A research team at the National Institutes of Health has found that
bacteria that normally live in the skin may help protect the body from
infection. As the largest organ of the body, the skin represents a major
site of interaction with microbes in the environment. Although immune
cells in the skin protect against harmful organisms, until now, it has
not been known if the millions of naturally occurring commensal bacteria
in the skin -- collectively known as the skin microbiota -- also have a
beneficial role.
Using mouse models, the NIH team observed that commensals contribute
to protective immunity by interacting with the immune cells in the skin.
Their findings appear online on July 26 in Science.
The investigators colonized germ-free mice (mice bred with no
naturally occurring microbes in the gut or skin) with the human skin
commensal Staphylococcus epidermidis. The team observed that
colonizing the mice with this one species of good bacteria enabled an
immune cell in the mouse skin to produce a cell-signaling molecule
needed to protect against harmful microbes. The researchers subsequently
infected both colonized and non-colonized germ-free mice with a
parasite. Mice that were not colonized with the bacteria did not mount
an effective immune response to the parasite; mice that were colonized
did.
In separate experiments, the team sought to determine if the presence
or absence of commensals in the gut played a role in skin immunity.
They observed that adding or eliminating beneficial bacteria in the gut
did not affect the immune response at the skin. These findings indicate
that microbiota found in different tissues -- skin, gut, lung -- have
unique roles at each site and that maintaining good health requires the
presence of several different sets of commensal communities.
This study provides new insights into the protective role of skin
commensals and demonstrates that skin health relies on the interaction
of commensals and immune cells. Further research is needed, say the
authors, to determine whether skin disorders such as eczema and
psoriasis may be caused or exacerbated by an imbalance of skin
commensals and potentially harmful microbes that influence the skin and
its immune cells.
The study was led by investigators in the laboratories of Yasmine
Belkaid, Ph.D., at the National Institute of Allergy and Infectious
Diseases, in collaboration with Julie Segre, Ph.D., at the National
Human Genome Research Institute, and Giorgio Trinchieri, M.D., and Heidi
Kong, M.D., at the National Cancer Institute. All three Institutes are
NIH components.
Journal Reference:
- S Naik et al. Compartmentalized control of skin immunity by resident commensals. Science, 2012 DOI: 10.1126/science.1225152
Courtesy: ScienceDaily
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