Effects of Altered Gravity on the Cytoskeleton of Neonatal Rat Cardiocytes

As an intracellular load-bearing structure, the cytoskeleton is hypothesized to play a crucial role in gravity perception of the cell. Recent data show that the cytoskeleton, which includes actin microfilaments and microtubules, is involved in modulating both the electrical and the mechanical activi...

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Published in	Microgravity science and technology Vol. 22; no. 1; pp. 45 - 52
Main Authors	Yang, Fen, Dai, Zhongquan, Tan, Yingjun, Li, Yinghui
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.02.2010 Springer Nature B.V
Subjects	Aerospace Technology and Astronautics Centrifugation Classical and Continuum Physics Engineering Original Article Space Exploration and Astronautics Space Sciences (including Extraterrestrial Physics Hypergravity Microfilaments Microgravity Microtubules
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Abstract	As an intracellular load-bearing structure, the cytoskeleton is hypothesized to play a crucial role in gravity perception of the cell. Recent data show that the cytoskeleton, which includes actin microfilaments and microtubules, is involved in modulating both the electrical and the mechanical activities of the myocardium. The present study employed observation and quantified analyses of fluorescent images of cardiocytes under different gravity conditions. In acute gravitational change (micro- and hypergravity) induced by parabolic flight, we found disassembly of microtubules but enhanced polymerization of microfilaments, with rearrangement from G-actin to F-actin. In ground-based experiments, exposure of cardiocytes to 2× g hypergravity (centrifugation) led to increased width and number of actin fibers from 2 to 48 h, while microtubules showed no significant changes except polarization at 24 and 48 h. In contrast, exposure of cardiocytes to clinorotation led to disassembly of microtubules from 1 to 48 h, while microfilaments showed no significant changes except redistribution, which was accompanied by rounding of the cells (48 h). We assume that the sensitivity of microfilaments to hypergravity and that of microtubules to microgravity might contribute to the specific cytoskeletal changes observed in parabolic flight. These findings indicate different sensitivity and responses of microfilaments and microtubules to different gravitational changes, which might be part of functional adaptations of the cardiocytes to altered gravitational environments.
AbstractList	As an intracellular load-bearing structure, the cytoskeleton is hypothesized to play a crucial role in gravity perception of the cell. Recent data show that the cytoskeleton, which includes actin microfilaments and microtubules, is involved in modulating both the electrical and the mechanical activities of the myocardium. The present study employed observation and quantified analyses of fluorescent images of cardiocytes under different gravity conditions. In acute gravitational change (micro- and hypergravity) induced by parabolic flight, we found disassembly of microtubules but enhanced polymerization of microfilaments, with rearrangement from G-actin to F-actin. In ground-based experiments, exposure of cardiocytes to 2×g hypergravity (centrifugation) led to increased width and number of actin fibers from 2 to 48 h, while microtubules showed no significant changes except polarization at 24 and 48 h. In contrast, exposure of cardiocytes to clinorotation led to disassembly of microtubules from 1 to 48 h, while microfilaments showed no significant changes except redistribution, which was accompanied by rounding of the cells (48 h). We assume that the sensitivity of microfilaments to hypergravity and that of microtubules to microgravity might contribute to the specific cytoskeletal changes observed in parabolic flight. These findings indicate different sensitivity and responses of microfilaments and microtubules to different gravitational changes, which might be part of functional adaptations of the cardiocytes to altered gravitational environments.[PUBLICATION ABSTRACT] As an intracellular load-bearing structure, the cytoskeleton is hypothesized to play a crucial role in gravity perception of the cell. Recent data show that the cytoskeleton, which includes actin microfilaments and microtubules, is involved in modulating both the electrical and the mechanical activities of the myocardium. The present study employed observation and quantified analyses of fluorescent images of cardiocytes under different gravity conditions. In acute gravitational change (micro- and hypergravity) induced by parabolic flight, we found disassembly of microtubules but enhanced polymerization of microfilaments, with rearrangement from G-actin to F-actin. In ground-based experiments, exposure of cardiocytes to 2× g hypergravity (centrifugation) led to increased width and number of actin fibers from 2 to 48 h, while microtubules showed no significant changes except polarization at 24 and 48 h. In contrast, exposure of cardiocytes to clinorotation led to disassembly of microtubules from 1 to 48 h, while microfilaments showed no significant changes except redistribution, which was accompanied by rounding of the cells (48 h). We assume that the sensitivity of microfilaments to hypergravity and that of microtubules to microgravity might contribute to the specific cytoskeletal changes observed in parabolic flight. These findings indicate different sensitivity and responses of microfilaments and microtubules to different gravitational changes, which might be part of functional adaptations of the cardiocytes to altered gravitational environments.
Author	Dai, Zhongquan Li, Yinghui Yang, Fen Tan, Yingjun
Author_xml	– sequence: 1 givenname: Fen surname: Yang fullname: Yang, Fen organization: Laboratory of Space Cell and Molecular Biology, China Astronaut Research and Training Center – sequence: 2 givenname: Zhongquan surname: Dai fullname: Dai, Zhongquan organization: Laboratory of Space Cell and Molecular Biology, China Astronaut Research and Training Center – sequence: 3 givenname: Yingjun surname: Tan fullname: Tan, Yingjun organization: Laboratory of Space Cell and Molecular Biology, China Astronaut Research and Training Center – sequence: 4 givenname: Yinghui surname: Li fullname: Li, Yinghui email: yinghuidd@vip.sina.com organization: Laboratory of Space Cell and Molecular Biology, China Astronaut Research and Training Center
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CitedBy_id	crossref_primary_10_1096_fj_13_236356 crossref_primary_10_1155_2015_747693 crossref_primary_10_1016_j_biochi_2017_04_015 crossref_primary_10_1089_scd_2017_0206 crossref_primary_10_1007_s12217_020_09818_8 crossref_primary_10_1016_j_asr_2011_05_030 crossref_primary_10_1016_j_jbiomech_2018_02_024 crossref_primary_10_3390_ijms23137429 crossref_primary_10_1002_yea_3361 crossref_primary_10_3389_fped_2016_00140
Cites_doi	10.1016/S0094-5765(01)00116-3 10.1161/01.RES.0000081595.25297.1B 10.1387/ijdb.052077sc 10.1016/S0006-8993(02)02415-0 10.1007/s00709-006-0202-2 10.1002/jcb.20883 10.1016/S0079-6107(03)00057-9 10.1007/s11434-008-0167-y 10.1016/j.asr.2006.02.060 10.1152/ajpcell.00524.2003 10.1007/BF02870949 10.1152/jappl.1992.73.2.S90 10.1161/01.CIR.101.22.2625 10.1152/ajpheart.00534.2001 10.1096/fasebj.4.1.2295379 10.1360/csb2008-53-10-1185 10.1152/jappl.1992.73.2.S94 10.1096/fj.00-0527fje
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Title	Effects of Altered Gravity on the Cytoskeleton of Neonatal Rat Cardiocytes
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