Teizo Fujita

Decay-accelerating factor (DAF) on the blood cell membranes in patients with paroxysmal nocturnal haemoglobinuria (PNH): measurement by enzyme-linked immunosorbent assay (ELISA)

Summary. We developed a quantitative enzyme‐linked immunosorbent assay (ELISA) for decay‐accelerating factor (DAF) on blood cell membranes using monoclonal anti‐DAF antibodies. DAF is an integral membrane protein of several blood cells. It regulates the C3 and C5 convertase of the classical and alternative pathways of complement activation. It is partially or completely deficient in the membranes of blood cells of patients with paroxysmal nocturnal haemoglobinuria (PNH).

Determination of C4b•C4-bp complex formed by the activation of classical complement pathway using an enzyme-linked immunosorbent assay

We developed a quantitative enzyme-linked immunosorbent assay (ELISA) for the detection of C4b.C4-bp complex by incubating the sample on anti-C4-bp-coated plate and then developing with HRP-labeled anti-C4. The amount of C4b.C4-bp complex, generated in vivo by the interaction of purified C4b with C4-bp or normal human serum with aggregated human IgG, was measured by the ELISA. The complex, however, rapidly decreased in serum by the action of factor I. Six out of the 100 plasma samples from patients with various diseases were found positive in the ELISA. One plasma sample from a patient with SLE showed high level of C4b.C4-bp complex with decreased levels of factor I, C4, C4-bp and CH50. These results suggest that the detection of C4b.C4-bp complex is useful for monitoring the diseases in which the classical pathway activation is expected.

A solid-phase anti-C3 assay for detection of immune complexes in six distinguished forms

A solid-phase anti-C3 assay detecting immune complexes associated with C3 fragments is described. Two monoclonal antibodies against C3 fragments are used; one recognizes an epitope expressed on C3b, C3c and C3i, the other recognizes an epitope expressed on C3dg and iC3b. Combining these monoclonal anti-C3s with antibodies against class-specific immunoglobulins in enzyme-linked immunosorbent assay (ELISA), immune complexes (ICs) are detected in six distinguished forms; C3b-IgG-IC, iC3b/C3dg-IgG-IC, C3b-IgA-IC, iC3b/C3dg-IgA-IC, C3b-IgM-IC and iC3b/C3dg-IgM-IC. About three-fourths of the plasma samples from patients with active SLE or IgA-nephritis were found positive in one or more types of ICs. IgA-type ICs were found very frequently in patients with autoimmune or renal diseases.

Abnormal expression of complement receptor (CR1) in IgA nephritis: increase in erythrocytes and loss on glomeruli in patients with impaired renal function.

The number of complement receptor for C3b (CR1) molecules in erythrocytes from patients with renal diseases was measured by an immunoradiometric assay using monoclonal antibodies against CR1. IgA nephritis patients with high serum creatinine value (Scr) showed markedly elevated levels of CR1, whereas patients with normal Scr had normal CR1 levels. A similar increase in CR1 number was observed in membranoproliferative glomerular nephritis with high Scr. CR1 of these patients functioned normally as a cofactor of C3b inactivator in cleaving immune complex-bound C3b. In contrast, a high frequency (5/6) of negative staining of glomerular CR1 was observed in IgA nephritis patients with high Scr by immunofluorescence study. We postulate that the disease-associated, acquired factors at least in part contribute to the abnormal expression of CR1: elevated levels in erythrocytes and defective expression on glomeruli.

Characterization of a CD4(L3T4)-positive cytotoxic T cell clone that is restricted by class I major histocompatibility complex antigen on FBL-3 tumor cell.

An L3T4(CD4)+ CTL clone specific for Friend virus-induced tumor FBL-3 was isolated, characterized and compared with a conventional Lyt-2(CD8)+ CTL clone. This clone L3.1 was obtained from the limiting dilution culture of splenic MLTC cells from a CB6F1 mouse whose CD8+ T cells had been suppressed by an in vivo injection of anti-Lyt-2.2 mAb. The phenotype of clone L3.1 was sIg-, Thy-1.2+, L3T4(CD4)+, Lyt-2 (CD8)-, and Ia- as determined by flow-cytometry. Northern blot analysis also confirmed that mRNA for L3T4(CD4), but not for Lyt-2 (CD8) was present in the total RNA of L3.1. The FBL-3-specific killing activity of L3.1 was inhibited by anti-H-2D6 mAb, and the tumor cells did not express class II MHC antigen, indicating that the recognition of tumor antigen by this CD4+ CTL clone was restricted by the class I MHC molecule on the tumor cells. Furthermore, the finding that anti-L3T4(CD4) mAb GK1.5 inhibited the specific and lectin-dependent non-specific cytotoxicity of L3.1 suggested that CD4 molecules on this CTL clone are not ligand (MHC class II)-binding proteins, but are involved in signal transduction.