Abrogation of E-Cadherin-Mediated Cell–Cell Contact in Mouse Embryonic Stem Cells Results in Reversible LIF-Independent Self-Renewal

Soncin, Francesca; Mohamet, Lisa; Eckardt, Dominik; Ritson, Sarah; Eastham, Angela M; Bobola, Nicoletta; Russell, Angela J.; Davies, Sue; Kemler, Rolf; Merry, Catherine L.R.; Ward, Christopher M.

doi:10.1002/stem.134

Cited by 114 publications

(177 citation statements)

References 32 publications

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“…Inhibition of Ecadherin expression using RNAi or an inhibitory peptide during iPS cell derivation lead to decreased iPS cell isolation. Interestingly, in contrast to signalling pathway alterations described by Soncin et al (Soncin et al, 2009), the -catenin binding domain of E-cadherin was not required for efficient iPS cell derivation and instead was dependent on the extracellular domain of the protein. We have previously demonstrated that the -catenin domain of E-cadherin is required to restore cell-cell contact in E-cadherin-/-ES cells (Soncin et al, 2009), suggesting that the function of E-cadherin in iPS cell derivation reflects a requirement for cell-extracellular matrix (ECM) interaction rather than cell-cell adhesion.…”

Section: E-cadherin Expression Enhances Ips Cell Derivationmentioning

confidence: 58%

“…Interestingly, in contrast to signalling pathway alterations described by Soncin et al (Soncin et al, 2009), the -catenin binding domain of E-cadherin was not required for efficient iPS cell derivation and instead was dependent on the extracellular domain of the protein. We have previously demonstrated that the -catenin domain of E-cadherin is required to restore cell-cell contact in E-cadherin-/-ES cells (Soncin et al, 2009), suggesting that the function of E-cadherin in iPS cell derivation reflects a requirement for cell-extracellular matrix (ECM) interaction rather than cell-cell adhesion. Therefore, E-cadherin appears to function via two discreet mechanisms; firstly, as a regulator of pluripotent signalling pathways via the CCC and, secondly, as an enhancer of ES cell-ECM interactions to aid cell survival.…”

Section: E-cadherin Expression Enhances Ips Cell Derivationmentioning

confidence: 58%

“…Although E-cadherin-/-ES cells exhibit an undifferentiated phenotype in medium supplemented with FBS/LIF, the cells maintain pluripotency and self-renewal by utilising Activin, Nodal and Fgf2 present within ES-screened FBS (Soncin et al, 2009) (Fig. 3.).…”

Section: E-cadherin Expression Regulates Signalling Pathways In Plurimentioning

confidence: 99%

“…3.). E-cadherin-/-ES cells can be cultured in an undifferentiated state in serum-free medium supplemented with Activin A, Nodal and Fgf2 and exposure of the cells to the Activin-like kinase receptors (Alks)-4, -5 and -7 inhibitor (SB431542) under these conditions induces their differentiation (Soncin et al, 2009). Mutant E-cadherin protein analysis in our lab demonstrated that the -catenin binding domain of E-cadherin is critical for LIF/Bmp-mediated pluripotency in ES cells.…”

Section: E-cadherin Expression Regulates Signalling Pathways In Plurimentioning

confidence: 99%

“…Mutant E-cadherin protein analysis in our lab demonstrated that the -catenin binding domain of E-cadherin is critical for LIF/Bmp-mediated pluripotency in ES cells. Although Ecadherin-/-ES cells utilise Activin/Nodal signalling as a default pluripotent pathway in serum-supplemented medium they are also able to maintain pluripotency via LIF/BMP signals in the absence of Activin/Nodal (Soncin et al, 2009). Therefore, E-cadherin-/-ES cells possess a functional "ground state" pluripotent signalling network (Ying et al, 2008) as well as the ability to circumvent this pathway by utilising Activin and Nodal.…”

