The hair follicle is a mini-organ,

The hair follicle is a mini-organ, consisting of many different types and groups of cells,
capable of frequent remodeling and cycles of growth. Immune privilege (IP) is believed to
exist in the anagen growth stage of the hair follicle (HF). Previous studies using
immunohistology have illustrated unique downregulation of major histocompatibility
complex Class I in the HF bulb, as well as expression of immuno suppressive factors in the
bulge region. However, quantitative studies and functional studies to clearly demonstrate IP
in HF cells are required. My goal was to examine the middle (hair fiber and sheaths) and
lower (bulb) portion of the human HF to identify a novel functional mechanism of IP. My
hypothesis was that the bulb and the middle third of the hair follicle have functional immune
privilege capabilities. In an in vitro experiment, I found that HF cells appeared to suppress
histo-incompatible peripheral blood mononuclear cell (PBMC) IFN-gamma secretion relative
to epidermal cells. I screened expression of IP-related genes in HFs relative to interfollicular
epidermis by quantitative real-time RT-PCR. Briefly, I found significant downregulation of
all Class I and Class II HLAs examined in the bulb and sheaths. There were also several
genes coding for immunosuppressant secretory factors significantly upregulated in the
sheath. Most notably, somatostatin (SST) was significantly upregulated in the sheath 5.9-fold
and in the bulb 94.2-fold relative to non-follicular epidermis. This led me to investigate the
hypothesis that SST contributes to IP in hair follicles. I found strong expression of SST in the
outer root sheath by immunohistochemistry and significant secretion of SST from HF sheath
cells compared to epidermal cells in culture. PBMCs cultured with allogeneic immunostimulatory
epidermal cells and SST secreted significantly less IFN-gamma than controls.
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Additionally, a SST antagonist drug appeared to interfere with the immunosuppressive effect
of sheath cells in culture with allogeneic PBMCs. In summary, these experiments give
further evidence in support of HF IP and show that HF bulb or sheath cells may be beneficial
in allogeneic transplantation. In principle, SST may have potential as a treatment for scarring
alopecia or other inflammatory hair loss disorders.