The
National Institutes of Health researchers have sequenced the DNA of fungi at
skin sites of healthy adults to define the normal populations across the skin
and to provide a framework for investigating fungal skin conditions. Fungi,
along with bacteria, form part of the human skin microbiome.
The
researchers collected samples at 14 body sites from 10 healthy adults. DNA
sequencing of the fungi in the samples identified fragments of DNA, called
phylogenetic markers, which can be counted and used to distinguish one type of
fungus from another. The sequencing efforts generated more than 5 million
markers, from the samples, representing more than 80 fungal types, or genera.
The
researchers identified fungi from two phyla, Ascomycetes and Basidiomycetes, as
part of the normal fungal census at the 14 skin sites. The researchers found
that a single type of fungus, belonging to the genus Malassezia, is predominant on the head and trunk. Hands, which
harbor a great diversity of bacteria, are home for relatively few types of
fungi. In contrast, feet, including toenails, heels and toe webs contain
tremendous diversity.
The
most common types of fungi were:
Malassezia spp. 62
isolated, including:
Malassezia
globosa
Malassezia
restricta
Malassezia sympodialis
Pencillium spp. 25
isolated, including:
Pencillium
chyrsogenum
Pencillium
lanosum
Aspergillus spp. 19
isolated, including:
Aspergillus
candidus
Aspergillus
terreus
Aspergillus
vesicolor
Less
than 5 isolated of each of the following:
Alternaria spp.
Candida spp.
Chaetomium spp.
Chryssoporium spp.
Cladosporium spp.
Mucor spp.
Rhodotorula spp.
Tricophyton spp.
The
most complex site, the heel, is home to about 80 genus-level types of fungi.
The researchers found about 60 types in toenail swab samples and 40 types in
samples from the webs of the toes. Sites with moderate fungal diversity are
inside the bend of the arm, inside of the forearm and palm, with each location
supporting 18 to 32 genera of fungi. The head and trunk body sites, including
the back, back of the neck, inside the ears, behind the ears, and between the
eyebrows, have far fewer fungi types, with just two to 10 genera each.
The
research team compared fungal diversity data with the skin bacteria on the same
healthy adults. They found that while arms have high measures of bacterial
diversity, they have lower fungal diversity. They found the reverse to be true
for sites on the feet. Core body sites had neither a high bacterial diversity
nor a high fungal diversity. The researchers had previously shown that
bacterial diversity can be predicted by whether skin is moist, dry or oily.
Fungal diversity, instead, seems to depend upon where a particular skin site is
on the body.
The
new study appears in an online issue of Nature. The paper is titled “Topographic
diversity of fungal and bacterial communities in human skin.”
Posted by Tim Sandle
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