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2024.11.20 Wednesday

Scientists Develop Breakthrough Culture System to Unlock Secrets of Skin Microbiome

The co-culture system for skin microbiome can help understand interactions between bacterial species, aiding the development of specialized skin treatments

Scientists Develop Breakthrough Culture System to Unlock Secrets of Skin Microbiome

The human skin is home to a wide variety of bacteria. The composition of the community of bacteria—called the "skin microbiota"—has serious implications for skin health. A healthy balance between different species of bacteria on the skin often translates to healthy skin. The loss of this balanced skin microbiota can lead to diseases such as atopic dermatitis, acne, and psoriasis. Since the skin microbiota can vary based on various factors such as age, sex, climate, and an individual's occupation understanding its composition is crucial for identifying bacteria that cause skin diseases and targeting them with specialized treatments.

Culturing skin microbiota in the lab setting can be challenging due to several reasons such as difficulty in replicating the unique environment of skin and the lack of effective culturing methods. In a recent study that was published in Alternatives to Animal Testing and Experimentation on November 14 2024, researchers addressed the limitations in culturing skin microbiota by developing a novel culture system that facilitates cultivating several skin bacteria species in the lab setting.

"We have developed the first complex culture system that can cultivate multiple indigenous skin bacteria in a balanced state. Detailed analysis of the biology of indigenous skin bacteria, which affect the condition of human skin, is now possible. Going forward, the system can be used in the research and development of cosmetics and drugs for numerous skin diseases" explains Associate Professor Yuuki Furuyama of Tokyo University of Science, the lead researcher in the study.

Since culturing skin microbiota in the lab is challenging, researchers have traditionally used metagenomic analysis to study them—an approach that involves extracting the combined genome of all bacteria in a community. While metagenomic analysis can offer useful insights, it might not be effective in uncovering interactions between different species. The newly created growth medium called "TUS Skin Bacteria Co-culture (TSBC)" medium can allow researchers to jointly cultivate multiple bacteria and study their interactions. In the study, researchers including Dr. Furuyama, along with Mr. Ikuya Yamamoto and Professor Kouji Kuramochi of Tokyo University of Science, successfully cultivated four skin bacteria namely Staphylococcus epidermidis, Staphylococcus capitis, Cutibacterium acnes, and Corynebacterium tuberculostearicum. They found that the bacterial composition within the lab-grown community was balanced and similar to those found in Japanese skin.

"Research on the indigenous microbiota of the skin has mainly focused on metagenomic analysis, which does not involve culture methods, or on the analysis of individual bacteria in pure culture. However, since multiple bacteria interact with each other in the actual skin environment, we thought that a model culture system that reproduced the interaction relationship was necessary", notes Dr. Furuyama.

The skin microbiota is highly individualized and can vary even across different areas of the same person's skin. Skin properties such as sebum levels, moisture, and dryness all influence the composition of the microbiota. This new co-culture technique opens avenues to study how both internal and external factors, including skincare products, affect the microbiota in various skin locations. In addition, future research can explore how skincare routines impact microbiota across different ethnicities and skin types.

As skin sensitivity and conditions like eczema continue to rise, driven by factors like climate change and environmental stressors, a more holistic understanding of skin microbiota imbalances offers a pathway to new treatments. By targeting the microbiota, researchers can potentially develop tailored, preventive solutions that support healthier, more resilient skin—improving quality of life for millions around the world.

Scientists Develop Breakthrough Culture System to Unlock Secrets of Skin Microbiome

Image title: Novel Culture System for Balanced Skin Microbiota Research
Image caption: Researchers developed the TUS Skin Bacteria Co-culture (TSBC) medium, a novel system that enables the balanced cultivation of multiple skin bacteria. This breakthrough allows for a more detailed study of bacterial interactions, opening pathways to targeted skincare treatments that address microbiota imbalances associated with skin conditions, like acne and dermatitis.
Image credit: Yuuki Furuyama from the Tokyo University of Science, Japan
License type: Original content
Usage restrictions: Cannot be used without permission.

Reference
Title of original paper  : Effect of CO2 Developing an in vitro culture model for four commensal bacteria of human skin
Journal  : Alternatives to Animal Testing and Experimentation
DOI  : 10.11232/aatex.29.1
About The Tokyo University of Science

Tokyo University of Science (TUS) is a well-known and respected university, and the largest science-specialized private research university in Japan, with four campuses in central Tokyo and its suburbs and in Hokkaido. Established in 1881, the university has continually contributed to Japan's development in science through inculcating the love for science in researchers, technicians, and educators.

With a mission of "Creating science and technology for the harmonious development of nature, human beings, and society," TUS has undertaken a wide range of research from basic to applied science. TUS has embraced a multidisciplinary approach to research and undertaken intensive study in some of today's most vital fields. TUS is a meritocracy where the best in science is recognized and nurtured. It is the only private university in Japan that has produced a Nobel Prize winner and the only private university in Asia to produce Nobel Prize winners within the natural sciences field.

Tokyo University of Science(About TUS)

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About Professor Kouji Kuramochi
from Tokyo University of Science

Laboratory website
Official TUS website

About Associate Professor Yuuki Furuyama
from Tokyo University of Science

Dr. Yuuki Furuyama earned his PhD from the Department of Applied Biological Sciences at Tokyo University of Science (TUS) in 2018 and currently serves as an Associate Professor in the department. His research focuses on applied microbiology, natural products chemistry, and chemical biology. Since 2021, he has authored thirteen peer-reviewed articles, showcasing his contributions to the field. In recognition of his achievements, Dr. Furuyama was honored with the Biotech Grand Prix 2023 Rohto Award, highlighting his significant impact in biotechnology and related disciplines.
Official TUS website

Funding information

This study was supported by the 16th Mandom International Research Grant on Alternatives to Animal Experiments.

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