The role of the hydrogels in cell differentiation and proliferation is critical to the development of tissue engineering and regenerative medicine applications. Understanding the specific mechanisms by which hydrogels interact with cells and how they might influence their behaviour could lead to the design of more effective systems. We analysed the proliferation and mRNAs expression of the spheroids from adipose stem cells (SASCs) mixed to partially degalactosylated xyloglucan (dXG) in a generic culture medium without specific stimulus to assess whether the hydrogel is an “active” or “passive” component in a regenerative context. Overall, our results showed that dXG-based niches with the lowest polymer concentration (1%w), without recourse to biochemical induction can support cell proliferation and higher commitment toward mesenchymal differentiation.
Anna Barbara Di Stefano, E.M. (2025). Partially degalactosylated xyloglucan hydrogel artificial niches enhance Human Spheroids derived from Adipose Stem Cells stemness and differentiation potential. CARBOHYDRATE POLYMER TECHNOLOGIES AND APPLICATIONS, 9 [10.1016/j.carpta.2024.100652].
Partially degalactosylated xyloglucan hydrogel artificial niches enhance Human Spheroids derived from Adipose Stem Cells stemness and differentiation potential
Anna Barbara Di Stefano;Emanuela Muscolino
;Marco Trapani;Francesco Moschella;Bartolo Corradino;Francesca Toia;Adriana Cordova;Clelia Dispenza
2025-03-01
Abstract
The role of the hydrogels in cell differentiation and proliferation is critical to the development of tissue engineering and regenerative medicine applications. Understanding the specific mechanisms by which hydrogels interact with cells and how they might influence their behaviour could lead to the design of more effective systems. We analysed the proliferation and mRNAs expression of the spheroids from adipose stem cells (SASCs) mixed to partially degalactosylated xyloglucan (dXG) in a generic culture medium without specific stimulus to assess whether the hydrogel is an “active” or “passive” component in a regenerative context. Overall, our results showed that dXG-based niches with the lowest polymer concentration (1%w), without recourse to biochemical induction can support cell proliferation and higher commitment toward mesenchymal differentiation.File | Dimensione | Formato | |
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