Cell cycle and HIF-1 related gene expression alteration in thyroid cell lines under microgravity.
[BACKGROUND] With growing interest in space exploration, understanding microgravity's impact on human health is essential.
APA
Ahn JH, Yi JW (2025). Cell cycle and HIF-1 related gene expression alteration in thyroid cell lines under microgravity.. Oncology research, 33(8), 1909-1931. https://doi.org/10.32604/or.2025.065847
MLA
Ahn JH, et al.. "Cell cycle and HIF-1 related gene expression alteration in thyroid cell lines under microgravity.." Oncology research, vol. 33, no. 8, 2025, pp. 1909-1931.
PMID
40746898
Abstract
[BACKGROUND] With growing interest in space exploration, understanding microgravity's impact on human health is essential. This study aims to investigate gene expression changes and migration and invasion potential in five thyroid-related cell lines cultured under simulated microgravity.
[METHODS] Five thyroid-related cell lines-normal thyrocytes (Nthy-ori 3-1), papillary thyroid cancer (PTC) cells (SNU-790, TPC-1), poorly differentiated thyroid cancer cell (BCPAP), and anaplastic thyroid cancer cell (SNU-80)-were cultured under simulated microgravity (10 g) using a clinostat. Differentially expressed genes (DEGs) were analyzed using cDNA microarray, followed by functional annotation and assessment of aggressiveness via Transwell migration and invasion assays.
[RESULTS] DEG analysis under simulated microgravity revealed distinct gene expression profiles by gravity condition, with 2980 DEGs in SNU-790, 1033 in BCPAP, 562 in TPC-1, 477 in Nthy-ori 3-1, and 246 in SNU-80, as confirmed by hierarchical clustering. In PTC cell lines (SNU-790, TPC-1), G2-M phase-related genes were upregulated. In non-PTC cell lines (BCPAP, SNU-80), genes associated with innate immune response, Toll-like receptor signaling, were upregulated, whereas Hypoxia-Inducible Factor 1-alpha (HIF-1α) signaling-related genes were downregulated. Additionally, under simulated microgravity, significant migration was observed in SNU-790 (3 × 10 cells) and BCPAP (2 × 10 and 3 × 10), while significant invasion occurred in SNU-790, Nthy-ori 3-1, and BCPAP at a seeding density of 2 × 10. Other conditions showed no significant differences.
[CONCLUSION] This study comprehensively evaluates the effects of simulated microgravity using a diverse panel of thyroid-related cell lines. These findings provide valuable insight into how microgravity could influence cancer biology, emphasizing the importance of further research on cancer behavior in space environments and its implications for human health during long-term space missions.
[METHODS] Five thyroid-related cell lines-normal thyrocytes (Nthy-ori 3-1), papillary thyroid cancer (PTC) cells (SNU-790, TPC-1), poorly differentiated thyroid cancer cell (BCPAP), and anaplastic thyroid cancer cell (SNU-80)-were cultured under simulated microgravity (10 g) using a clinostat. Differentially expressed genes (DEGs) were analyzed using cDNA microarray, followed by functional annotation and assessment of aggressiveness via Transwell migration and invasion assays.
[RESULTS] DEG analysis under simulated microgravity revealed distinct gene expression profiles by gravity condition, with 2980 DEGs in SNU-790, 1033 in BCPAP, 562 in TPC-1, 477 in Nthy-ori 3-1, and 246 in SNU-80, as confirmed by hierarchical clustering. In PTC cell lines (SNU-790, TPC-1), G2-M phase-related genes were upregulated. In non-PTC cell lines (BCPAP, SNU-80), genes associated with innate immune response, Toll-like receptor signaling, were upregulated, whereas Hypoxia-Inducible Factor 1-alpha (HIF-1α) signaling-related genes were downregulated. Additionally, under simulated microgravity, significant migration was observed in SNU-790 (3 × 10 cells) and BCPAP (2 × 10 and 3 × 10), while significant invasion occurred in SNU-790, Nthy-ori 3-1, and BCPAP at a seeding density of 2 × 10. Other conditions showed no significant differences.
[CONCLUSION] This study comprehensively evaluates the effects of simulated microgravity using a diverse panel of thyroid-related cell lines. These findings provide valuable insight into how microgravity could influence cancer biology, emphasizing the importance of further research on cancer behavior in space environments and its implications for human health during long-term space missions.
MeSH Terms
Humans; Thyroid Neoplasms; Weightlessness Simulation; Weightlessness; Gene Expression Regulation, Neoplastic; Cell Line, Tumor; Cell Cycle; Cell Movement; Gene Expression Profiling; Hypoxia-Inducible Factor 1, alpha Subunit; Thyroid Gland
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