Depression and its related parameters increased the production of autoantibodies against 16α-hydroxyestrone-albumin complex in systemic lupus erythematosus.

Depression is the common and early symptoms associated with early onset of SLE, 16α-hydroxyestrone (16α-OHE1) levels were found to be significantly higher in serum and urine in patients with SLE. This study was carried out in order to know whether depression and its related parameters in the SLE patients enhanced the production of autoantibodies against 16α-OHE1-albumin (A) complexes. The autoantibodies in the serum of 100 SLE [including 65 depressed SLE (DSLE)] patients and 37 control subjects were detected by using direct binding, inhibition ELISA and quantitative precipitin titration. Autoantibodies from DSLE patients (and also the patients who were taken anti-depressant and with neurological symptoms) showed high binding to 16α-OHE1-A in contrast to SLE (p < 0.05) and control subjects (p < 0.001). Although, SLE sera showed high recognition to 16α-OHE1-A in comparison to A (p < 0.05) or 16α-OHE1 (p < 0.001). The affinity of autoantibodies for 16α-OHE1-A was found to be high for DSLE (1.16 × 10-7 M) and SLE (1.24 × 10-7 M) patients as detected by Langmuir plot. The concentration of 16α-OHE1 (p < 0.05) and inflammatory cytokines (IL-6, p < 0.05 and IL-17, p < 0.001) in the serum of SLE patients was found to be significantly higher than controls. Depression and its related parameters in SLE enhanced the production of autoantibodies against 16α-OHE1-A through the generation of inflammatory conditions. Depression in SLE patients increased the release of pro-inflammatory cytokine (IL-6 and IL-17) that in turn generating more autoantibodies and showed strong recognition to 16α-OHE1-A.

7 alpha-hydroxy-dehydroepiandrosterone and immune response.

In human and murine lymphoid organs, circulating 3 beta-hydroxysteroids, including pregnenolone (PREG), dehydroepiandrosterone (DHEA), and epiandrosterone (EPIA), are 7 alpha-hydroxylated by a cytochrome P450 identified in the hippocampus as P4507B1. Mouse and human lymphoid organs produced different patterns of 3 beta-hydroxysteroid 7 alpha-hydroxylation with the absence of pregnenolone and epiandrosterone hydroxylation in human and mouse, respectively. Both 7 alpha-hydroxy-DHEA and 7 alpha-hydroxy-EPIA triggered a significant increase of antitetanus toxoid and anti-Bordetella pertussis toxins IgGs production in cultures of activated B + T cells derived from human tonsils, whereas both 7 alpha-hydroxy-PREG and 7 alpha-hydroxy-DHEA increased the immune response in mouse. Paracrine action of 7 alpha-hydroxysteroids resulted from their production in cells of the lymphoid organs. Comparison of P4507B1 sequences in rat, human, and two mouse species showed that one amino acid change might explain important differences in KM for 7 alpha-hydroxylation, and suggested that such differences might contribute to the extent of immune response.

Influence of different combinations of antibodies and penicillinase-labeled testosterone derivatives on sensitivity and specificity of immunoassays.

Three antisera raised against bovine serum albumin (BSA) conjugates of testosterone-3-(O-carboxy-methyl)-oxime (T-3-CMO), 11 beta-hydroxytestosterone-11-carboxymethyl ether (T-11 beta-O-CME) and 19-hydroxytestosterone-19-carboxymethyl-ether (T-19-O-CME) were evaluated in enzyme immunoassays (EIAs) in combinations with penicillinase-labeled T-3-CMO, T-11 beta-O-CME, T-19-O-CME, and testosterone-17 beta-hemisuccinate (T-17 beta-HS) for their influence on the sensitivity and specificity of EIAs. Of the various combinations, anti-T-3-CMO antiserum along with T-11 beta-O-CME-penicillinase showed no cross-reaction with any of the closely related steroids, although the same antibody had 21.6% binding to 5 alpha-dihydrotestosterone (5 alpha-DHT) in radioimmunoassay. All the homologous combinations appeared to be less sensitive due to their low affinity for testosterone. It was also apparent that of all the heterologous systems tested, only two combinations, (a) anti-T-19-O-CME antiserum and T-3-CMO-penicillinase and (b) anti-T-3-CMO antiserum and T-11 beta-O-CME-penicillinase, were found to be more sensitive. The former was less specific; it showed 70% cross-reaction with 5 alpha-DHT. The ability of testosterone to displace the hapten-enzyme conjugate and the specificity of the assay appear to depend on the position of the enzyme label on the steroid molecule as well as on the availability of antigenic sites in particular combinations of antibody and hapten-enzyme conjugates.