Insulin Radioreceptor Assay on Murine Splenic Leukocytes and Peripheral Erythrocytes

Abstract

Insulin radioreceptor assays were developed using splenic leukocytes and peripheral erythrocytes from individual mice. Splenic leukocytes were prepared using an NH₄Cl buffer which did not alter insulin binding, but gave much higher yields than density gradient methods. Mouse erythrocytes were isolated from heparinized blood by three passages over a Boyum gradient, and a similar buffer was used to separate cells from free [¹²⁵I]iodoinsulin at the end of the binding incubation. Insulin binding to both splenic leukocytes and peripheral erythrocytes had typical pH, temperature, and time dependencies, and increased linearly with an increased number of cells. Optimal conditions for the splenic leukocytes (6 × 10⁷/ml) consisted of incubation with [¹²⁵I]iodoinsulin at 15 C for 2 h in Hepes buffer, pH 8.0. In cells from 20 individual mice, the specific [¹²⁵I]iodoinsulin binding was 2.6 ± 0.1% (SEM), and nonspecific binding was 0.3 ± 0.04% (10.6% of total binding). Erythrocytes (2.8 × 10⁹/ml) were incubated with [¹²⁵I]iodoinsulin at 15 C for 2 h in Hepes buffer, pH 8.2. In cells from 25 individual mice, the specific [¹²⁵I] iodoinsulin binding was 4.5 ± 0.2%, and nonspecific binding was 0.7 ± 0.03% (13.6% of total binding). In both splenic leukocytes and peripheral erythrocytes, analysis of equilibrium binding data produced curvilinear Scatchard plots with approximately 3500 binding sites/leukocyte and 20 binding sites/erythrocyte. These data demonstrate that adequate numbers of splenic leukocytes and peripheral erythrocytes can be obtained from individual mice to study insulin binding in a precise and reproducible manner. This should facilitate direct comparisons of these cells with classical target cells in a variety of mouse model diseases.