RRC ID 86104
Author Kim S, Horikawa A, Yamamoto T, Michiue T.
Title Tension-induced enhancement of SIX1 expression during preplacodal ectoderm differentiation from human induced pluripotent stem cells.
Journal Int J Dev Biol
Abstract Based on observations of in vivo morphogenesis, differentiation is expected to be regulated by mechanical cues. However, the detail mechanisms remain largely unknown. A previous study using human pluripotent stem cells (hPSCs) demonstrated that neural plate border (NPB) specification was enhanced by mechanical force. However, it is unknown whether mechanical force is also involved in the specification of the preplacodal ectoderm (PPE), which is derived from the NPB. Here, we verified the validity of the PPE induction method in stretch chambers, and conducted the stretching stimuli experiments. When repetitive stretching stimuli were applied from Day 2 to 10 or Day 2 to 7, expression of the PPE marker SIX1 was increased. However, this increase was not observed when the stimuli were applied from Day 5 to 10, suggesting there is a critical period of sensitivity to mechanical forces. Immunofluorescent staining revealed lower active β-catenin signals in the cell sheet in the stretched samples compared to those in the controls, suggesting a negative correlation between stretching stimuli and Wnt signaling. Our finding suggests that mechanical force is important in PPE differentiation.
Volume 69(2)
Pages 61-69
Published 2025-6-13
DOI 10.1387/ijdb.240212tm
PII 240212tm
PMID 40521683
MeSH Cell Differentiation* / physiology Ectoderm* / cytology Ectoderm* / metabolism Gene Expression Regulation, Developmental Homeodomain Proteins* / genetics Homeodomain Proteins* / metabolism Humans Induced Pluripotent Stem Cells* / cytology Induced Pluripotent Stem Cells* / metabolism Neural Plate / cytology Neural Plate / metabolism Stress, Mechanical Wnt Signaling Pathway beta Catenin / metabolism
IF 1.105
Resource
Human and Animal Cells iPS cell line