Section: E-cadherin Expression Regulates Signalling Pathways In Plurimentioning

confidence: 99%

See 4 more Smart Citations

The Function of E-cadherin in ES Cell Pluripotency

Hawkins¹,

Ward²

2011

Embryonic Stem Cells: The Hormonal Regulation of Pluripotency and Embryogenesis

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Section: E-cadherin Expression Enhances Ips Cell Derivationmentioning

confidence: 58%

Section: E-cadherin Expression Enhances Ips Cell Derivationmentioning

confidence: 58%

Section: E-cadherin Expression Regulates Signalling Pathways In Plurimentioning

confidence: 99%

Section: E-cadherin Expression Regulates Signalling Pathways In Plurimentioning

confidence: 99%

Section: E-cadherin Expression Regulates Signalling Pathways In Plurimentioning

confidence: 99%

See 3 more Smart Citations

The Function of E-cadherin in ES Cell Pluripotency

Hawkins¹,

Ward²

2011

Embryonic Stem Cells: The Hormonal Regulation of Pluripotency and Embryogenesis

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Cell–cell adhesions in embryonic stem cells regulate the stability and transcriptional activity of β‐catenin

et al. 2022

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E‐cadherin (CDH1) is involved in maintaining cell–cell adhesions in embryonic stem cells (ESCs). However, its function in the context of cell fate decisions is largely unknown. Using mouse ESCs (mESCs), we demonstrate that E‐cadherin and β‐catenin interact at the membrane and continue to do so upon internalization within the cell. Cdh1−/− mESCs failed to form tight colonies, with altered differentiation, marker expression and retention of pluripotency factors during differentiation. Interestingly, Cdh1−/− mESCs showed dramatically reduced β‐catenin levels. Transcriptional profiling of Cdh1−/− mESCs displayed a significant alteration in the expression of a subset of β‐catenin targets in a cell state‐ and GSK3β‐dependent manner. Our findings hint at hitherto unknown roles played by E‐cadherin in regulating the activity of β‐catenin in ESCs.

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Patterned Three‐Dimensional Encapsulation of Embryonic Stem Cells using Dielectrophoresis and Stereolithography

Bajaj

Marchwiany

Duarte

et al. 2012

Adv Healthcare Materials

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Controlling the assembly of cells in three dimensions is very important for engineering functional tissues, drug screening, probing cell-cell/cell-matrix interactions, and studying the emergent behavior of cellular systems. Although the current methods of cell encapsulation in hydrogels can distribute them in three dimensions, these methods typically lack spatial control of multi-cellular organization and do not allow for the possibility of cell-cell contacts as seen for the native tissue. Here, we report the integration of dielectrophoresis (DEP) with stereolithography (SL) apparatus for the spatial patterning of cells on custom made gold micro-electrodes. Afterwards, they are encapsulated in poly (ethylene glycol) diacrylate (PEGDA) hydrogels of different stiffnesses. This technique can mimic the in vivo microscale tissue architecture, where the cells have a high degree of three dimensional (3D) spatial control. As a proof of concept, we show the patterning and encapsulation of mouse embryonic stem cells (mESCs) and C2C12 skeletal muscle myoblasts. mESCs show high viability in both the DEP (91.79% ± 1.4%) and the no DEP (94.27% ± 0.5%) hydrogel samples. Furthermore, we also show the patterning of mouse embryoid bodies (mEBs) and C2C12 spheroids in the hydrogels, and verify their viability. This robust and flexible in vitro platform can enable various applications in stem cell differentiation and tissue engineering by mimicking elements of the native 3D in vivo cellular micro-environment.

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Abrogation of E-Cadherin-Mediated Cell–Cell Contact in Mouse Embryonic Stem Cells Results in Reversible LIF-Independent Self-Renewal

Cited by 114 publications

References 32 publications

The Function of E-cadherin in ES Cell Pluripotency

The Function of E-cadherin in ES Cell Pluripotency

Cell–cell adhesions in embryonic stem cells regulate the stability and transcriptional activity of β‐catenin

Patterned Three‐Dimensional Encapsulation of Embryonic Stem Cells using Dielectrophoresis and Stereolithography

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