June 7, 2012 in Immunology Scientists at A*STAR’s
Singapore Immunology Network (SIgN) uncovered the origin of a group of
skin-deep immune cells that act as the first line of defence against harmful
germs and skin infections. SIgN scientists discovered that these sentry cells
of the skin, called the Langerhans cells (LCs), originate from two distinct
embryonic sites - the early yolk sac and the foetal liver. Ads by Google Biology
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are dendritic cells (DCs) found in the outermost layer of the skin. DCs are a
critical component of the immune system because they are the only cells able to
‘see’ and ‘alert’ other responding immune cells to initiate a protective
response against harmful foreign invaders. Like sentries of the immune system,
DCs are strategically positioned where they are likely to encounter harmful
pathogens. Identifying the source of these specialised immune cells may hold
exciting possibilities to novel strategies for vaccination and treatment of
autoimmune diseases and inflammatory skin disorders. In contrast to other DCs
which are constantly replaced by a circulating pool of bone marrow-derived
precursors, LCs has the interesting ability to maintain themselves throughout
life. While it is established that these long-lived sentry cells of the skin
arise from precursors that are recruited to the skin prior to birth, this is
the first time that the exact origin of the precursors of LCs is revealed
through advanced fate-mapping technique (a method of tracing cell lineages to
their embryonic origin). In this study, published in the June issue of Journal
of Experimental Medicine, Dr. Florent Ginhoux, and his team demonstrated that
adult LCs originate from two distinct embryonic lineages in two succeeding
waves. The first wave of precursor cells from the yolk sac ‘seed’ the skin
before the onset of the foetal liver. Interestingly, the team discovered that
at the later stage of development, the yolk-sac precursors are largely replaced
by a type of white blood cells from the foetal liver. Said Dr. Ginhoux,
Principal Investigator of SIgN, “Whether this unique dual origin of Langerhans
cells influences their ability to maintain skin integrity or dictate their
specialised immune functions in response to microbes and vaccines needs to be
examined. But having identified their origin surely opens new possibilities of
using them as novel vaccination strategies or as therapeutic tool for treating
inflammatory skin diseases like psoriasis.” Scientific Director of SIgN,
Professor Paola Castagnoli said, “This discovery sheds light on understanding
the complexities of the immune system, in particular the relationship between
immune responses and human diseases. It will bring us closer to our goal of
discovering novel ways of treating and preventing a range of immune diseases
that will impact healthcare.” More information: The research findings described
in this media release can be found in the 7 May online issue of The Journal of
Experimental Medicine under the title, "Adult Langerhans cells derive
predominantly from embryonic fetal liver monocytes with a minor contribution of
yolk sac-derived macrophages” by Guillaume Hoeffel, et al. http://jem.rupress …
.short?rss=1 Journal reference: Journal of Experimental Medicine
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