Kj. Mcelwee et al., IN-VIVO DEPLETION OF CD8(-CELLS RESTORES HAIR-GROWTH IN THE DEBR MODEL FOR ALOPECIA-AREATA() T), British journal of dermatology, 135(2), 1996, pp. 211-217
Alopecia areata (AA) is a putative autoimmune disease in which anagen
hair follicles are the target of immune cell attack. While both CD4(+)
and CD8(+) T lymphocytes are prominent in the infiltrate, their respe
ctive roles in the pathogenesis of AA remain unknown, Here we directly
investigated the activity of CD8(+) cells in the inhibition of hair g
rowth using the Dundee experimental bald rat (DEER) model for AA. Eigh
t lesional DEBRs were fully depleted of their CD8(+) cells by intraper
itoneal injection of OX-8 monoclonal antibody (MoAb) specific for thes
e cells over a 15-day therapy course, A control group of eight lesiona
l rats was injected with the irrelevant MoAb OX-21. Sequential blood s
amples were analysed by now cytometry to observe changes in the CD8(+)
cell population and macrophotography used to record changes in hair g
rowth activity. All eight CD8(+) depleted rats started to regrow hair
within 29 days from the start of treatment, the final response ranging
from sparse regrowth to a near normal coat, While two rats maintained
their new pelage, the remainder lost hair as the CD8(+) population in
peripheral blood increased, Two of the control rats also showed hair
regrowth over the experimental period of 156 days, These results sugge
st that CD8(+) cells play an active part in the pathogenesis of AA, As
hair production did not fully recover in all animals, immune mechanis
ms other than CD8(+) cells may be involved in effecting hair loss, How
ever, analysis of CD8(+) cell levels in the skin of CD8(+) depleted ra
ts may help resolve their full importance in AA.