP, cortisol, and catecholamines were increased just after the parabolic flight without hematocrit alterations. The results of the present study suggest that the plasma concentration of AVP behaves as a stress hormone and might be a sensitive humoral marker for psychophysiological stress in humans.

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