Lack of NK cells in lupus patients with renal involvement.

We have previously shown that patients with SLE have significantly lower percentages and absolute numbers of NK(CD3-/CD16+56) cells in their peripheral blood compared with normals. Patients with active disease had very low levels of NK cells and the reduction was also associated with patients who had renal involvement. We have now performed a serial study immunophenotyping 11 patients with SLE and renal involvement using dual colour immunofluorescence and flow cytometry. Patients were tested every three months on an average of three occasions. As a control, nine SLE patients without renal involvement were immunophenotyped for similar intervals; 11 normal controls were also tested. Major lymphocyte subsets (T, B and NK) remained very stable during serial bleeds. However, the NK cell populations were decreased significantly in patients with renal involvement both as percentages (5 +/- 6 vs 9 +/- 5, P < 0.0001) and absolute counts (75 +/- 108 vs 109 +/- 52, P < 0.001) in comparison to non-renal patients. Analysis of disease activity using BILAG score showed an inverse correlation between renal system activity and percentage and absolute number of NK cells (P < 0.002 and 0.01, respectively). In this study we have also analysed a CD8 T cell subset which we have not studied before. We have found a significantly increased percentage of CD38+CD8+ T cells(activated CD8 subset) in patients with SLE in comparison to normal controls. We did not find any association with the CD38+CD8+ T cells and disease activity as measured by BILAG or renal involvement. NK cells are important factors in immunity against virus infections and tumour cells. CD38+CD8+T cells are increased in viral infections. We speculate that the lack of NK cells in SLE patients might have an association with increased CD38 expression.

Surface expression of heat shock protein 90 by blood mononuclear cells from patients with systemic lupus erythematosus.

Previous studies have indicated that blood mononuclear cells from 15-20% of patients with systemic lupus erythematosus (SLE) carry elevated levels of hsp90, a heat shock protein associated with steroid receptors in cells. We analysed surface expression of hsp90 on mononuclear cells (lymphocytes and monocytes) from patients with SLE by monoclonal antibody AC88 and flow cytometry. Whilst all blood mononuclear cells have intracellular hsp90, a significant proportion of patients with SLE expressed hsp90 on lymphocyte and monocyte surfaces. This was significantly higher on SLE lymphocytes than in laboratory controls and was positively correlated with disease activity. Comparison of total hsp90 with surface hsp90 in the same SLE patients' blood mononuclear samples indicated a correlation with a subgroup of patients. There was no correlation with expression of surface hsp90 by lymphocytes and activation markers. Patients with Sjögren's syndrome, rheumatoid arthritis, dermatomyositis and scleroderma were studied as disease controls and increased levels of shsp90 were detected in only three of the 53 patients studied. It is concluded that surface hsp90 expression is a feature of about 20% of patients with SLE and is correlated with high disease activity. The exposure of this hsp on the surface of some lymphocytes suggests that it is a candidate autoantigen in SLE.

Age-related changes in human blood lymphocyte subpopulations.

Flow cytometric analysis of major lymphocyte populations and their subsets reveals age-related changes in the cellular human immune system. Immunophenotypic markers were evaluated in 110 normal pediatric subjects, divided into groups of newborn infants, infants aged 2 days to 11 months, and children aged 1 to 6 years and 7 to 17 years; results were then compared with those obtained from 101 normal adults aged 18 to 70 years. Comparisons among age groups from newborn infants through adults reveal progressive declines in the absolute numbers of leukocytes, total lymphocytes, and T, B, and natural killer (NK) cells. The percentages of T cells within the total lymphocyte population increase with age, in both CD4+ and CD8+ subsets. Percentages of B and NK cells are higher in newborn infants than in adults. The expression of the activation markers interleukin-2R and HLA-DR on T cells increases with age, as does the NK-associated expression of CD57 on CD8 cells. The proportions of B lymphocytes that coexpress CD5 or CDw78 decrease with age, whereas expression of Leu-8 and CD23 increases. The proportion of CD4 cells bearing the CD45RA and Leu-8 markers is consistently lower in adults than in children. These data may serve as a reference range for studies of pediatric subjects.