A discrepancy between liquid phase and gel phase assays for evaluation of total complement activity and some possible explanations.

This study was conducted to investigate the frequency and origin of discrepant assay results between two haemolytic assays which both measure activity of the classical pathway of complement (CH50) by haemolysis of sheep red blood cells (SRBCs). One is conducted in gel phase using undiluted sera and the other in liquid phase with sera in 1/100 dilution. The majority of discrepant readings are observed as low or absent haemolysis in the gel phase, with values within or above the normal range in the liquid phase. The incidence of discrepant assay readings was evaluated in 300 samples. Furthermore, 28 samples showing the most discrepant readings were investigated further for disturbing factors. Factors evaluated in the test sera were mannose-binding lectin, C-reactive protein (CRP), immune complexes, antibodies to SRBCs, rheumatoid factor and immunoglobulin A (IgA) and IgG anti-C1q antibodies. The results showed that discrepant readings are present in 10% of the 300 samples and false low gel assay readings account for 6.3%. The majority (68%) of the discrepant samples contained a heat-stable-inhibiting factor, and the main mediators found were elevated levels of IgA anti-C1q antibodies and antibodies to SRBCs. This could indicate a clinically relevant factor in the test sera but can also result from the difference in assay design.

Increased T-lymphocyte apoptosis/necrosis and IL-10 producing cells in patients and their spouses in Icelandic systemic lupus erythematosus multicase families.

The objective of this study was to evaluate apoptosis and production of IL-10 in SLE patients, their spouses and first-degree relatives in Icelandic SLE multicase families. Previously, increased IL-10 production has been found in all three groups. As IL-10 has been found to induce apoptosis in SLE, the percentage of lymphocytes undergoing apoptosis was evaluated, as well as the possible correlation between apoptosis and IL-10 production. Apoptosis and IL-10 production were studied in SLE patients (n = 12) from SLE multicase families and their spouses (n = 12) and a matched control group of healthy individuals (n = 10). The proportion of T and B lymphocytes undergoing apoptosis at 0, 24, 48 and 72 h was detected by flow cytometry using Annexin V and PI staining and the rate of apoptosis was calculated. IL-10 production was studied simultaneously by ELISpot analysis of freshly isolated peripheral blood mononuclear cells. In addition, T lymphocyte apoptosis at t = 0 was investigated in a group of non-household first-degree relatives (n = 10) and controls (n = 10). Antinuclear and antilymphocyte antibodies were analysed in all the groups. The SLE patients as a group had a significantly increased percentage of T lymphocytes in apoptosis at 0 and 48 h and a significantly higher number of IL-10 producing cells as compared with the healthy controls (P = 0.03, 0.02 and 0.03, respectively). The spouses also had significantly increased percentage of T lymphocytes in apoptosis (t = 0) and a significantly higher number of IL-10-producing cells when compared with healthy controls (P = 0.01 and 0.02, respectively). There were no significant differences between the patients and their spouses. For apoptosis of B lymphocytes no difference was found between the groups. The SLE patients as a group had the highest rate of apoptosis. No correlation between the degree and rate of apoptosis and the number of IL-10-producing cells was detected. The first-degree relatives did not have increased percentage of T lymphocytes undergoing apoptosis at t = 0 compared with healthy controls. The SLE patients had higher titres of ANA compared with the other groups. No correlation was detected between the ANA titre and the percentage of lymphocytes undergoing apoptosis. There was no correlation between disease activity as measured by SLEDAI and apoptosis. In conclusion, our results suggest that environmental factors common to both SLE patients and their spouses are associated both with the increased apoptosis and increased spontaneous production of IL-10, thus providing support for the notion that both environmental and genetic factors influencing apoptosis are of importance for the development of SLE.

C4AQ0 superimposed on a primary defect increases the susceptibility to systemic lupus erythematosus (SLE) in a family with association between C4AQ0 and SLE.

