Creatinine-specific antibodies have been generated and used for highly sensitive and specific immunochemical creatinine determinations. Creatinine was derivatized at N3 and coupled to KLH carrier protein. On the basis of this immunogen, monoclonal antibodies were developed by hybridoma technology. Antibodies from various clones have been characterized with BIAcore 2000 with respect to the dissociation constant and specificity. Antibodies of clone B90-AH5 exhibited the lowest dissociation constant (0.74 microM) and the highest specificity for creatinine and were chosen for the development of a competitive ELISA and an amperometric creatinine sensor. The creatinine sensor was constructed by fixing a creatinine-modified membrane on the top of a platinum working electrode which was then incorporated into a stirred electrochemical measuring cell. For creatinine determination the creatinine-containing sample was incubated with B90-AH5 and anti-IgG(mouse)-glucose oxidase conjugate and applied to the measuring cell. After a washing step glucose was added and the produced hydrogen peroxide was registered at Eappl = +600 mV vs Ag/AgCl. The measuring range was 0.01-10 microg/mL. The highest sensitivity for creatinine was achieved at 330 ng/mL (3 microM) and the lower detection limit at 4.5 ng/mL (40 nM). This is far below the relevant clinical range, which is 5-17 microg/mL (44-150 microM) and allows a reliable determination of very low creatinine concentrations in serum, where standard methods cannot be applied. After each measurement the sensor was regenerated with 10 mM HCl without any loss in binding activity.
Anti-double-stranded (ds)DNA antibodies are serological markers of systemic lupus erythematosus (SLE). Of all anti-dsDNA antibody detection methods, the Crithidia luciliae immunofluorescence test (CLIFT) is thought to have the highest specificity for SLE. However, the clinical application is hampered by the low diagnostic sensitivity. A CLIFT with modified assay buffer (mCLIFT) was developed and compared with conventional CLIFT, using sera from 110 patients with SLE, 89 anti-dsDNA ELISA-positive patients with other diseases (non-SLE group A), 157 non-SLE patients with undetectable anti-dsDNA antibodies by ELISA (non-SLE group B), 77 disease controls (non-SLE group C), and 50 healthy blood donors. Out of the 110 anti-dsDNA antibody ELISA-positive SLE patients, 84 (76.4%) demonstrated a positive kinetoplast staining, using the mCLIFT, compared to only 42.3%, using the conventional CLIFT. The diagnostic specificity of mCLIFT was 100% with healthy blood donors and 98.1% with the non-SLE group C (anti-nuclear antibodies negative; no signs or symptoms of an autoimmune disease) included. In the non-SLE groups A and B with various other autoimmune diseases or symptoms of a possible autoimmune disease, positive mCLIFT results were obtained in 33.7% and 3.2%, respectively. In conclusion, by modification of the assay buffer, a significant increase in sensitivity of the CLIFT could be observed while retaining the high specificity for SLE. Further investigation is required to check whether the CLIFT-positive non-SLE patients develop SLE and whether anti-dsDNA antibodies detected by the mCLIFT represent a pathogenetic and diagnostic subgroup of autoantibodies that may improve the early diagnosis of SLE or SLE-overlap syndromes.
C1q is a highly conserved protein with multiple functions involved in innate and adaptive immunity. It plays an important role in the activation of the classical pathway of the complement system to mediate the scavenging of infectious agents, apoptotic products, and immune complexes by the mononuclear phagocyte system (MPS). Exhibiting this function, C1q is able to bind various molecules (complexed IgG, IgM, fibrinogen, fibronectin, lipopolysaccharides, DNA, C-reactive protein [CRP], and viral proteins). Moreover, the collagen-like region of C1q is a target of autoantibodies. Immune complexes and anti-C1q autoantibodies are known to be involved in the pathogenesis of autoimmune diseases. Therefore, C1q is a promising candidate to extract waste material from the circulation. Following the development of the C1q immunoadsorbent, 8 patients with systemic lupus erythematosus (SLE) were treated in a first clinical trial. These preliminary results indicate that C1q immunoadsorption is a safe, compatible, and effective treatment for these patients.
Antiphospholipid syndrome (APS) is a disease characterized by venous and arterial thromboses or spontaneous abortions and the repeated detection of antiphospholipid antibodies (aPL). APS may be associated with another autoimmune disease (secondary APS), particularly systemic lupus erythematosus (SLE), or unrelated to an underlying disease (primary APS). APS affects almost all organs. In addition to the clinical criteria, lupus anticoagulant testing and immunological aPL determinations are required to establish the diagnosis of APS.
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