Abstract
Maintenance of trichogenecity of dermal papilla cells (DPCs) have been a problem during cell therapy for androgenic alopecia, as they lose their regenerative potential in in vitro culture. Various spheroid culture techniques are used to increase and maintain trichogenecity of these cells. However, there are some critical drawbacks in these methods. Applying a hydrocell plate for sphere formation or hanging drop methods by hand would be difficult to control the size and cell density inside it. It would be difficult to commercialize or mass production for clinical therapy. In aim to address and overcome these drawbacks, we have introduced alginate sphere. The alginate sphere of DPCs were prepared by electrospinning at different voltages to control the size of sphere. Then the obtained alginate spheres were evaluated for cellular dynamics and density of DPCs under different conditions. In this study, we found that DPCs do not proliferate in alginate sphere. However, the number of DPCs were maintained and found to be in dormant state. Further, the dormant DPCs in the alginate sphere have upregulated DPC signature genes (SOX2, ALPL, WIF1, Noggin, BMP4 and VCAN) and proliferative capacity. Thus, we speculate that alginate sphere environment maintains the dormancy of DPCs with increased trichogenecity.
Highlights
Each cell and organ has a position in three dimensions
We evaluated the cellular dynamics of human dermal papilla cells (DPCs) in the alginate sphere under different conditions at the matter of size as well as cellular density within a confined alginate sphere
DPC is a permanent part of the hair follicle [20,30]
Summary
The cells in each tissue can interact with other cells in every available direction, unlike in vitro cell cultivation. To restore the cellular properties to restricted cell culture systems, a spherical formation is commonly used to enhance and restore cellular function [1,2]. It is well known that cells lose their regenerative potential during in vitro cultivation [3]. Three-dimensional cultivation, especially in a spherical shape, is used in maintaining cellular potential and properties to differentiate functionally [4,5]. Human hair follicle dermal papilla cells (DPCs) can be cultured in a spheroid for the induction of hair-follicle neogenesis [6,7]. Hair follicles are known to have cyclic interaction between the
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