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Calcium ionophore A23187 primes human B-cells for activation by phorbol dibutyrate by converting receptors for phorbol dibutyrate from a low to high affinity state

The calcium ionophore A23187 synergised with phorbol dibutyrate-induced activation of human chronic lymphatic leukaemia B-cells, as assessed by modulation of the membrane receptor for mouse erythrocytes. Thus A23187 (1 microM), which alone had no effect on expression of the receptor for mouse erythrocytes, reduced the EC50 and shortened the lag period for modulation of this receptor by phorbol dibutyrate. This action of A23187 was shown to be due to enhanced binding of [3H]phorbol dibutyrate to its receptor (phospholipid/Ca++ dependent protein kinase C) whose affinity was altered from a predominantly low affinity state (Kd 83 nM) to high affinity (Kd 9 nM). A23187 had no effect on the total number of phorbol dibutyrate receptors. EDTA abolished these actions of A23187.

A subclass of albumin recognized by inhibition of phosphatidylethanolamine-mediated agglutination of mouse erythrocytes

Agglutination of mouse erythrocytes by non-choline phospholipids is inhibited by a factor in mammalian sera. The inhibitor cochromatographed with albumin on dye-agarose conjugates, was retained by an anti-albumin affinity column, was neutralized by anti-albumin antibody and found in a serum fraction in which only albumin could be detected. A variety of commercial preparations of albumin (fraction V, crystalline) did not inhibit. However, they acquired potent inhibitory activity when treated with low molecular weight thiols. The inhibitory activity of serum was increased 8-fold by treatment with dithiothreitol. Other proteins were not activated in this way. Inhibitory activity increased with average free sulphydryl content of treated albumin, up to six thiol groups per molecule. Alkylation of these sulphydryl groups did not diminish inhibitory activity. Thiols also induced polymerization of albumin. Inhibitory albumin in serum was largely monomeric. We propose that the inhibitor is a type of serum albumin which is lost or inactivated during preparation of commercial albumin, and which shares a structural feature, necessary for inhibition, with thiol-reduced albumin and the ligand on mouse erythrocytes.

Agglutination of mouse erythrocytes by binding of non-choline phospholipids to A 70 000-Dalton protein

The structure of some phospholipids that cause agglutination of mouse erythrocytes has been studied. Haemagglutination is a property of non-choline-containing phospholipids; the phosphate group is essential and unsaturated fatty acids optimal. A protein of Mr 70 000 was isolated from mouse erythrocyte membranes which completely inhibited phospholipid-mediated erythrocyte agglutination. It is proposed that this protein is the phospholipid binding site on mouse erythrocytes and the ligand for the human B-lymphocyte receptor for mouse erythrocytes. Preliminary investigations suggest that a similar inhibitor of phospholipid-mediated agglutination is found in serum. Agglutination of mouse erythrocytes by phospholipid and specific inhibition by the 70 kDa membrane protein constitute a simple system for studying the interaction of phospholipid with protein.