Scientific Reports (May 2021)

Effect of a bioconverted product of Lotus corniculatus seed on the axillary microbiome and body odor

  • Min-Ji Kim,
  • Setu Bazie Tagele,
  • HyungWoo Jo,
  • Min-Chul Kim,
  • YeonGyun Jung,
  • Yeong-Jun Park,
  • Jai-Hyun So,
  • Hae Jin Kim,
  • Ho Jin Kim,
  • Dong-Geol Lee,
  • Seunghyun Kang,
  • Jae-Ho Shin

DOI
https://doi.org/10.1038/s41598-021-89606-5
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 14

Abstract

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Abstract The skin microbiome, especially the axillary microbiome, consists of odor-causing bacteria that decompose odorless sweat into malodor compounds, which contributes to the formation of body odor. Plant-derived products are a cheap source of bioactive compounds that are common ingredients in cosmetics. Microbial bioconversion of natural products is an ecofriendly and economical method for production of new or improved biologically active compounds. Therefore, in this study, we tested the potential of a Lactobacillus acidophilus KNU-02-mediated bioconverted product (BLC) of Lotus corniculatus seed to reduce axillary malodor and its effect on the associated axillary microbiota. A chemical profile analysis revealed that benzoic acid was the most abundant chemical compound in BLC, which increased following bioconversion. Moreover, BLC treatment was found to reduce the intensity of axillary malodor. We tested the axillary microbiome of 18 study participants, divided equally into BLC and placebo groups, and revealed through 16S rRNA gene sequencing that Staphylococcus, Corynebacterium, and Anaerococcus were the dominant taxa, and some of these taxa were significantly associated with axillary malodor. After one week of BLC treatment, the abundance of Corynebacterium and Anaerococcus, which are associated with well-known odor-related genes that produce volatile fatty acids, had significantly reduced. Likewise, the identified odor-related genes decreased after the application of BLC. BLC treatment enhanced the richness and network density of the axillary microbial community. The placebo group, on the other hand, showed no difference in the microbial richness, odor associated taxa, and predicted functional genes after a week. The results demonstrated that BLC has the potential to reduce the axillary malodor and the associated odor-causing bacteria, which makes BLC a viable deodorant material in cosmetic products.