Yasuhiro Kumei scite author profile

A three-dimensional (3D) clinostat is a device for multidirectional G force generation. By controlled rotation of two axes, a 3D clinostat cancels the cumulative gravity vector at the center of the device and produces an environment with an average of 10(-3) G over time. We cultured a human osteoblast cell line in a 3D clinostat and examined the growth properties and differentiation of the cells, including morphology, histological detection of calcification, and mitogen-activated protein kinase (MAPK) cascades. In a normal 1 G condition, alkaline phosphatase (AlPase) activity was detected on day 7 of culture, bone nodules were formed on day 12, and calcium deposits were seen on day 20. In the 3D clinostat, the cells looked larger and bulged. AlPase activity was detected on day 10 of culture. However, neither bone nodules nor calcification was found in the 3D clinostat up to day 21. The expression levels of core-binding factor A1 (a transcription factor for bone formation) and osteocalcin (a bone matrix protein) increased in the control culture but decreased in culture in 3D clinostat. Phosphorylation of p38(MAPK) (p38) was repressed in culture in 3D clinostat, whereas total p38 as well as total and phosphorylated forms of extracellular signal-regulated kinases and stress-activated protein kinase/jun N-terminal kinase were not changed in the 3D clinostat. When a p38 inhibitor, SB 203580, was added to the culture medium in a normal 1 G environment, AlPase activity and formation of bone nodules and calcium deposits were strongly inhibited. On the other hand, they were inhibited only partially by a MAPK kinase inhibitor, U-0126. On the basis of these results, it is concluded that (1) osteoblast differentiation is inhibited in culture in a 3D clinostat and (2) this inhibition is mainly due to the suppression of p38 phosphorylation.

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Microgravity Signal Ensnarls Cell Adhesion, Cytoskeleton, and Matrix Proteins of Rat Osteoblasts

Kumei

Morita

Katano

et al. 2006

Annals of the New York Academy of Sciences

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Rat osteoblasts were cultured for 4 or 5 days aboard the Space Shuttle and solubilized during spaceflight. Post-flight analyses by quantitative reverse transcriptase-polymerase chain reaction (RT-PCR) determined the relative mRNA levels of matrix proteins, adhesion molecules, and cytoskeletal proteins including osteopontin (OP), osteonectin (ON), CD44, alpha-tubulin, actin, vimentin, fibronectin (FN), and beta1-integrin. The mRNA levels of OP and alpha-tubulin in the flight cultures were decreased by 30% and 50% on day 4 and day 5 of flight, as compared to the ground controls. In contrast, the CD44 mRNA levels in the flight cultures increased by 280% and 570% of the ground controls on day 4 and day 5. The mRNA levels of ON and FN in the flight cultures were slightly increased as compared to ground controls. The mRNA levels of actin, vimentin, or beta1-integrin did not change in spaceflight conditions. The matrix proteins, adhesion molecules, and cytoskeletal proteins may form dynamic network complexity with signaling molecules as an adaptive response to perturbation of mechanical stress under microgravity.

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Antagonism between Apoptotic (Bax/Bcl‐2) and Anti‐Apoptotic (IAP) Signals in Human Osteoblastic Cells under Vector‐Averaged Gravity Condition

Nakamura

Kumei

Morita

et al. 2003

Annals of the New York Academy of Sciences

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A functional disorder associated with weightlessness is well documented in osteoblasts. The apototic features of this disorder are poorly understood. Harmful stress induces apoptosis in cells via mitochondria and/or Fas. The Bax triggers cytochrome c release from mitochondria, which can be blocked by the Bcl-2. Released cytochrome c then activates the initiator caspase, caspase-9, which can be blocked by the anti-apototic (IAP) family of molecules. The effector caspase, caspase-3, finally exerts DNA fragmentation. We conducted this study to examine the apoptotic effects of vector-averaged gravity on normal human osteoblastic cells. Cell culture flasks were incubated on the clinostat, which generated vector-averaged gravity condition (simulated microgravity) for 12, 24, 48, and 96 hours. Upon termination of clinostat cultures, the cell number and cell viability were assessed. DNA fragmentation was analyzed on the agarose-gel electrophoresis. The mRNA levels for Bax, Bcl-2, XIAP, and caspase-3 genes were analyzed by semi-quantitative RT-PCR. Twenty-four hours after starting clinostat rotation, the ratios of Bax/Bcl-2 mRNA levels (indicator of apoptosis) were significantly increased to 136% of the 1G static controls. However, the XIAP mRNA levels (anti-apoptotic molecule) were increased concomitantly to 138% of the 1G static controls. Thus, cell proliferation or cell viability was not affected by vector-averaged gravity. DNA fragmentation was not observed in clinostat group as well as in control group. Finally, the caspase-3 mRNA levels were not affected by vector-averaged gravity. Simulated microgravity might modulate some apoptotic signals upstream the mitochondrial pathway.

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Hypergravity Stimulates Osteoblast Phenotype Expression: A Therapeutic Hint for Disuse Bone Atrophy

Morita

Nakamura

Kumei

et al. 2004

Annals of the New York Academy of Sciences

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Physiological actions of osteoblasts are disordered by gravity unloading. We investigated the possibility that the appropriate level of hypergravity could improve osteoblast functions that are susceptible to mechanical unloading. We evaluated hypergravity effects on the 1alpha,25-dihydroxyvitamin D(3) (VD)-inducible osteocalcin expression of primary rat osteoblasts. Cell culture plates were centrifuged for 24 h at 3, 6, 12, 24, and 48 g in a 37 degrees C incubator. The mRNA levels were analyzed by quantitative RT-PCR. The mRNA levels for osteocalcin and vitamin D receptor (VD-R) at 12 g were enhanced to 187% and 228% of the 1 g control, respectively. However, the excess hypergravity conversely decreased osteocalcin expression. Osteocalcin gene expression was enhanced by VD/VD-R through the vitamin D-responsive element in the promoter. The increased osteocalcin expression might reflect the augmented VD-R expression. Alternatively, Runx2, a master gene of osteoblast differentiation, might be responsible for the osteocalcin induction, since the Runx2 mRNA levels were also increased to 247% of control at 12 g. Another VD-inducible osteoblast phenotype, alkaline phosphatase, was also upregulated at 12 g and 24 g. The appropriate level of hypergravity enhanced the VD-inducible expression of osteocalcin, a typical phenotype of osteoblast differentiation. These data suggest molecular features to prevent disuse bone atrophy of long-term bed-rest patients.

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Yasuhiro Kumei

Microgravity induces prostaglandin E2 and interleukin-6 production in normal rat osteoblasts: role in bone demineralization

CELL DIFFERENTIATION AND p38MAPK CASCADE ARE INHIBITED IN HUMAN OSTEOBLASTS CULTURED IN A THREE-DIMENSIONAL CLINOSTAT

Microgravity Signal Ensnarls Cell Adhesion, Cytoskeleton, and Matrix Proteins of Rat Osteoblasts

Antagonism between Apoptotic (Bax/Bcl‐2) and Anti‐Apoptotic (IAP) Signals in Human Osteoblastic Cells under Vector‐Averaged Gravity Condition

Hypergravity Stimulates Osteoblast Phenotype Expression: A Therapeutic Hint for Disuse Bone Atrophy

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