SPECIFIC BINDING OF 2-[I-125]MELATONIN BY PARTIALLY PURIFIED MEMBRANES OF RAT THYMUS

Melatonin binding sites were characterized in partially purified rat t hymus membranes. The specific binding of 2-[I-125]iodomelatonin ([I-12 5]MEL) to thymus membranes was dependent on time and temperature, stab le, saturable, and reversible. Concentration-dependent binding of [I-1 25]MEL to thymus membranes was saturable and resulted in a linear Scat chard plot, suggesting binding to a single class of binding sites. The K(d) for this single site was 0.47 nM with a binding capacity of 1.01 pM. In competition studies, the specific binding of [I-125]MEL to thy mus membranes was inhibited by increasing concentrations of native mel atonin. Scatchard analysis showed that, unlike in saturation studies w ith [I-125]MEL, data were compatible with the existence of two classes of binding sites: a high-affinity site with a K(d) of 1.72 +/- 0.25 n M and a binding capacity of 1.40 +/- 0.18 pM, and a low-affinity site with a K(d) of 1226 +/- 325 nM and a binding capacity of 460 +/- 87 pM . Interestingly, K(d) and BC values of the high-affinity binding site described by competition studies are similar to those obtained by satu ration studies with [I-125]MEL. Binding of [I-125]MEL to thymus membra nes was specific as indicated by the fact no other melatonin precursor or derivative was as potent as melatonin in inhibiting the binding of [I-125]MEL to membranes. Results strongly suggest that melatonin is i nvolved in regulation of thymus activity.