Verspohl E J, Ammon H P
J Clin Invest. 1980 May;65(5):1230-7. doi: 10.1172/JCI109778.
Binding of insulin to islets of Langerhans was studied. It was found that "specific" binding of [125I]insulin ("specific" binding equals total binding minus nonspecific binding) was saturable with respect to time and insulin concentration and depended on the number of incubated islets. Furthermore, bound insulin was displaced by native insulin in a dose-dependent manner. Bound [125I]insulin was easily dissociated and there was little [125I]insulin degradation both in the incubation medium and during the processes of binding and dissociation. Scatchard analysis of experiments with increasing [125I]insulin concentration and with displacement of insulin binding by native insulin revealed "high affinity" binding sites with a dissociation constant of 0.461 +/- 0.08 n M and 3.5 X 10(6) high affinity binding sites per islet. There also existed "low affinity" binding sites with dissociation constant (Kd) of 43.9 +/- 11.6 nM and 5.9 X 10(7) low affinity binding sites. High affinity binding sites of islets from rats pretreated with alloxan decreased by about one half, whereas Kd was unaffected. Because the Kd of specific high affinity binding and mean effective dose (ED50) of the biological effects of insulin on normal pancreatic islets are in the same range (between 0.46 and 1.19 nM), the insulin-receptor interaction may be biologically significant.
研究了胰岛素与胰岛的结合情况。发现[125I]胰岛素的“特异性”结合(“特异性”结合等于总结合减去非特异性结合)在时间和胰岛素浓度方面是可饱和的,并且取决于孵育胰岛的数量。此外,结合的胰岛素可被天然胰岛素以剂量依赖的方式取代。结合的[125I]胰岛素很容易解离,并且在孵育介质以及结合和解离过程中几乎没有[125I]胰岛素降解。对增加[125I]胰岛素浓度以及用天然胰岛素取代胰岛素结合的实验进行Scatchard分析,结果显示存在“高亲和力”结合位点,其解离常数为0.461±0.08 nM,每个胰岛有3.5×10(6)个高亲和力结合位点。还存在“低亲和力”结合位点,其解离常数(Kd)为43.9±11.6 nM,有5.9×10(7)个低亲和力结合位点。用四氧嘧啶预处理的大鼠胰岛的高亲和力结合位点减少了约一半,而Kd不受影响。由于胰岛素对正常胰岛生物效应的特异性高亲和力结合的Kd和平均有效剂量(ED50)处于相同范围(0.46至1.19 nM之间),胰岛素 - 受体相互作用可能具有生物学意义。