Specific disengagement of cell-bound anti-LAM-1 (anti-L-selectin) antibodies by aurintricarboxylic acid

Mitigation of tumor necrosis factor alpha cytotoxicity by aurintricarboxylic acid in human peripheral B lymphocytes

The aims of this study were to ascertain whether aurintricarboxylic acid (ATA), an endonuclease inhibitor, known to interfere, with the actions of cytokines such as interferons, is able to antagonize the toxic effects produced by tumor necrosis factor alpha (TNF-alpha) in human healthy peripheral B lymphocytes and try to elucidate the molecular machinery through which this possible antagonism takes place. Results evidenced that the balance of survival signals of human B lymphocytes in the presence of TNF-alpha was altered by the interaction of TNF-alpha with a salicylate compound, ATA. Apoptosis effected by TNF-alpha alone was suppressed in the presence of ATA, and this effect appeared essentially characterized by: (i) phosphorylation of phosphatidylinositol-3 kinase (PI-3K), influencing in turn protein kinase B/Akt (Akt) and Bad phosphorylation; (ii) nuclear translocation of the nuclear factor kappa B (NF-kappaB) and (iii) nuclear translocation of protein kinase C zed (PKCzeta). Reversal of TNF-alpha/ATA effects occurred in the presence of the PI-3K specific inhibitors wortmannin or LY294002 in the culture medium and was coincident with inhibition of the translocation of PKCzeta in the nucleus, while NF-kappaB was less affected. These results indicate, therefore, that PI-3K-mediated activation and nuclear transfer of PKCzeta might be essential steps of ATA antagonism against TNF-alpha, suggesting that possible ATA pharmacological applications might be taken into account for staving off systemic or local toxic effects produced by TNF-alpha.

Cross-linking of CD4 in a TCR/CD3-juxtaposed inhibitory state: a pFRET study

Instances when T cell activation via the T cell receptor/CD3 complex is suppressed by anti-CD4 Abs are generally attributed either to the topological separation of CD4-p56lck from CD3, or their improper apposition. Photobleaching fluorescence resonance energy transfer measurements permitted direct analysis of these alternatives on human peripheral blood lymphocytes. Distinction between changes of relative antigen densities or positioning was made possible by simultaneously recording donor and acceptor fluorescence in the energy transfer experiment performed on homogeneous populations of flow-sorted cells. We show here that CD4 stays in the molecular vicinity of CD3, while anti-CD3 stimulation is suppressed by anti-CD4 or cross-linked HIV gp120. Our data suggest that cross-linking of CD4 through particular epitopes is capable of inhibiting activation driven by Abs binding to specific sites on CD3 without major topological sequestration of the Ags, in such a way that additional positive signals will also be affected. Thus, these and other related cases of negative signaling via CD4 may be interpreted in terms of functional uncoupling rather than a wide physical separation of CD4 from the T cell receptor-CD3 complex.