OBJECTIVE: To investigate the association of C4AQ0 with increased incidence of systemic lupus erythematosus (SLE) or positive serology (28%) in an extended Icelandic family, and whether this can be explained by impaired complement function in handling immune complexes (IC). METHODS: The ability of the classical pathway to opsonize nascent IC [alkaline phosphatase (AP)-anti-AP] and bind them to human erythrocytes was evaluated by the new ICRB assay. The capacity of erythrocytes from family members to bind nascent IC was also measured by a modification of the ICRB assay. IC levels were measured by complement consumption assay, C3d by a sandwich ELISA, factor B by immunoelectrophoresis, and the alternative pathway function by a hemolytic assay. RESULTS: Family members with homozygous or heterozygous C4AQ0 (47%) showed no impaired complement dependent opsonization of IC and binding to erythrocytes. Their factor B and alternative pathway function was normal. Fifty-six percent of the family members (n=18) had abnormally high IC levels, seemingly independent of C4AQ0. However, 6 of the 7 individuals with high IC levels and SLE symptoms had C4AQ0 compared to 2 of 11 symptom-free individuals with high IC levels. CONCLUSION: Our results suggest that the susceptibility for SLE in this family may result from 2 different defects, one leading to elevated IC levels, and another associated with C4AQ0 without detectable impairment in the complement dependent IC transport mechanism. Individuals with both abnormalities have increased susceptibility to SLE.

An enzyme based assay for the measurement of complement mediated binding of immune complexes to red blood cells.

A new in vitro method is presented for measuring directly the ability of sera to induce binding of immune complexes (ICs) to erythrocytes (ICRB assay). The assay measures the binding of alkaline phosphatase (AP)-anti-alkaline phosphatase (anti-AP) complexes formed in the presence of the test sera to the complement receptor 1 (CR1) on normal human red blood cells (RBCs). By using a standard serum source, the assay can also be used to measure the IC binding ability of RBCs from different donors. As compared to the traditional CH50 method, the ICRB assay generally showed more pronounced abnormality in 10 individuals tested, of whom 5 had primary deficiency of classical pathway components. Seven out of ten individuals had systemic lupus erythematosus (SLE) and 2/10 had other rheumatic diseases without primary complement deficiency. The ICRB measured in samples from 9 other patients with SLE was significantly decreased when compared to values from 80 normal individuals. ICRB in serum samples from a C2 deficient SLE patient collected during plasma infusion treatment reflected closely the rising amount of C2 in the serum. Using RBCs from different donors ICRB activity correlated well with the numbers of CR1 as measured by a flow cytometric assay (FCA). These methods should be valuable for measuring the overall IC clearance capacity of the blood and have the advantage that the use of radioactive isotopes is avoided.

Participation of factor B in residual immune complex red cell binding activity observed in serum from a C2-deficient systemic lupus erythematosus patient may delay the appearance of clinical symptoms.

OBJECTIVE: To investigate whether participation of factor B (FB) in immune complex transport might explain long periods of clinical remissions in a homozygous C2-deficient patient with systemic lupus erythematosus (SLE) treated regularly with plasma infusions. METHODS: Immune complex red cell binding (ICRB) was assayed as enzyme activity, C3d by enzyme-linked immunosorbent assay, and FB by immunoelectrophoresis. RESULTS: C2-deficient sera showed low-grade ICRB, which correlated with levels of FB. This activity could be blocked with antibodies to C1q, C4, or FB, but not by antibodies to C2. C3d levels in the patient's plasma changed during infusion, followed by a gradient increase during remission. Comparison of ICRB, C3d, and FB suggested an inverse relationship between FB levels and clinical symptoms. CONCLUSION: In C2 deficiency, FB may interact with C4 to provide a low-grade ICRB. This activity could be clinically significant in patients with C2 deficiency and explain why they are less prone to SLE than patients with C1q or C4 deficiency.