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Artikel ; Online: Morphological Changes of 3T3 Cells under Simulated Microgravity.

Tran, Minh Thi / Ho, Chi Nguyen Quynh / Hoang, Son Nghia / Doan, Chung Chinh / Nguyen, Minh Thai / Van, Huy Duc / Ly, Cang Ngoc / Le, Cuong Phan Minh / Hoang, Huy Nghia Quang / Nguyen, Han Thai Minh / Truong, Han Thi / To, Quan Minh / Nguyen, Tram Thi Thuy / Le, Long Thanh

Cells

2024  Band 13, Heft 4

Abstract: Background: Cells are sensitive to changes in gravity, especially the cytoskeletal structures that determine cell morphology. The aim of this study was to assess the effects of simulated microgravity (SMG) on 3T3 cell morphology, as demonstrated by a ... ...

Abstract Background: Cells are sensitive to changes in gravity, especially the cytoskeletal structures that determine cell morphology. The aim of this study was to assess the effects of simulated microgravity (SMG) on 3T3 cell morphology, as demonstrated by a characterization of the morphology of cells and nuclei, alterations of microfilaments and microtubules, and changes in cycle progression.
Methods: 3T3 cells underwent induced SMG for 72 h with Gravite
Results: The results show that SMG led to decreased nuclear intensity, nuclear area, and nuclear shape and increased cell diameter in 3T3 cells. The 3T3 cells in the SMG group appeared to have a flat form and diminished microvillus formation, while cells in the control group displayed an apical shape and abundant microvilli. The 3T3 cells under SMG exhibited microtubule distribution surrounding the nucleus, compared to the perinuclear accumulation in control cells. Irregular forms of the contractile ring and polar spindle were observed in 3T3 cells under SMG. The changes in cytoskeleton structure were caused by alterations in the expression of major cytoskeletal proteins, including β-actin and α-tubulin 3. Moreover, SMG induced 3T3 cells into the arrest phase by reducing main cell cycle related genes, which also affected the formation of cytoskeleton structures such as microfilaments and microtubules.
Conclusions: These results reveal that SMG generated morphological changes in 3T3 cells by remodeling the cytoskeleton structure and downregulating major structural proteins and cell cycle regulators.
Mesh-Begriff(e) Mice ; Animals ; Weightlessness ; Cytoskeleton/metabolism ; Actin Cytoskeleton/metabolism ; Microtubules/metabolism ; 3T3 Cells
Sprache Englisch
Erscheinungsdatum 2024-02-15
Erscheinungsland Switzerland
Dokumenttyp Journal Article
ZDB-ID 2661518-6
ISSN 2073-4409 ; 2073-4409
ISSN (online) 2073-4409
ISSN 2073-4409
DOI 10.3390/cells13040344
Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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