Skin microbiome bacteria enriched following long sun exposure can reduce oxidative damage.

Sun exposure is harmful to the skin and increases the risk of skin aging and skin cancer. Here we examined the effects of daily exposure to sun radiation on the skin microbiome in order to determine whether skim microbiome bacteria can contribute to protection from solar damage. Skin swabs were collected from ten lifeguards before and after the summer to analyse the skin microbiome. The results indicate that specific skin microbiome bacteria were enriched following the seasonal sun exposure. Especially interesting were two bacterial families - Sphingomonas and Erythrobacteraceae - which may have the ability to protect against UV radiation as they produce potentially protective compounds. We concentrated on a Sphingomonas strain and could show that it was highly resistant to UV irradiation and was able to reduce reactive oxygen species levels in human keratinocytes. These results provide a proof-of-concept for the role of the skin microbiome in protection from solar radiation.

Skin microbiome of people living at the Dead Sea area - The lowest place on earth.

The Dead Sea is a salt lake with surface water at about 430 m below sea level and considered the lowest place on Earth. The Dead Sea basin is characterized by relatively high temperatures, attenuated UV radiation and the air above it has a relatively high-salt aerosol content. When we compared the skin microbiome of individuals from the hot, salty and arid Dead Sea area with that of individuals from the humid Mediterranean regions we observed a significantly lower bacterial diversity in the Dead Sea group as well as distinct differences in the composition of bacterial species. Our results suggest that these factors have a profound effect on the skin microbiome. Further study is required to understand how the local environment influences the skin microbiome, as well as the functional implications of these effects.

Effect of Solar Radiation on Skin Microbiome: Study of Two Populations.

Here, we examined the skin microbiome of two groups of healthy volunteers living on the Mediterranean coast with different exposures to sun radiation. One group, exposed to the sun in the summer, was compared with a group covered with clothing throughout the year. The seasonal effects on the skin microbiome of three body sites were determined before and after summer. Surprisingly, at the phyla level, there were no significant differences in microbiome diversity between the groups. Furthermore, within each group, there were no significant seasonal differences in high-abundance species at any of the sampling sites. These results suggest that the skin microbiome, developed over years, remains stable even after several months of exposure to summer weather, direct sunlight and humidity. However, in the group exposed to the sun during the summer months, there were significant differences in low-abundance species in sun-exposed areas of the skin (the inner and outer arm). These subtle changes in low-abundance species are interesting, and their effect on skin physiology should be studied further.