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Optogenetic activation of TGFβ signaling drives ligand-free chondrogenesis in hESC-derived MSCs

Authors
Lee, JeongminLee, GabsangOh, Yohan
Issue Date
Apr-2026
Publisher
OXFORD UNIV PRESS
Keywords
cell signaling; chondrocyte; human embryonic stem cell (hESC); optogenetics; transforming growth factor-beta (TGF beta)
Citation
STEM CELLS, v.44, no.4, pp 1 - 11
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
STEM CELLS
Volume
44
Number
4
Start Page
1
End Page
11
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/213106
DOI
10.1093/stmcls/sxaf083
ISSN
1066-5099
1549-4918
Abstract
Optogenetics holds great potential for diverse biological applications, including fundamental research, tissue engineering, and regenerative medicine, by enabling the precise spatial and temporal control of cellular signaling pathways. Transforming growth factor-beta (TGFβ), a multifunctional cytokine, is a critical regulator of cell proliferation, differentiation, and particularly chondrogenesis. Although TGFβ signaling is necessary for effective chondrogenic differentiation, previous studies have primarily relied on recombinant TGFβ ligand supplementation. In this study, we established an advanced optogenetic platform by knocking-in opto-TGFβ receptors in the AAVS1 locus of human embryonic stem cells (hESCs), enabling precise optogenetic activation of endogenous TGFβ signaling. Blue light illumination specifically activated TGFβ signaling, indicated by enhanced SMAD2 phosphorylation. Employing a three-dimensional pellet culture system, we demonstrated that direct optogenetic activation of TGFβ receptors, without exogenous ligand supplementation, is sufficient for robust chondrogenic differentiation of hESC-derived mesenchymal stem cells. The efficiency of optogenetic differentiation was comparable to conventional recombinant TGFβ protein treatment, evidenced by the expression of chondrogenic markers and deposition of cartilage-specific extracellular matrix components, including aggrecan and type II collagen. Our findings directly confirm the sufficiency and critical role of TGFβ receptor activation itself in chondrogenesis. Furthermore, this optogenetic approach provides a theoretical advantage by enabling noninvasive external modulation of TGFβ signaling post-transplantation, potentially facilitating further maturation and functional integration of transplanted chondrocytes. Thus, our results highlight a promising recombinant-protein-free strategy for use in cartilage tissue engineering and regenerative medicine.
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GRADUATE SCHOOL OF BIOMEDICAL SCIENCE AND ENGINEERING (DEPARTMENT OF BIOMEDICAL SCIENCE)
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