Bioengineering of Hair Follicle-like Structure for Validation of Hair Growth Promoting Compounds

Hyun Woo Joo, Min Kyu Kim, Soon Sun Bak, Young Kwan Sung

Research output: Contribution to journalArticlepeer-review

Abstract

We aimed to establish screening and efficacy test techniques for use in the development of hair-promoting agents. To this end, we used the dermal papilla cell (DPc)-derived immortalized cell line (SV40T-hTERT DPc) and neonatal foreskin-derived keratinocyte cell line (Ker-CT) to form an immortalized cell-based hair follicle-like structure. The SV40T-hTERT DPc spheroids exhibited a higher cell ratio in the spheroids than primary DPc spheroids, and SV40T-hTERT DPc aggregated with spheroids larger in diameter than primary DPc when the same cell number was seeded into the low-adhesion plate. Microscopic imaging and fluorescence staining results indicated that both primary and immortalized cell combinations form a hair follicle-like structure with a long-stretched keratinocyte layer under the condition that the spheroids have the same diameter as that of in vivo dermal papillary tissue in the hair follicle. The hair follicle-like structure elongation was increased upon treatment with three known hair follicle growth-promoting compounds (minoxidil, tofacitinib, and ascorbic acid) compared with that in the control group. Therefore, using immortalized cells to generate a coherent follicle-like structure, we have developed models for screening and evaluating hair-care materials commonly used in the industry.

Original languageEnglish
Article number645
JournalBioengineering
Volume9
Issue number11
DOIs
StatePublished - Nov 2022

Keywords

  • alopecia
  • hair follicles
  • hair loss
  • keratinocytes
  • screening
  • spheroids

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