IgG antibodies can suppress more than 99% of the antibody response against the antigen to which they bind. This is used clinically to prevent rhesus-negative (Rh ؊ ) women from becoming immunized against Rh ؉ erythrocytes from their fetuses. The suppressive mechanism is poorly understood, but it has been proposed that IgG͞erythrocyte complexes bind to the inhibitory
Background:The enzyme myeloperoxidase produces chlorine bleach at sites of inflammation. Results: 2-Thioxanthines are potent mechanism-based inactivators of myeloperoxidase. Conclusion: 2-Thioxanthines block production of chlorine bleach during inflammation. Significance: Mechanism-based inactivators of myeloperoxidase should limit oxidative stress at sites of inflammation.
The ability of antigen-specific IgE antibodies to modulate the in vivo antibody response was studied by comparing the antibody response in mice immunized with 2,4,6-trinitrophenyl (TNP)-specific monoclonal IgE followed by bovine serum albumin (BSA)-TNP or with BSA-TNP alone. The serum IgG antibody response against BSA, measured in enzyme-linked immunosorbent assay ELISA, was enhanced up to 100-fold in groups receiving IgE. The enhancement required specific interaction between IgE and antigen, since no effect was seen when unconjugated BSA was used as antigen. Polyclonal activation by IgE/antigen complexes did not occur. IgE given 24 h after specific antigen had no stimulatory capacity. Pretreatment of the mice with Fc epsilon receptor type II (Fc epsilon RII)-specific monoclonal antibody completely inhibited the IgE-mediated enhancement. Thus, the data demonstrate for the first time an in vivo role for Fc epsilon RII in enhancement of specific antibody production.
Although not endogenous in nature, the sulfonamide functionality is widely found in organic molecules with biological activity. A search of Thomson Reuters Integrity reveals that the sulfonamide motif appears in 111 approved drugs or agents in clinical trials, [1] and the total number of organic molecules containing this functional group is enormous. In contrast, the sulfonamide isostere [2] in which one of the sulfonamide oxygen atoms have been replaced by a nitrogen atom, thus creating a sulfonimidamide has received little attention in the literature. The first reports on sulfonimidamides were published in the early 1960s, [3] however, it was only during the last few years that the research groups of Malacria [4] and Dodd [5] explored the use of sulfonimidamides as reagents in organic synthesis, while Bolm et al. explored sulfonimidamides as chiral organocatalysts [6a] and as ligands for transition metal-catalyzed asymmetric synthesis.[6b]
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