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Cellular Nanofiber Structure with Secretory Activity-Promoting Characteristics for Multicellular Spheroid Formation and Hair Follicle Regeneration.

Kexin Zhang, Xiufeng Bai, Zhipeng Yuan, Xintao Cao, Xiangyu Jiao, Yan Qin, Yongqiang Wen, Xueji Zhang

ACS applied materials & interfaces 2020 Feb 19


filter terms:
  • behavior (1)
  • cell culture techniques (1)
  • cellular (6)
  • chitosan (3)
  • culture (2)
  • dermal (3)
  • dermis (1)
  • electron (1)
  • hair (6)
  • improves (1)
  • mass (1)
  • mice (2)
  • mice balb c (1)
  • multicellular spheroid (9)
  • nude mice (2)
  • polyvinyl alcohol (3)
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    Multicellular spheroids can mimic the in vivo microenvironment and maintain the unique functions of tissues, which has attracted great attention in tissue engineering. However, the traditional culture microenvironment with structural deficiencies complicates the culture and collection process and tends to lose the function of multicellular spheroids with the increase of cell passage. In order to construct efficient and functional multicellular spheroids, in this study, a chitosan/polyvinyl alcohol nanofiber sponge which has an open-cell cellular structure is obtained. The hair follicle (HF) regeneration model was employed to evaluate HF-inducing ability of dermal papilla (DP) multicellular spheroids which formed on the cellular structure nanofiber sponge. Through structural fine-tuning, the nanofiber sponge has appropriate elasticity for the creation of a three-dimensional dynamic microenvironment to regulate cellular behavior. The cellular structure nanofiber sponge tilts the balance of cell-substratum and cell-cell interactions to a state which is more conducive to the formation of controllable multicellular spheroids in a short time. More importantly, it improves the secretory activity of high-passaged dermal papilla cells and restores their intrinsic properties. Experiments using BALB/c nude mice show that cultured DP multicellular spheroids could effectively enhance HF-inducing ability. This novel system provides a simple and efficient strategy for multicellular spheroid formation and HF regeneration.

    Citation

    Kexin Zhang, Xiufeng Bai, Zhipeng Yuan, Xintao Cao, Xiangyu Jiao, Yan Qin, Yongqiang Wen, Xueji Zhang. Cellular Nanofiber Structure with Secretory Activity-Promoting Characteristics for Multicellular Spheroid Formation and Hair Follicle Regeneration. ACS applied materials & interfaces. 2020 Feb 19;12(7):7931-7941

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    PMID: 32003218

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