Lymphocytes T gamma delta in clinically normal skin and peripheral blood of patients with systemic lupus erythematosus and their correlation with disease activity
E. Robak et al., Lymphocytes T gamma delta in clinically normal skin and peripheral blood of patients with systemic lupus erythematosus and their correlation with disease activity, MEDIAT INFL, 10(4), 2001, pp. 179-189
HUMAN T gamma delta lymphocytes constitute from 1 to 15% of all peripheral
blood lymphocytes. Recent work has demonstrated that this population plays
a major role in the pathogenesis of Infectious and immune diseases. Increas
ed numbers of gamma delta T cells have been found in affected skin from sys
temic sclerosis and chronic cutaneous lupus erythematosus patients. In our
study, we have determined the numbers of T gamma delta lymphocytes and thei
r subpopulations in peripheral blood from 29 patients with systemic lupus e
rythematosus (SLE) and in 19 healthy volunteers using flow cytometry and sp
ecific monoclonal antibodies. The same cells in uninvolved skin from SLE pa
tients and human controls using immunohistochemical analysis were estimated
. T-Cell receptor (TCR) delta chain gene rearrangement was identified with
primers for V delta1, V delta2 and V delta3 by the polymerase chain reactio
n. Statistical analysis showed a significantly decreased number of gamma de
lta T cells in SLE patients (26.4 +/- 16.9/mul) compared with the control g
roup (55.3 +/- 20.6/mul) (P<0.001). The number of V<delta>2 TCR+ and V gamm
a9 TCR+ subpopulations was also lower in SIE patients than in healthy perso
ns. No statistical correlation between disease activity and the number of g
amma delta T cells was demonstrated. The percentage of T gamma delta lympho
cytes in clinically normal skin from SLE patients was twice (22.0 +/-9.4%)
that found in the skin from healthy persons (11.1 +/-5.5%) (p<0.002). Highe
r percentages of the V<delta>2 TCR+ and V gamma9 TCR+ subpopulation of lymp
hocytes were found in the skin from SLE patients. We have also found positi
ve correlation between the percentage of T gamma delta lymphocytes in skin
and the activity of SLE (r=0.594, p<0.001), and between subpopulation V<del
ta>3 TCR+ and disease activity (r=0.659, p<0.001). In conclusion, the resul
ts of our studies demonstrate that, in patients with SIE, accumulation of T
<gamma>delta lymphocytes can be seen in clinically normal skin, and the per
centage of these cells correlates with the activity of the disease.