Evidence for reutilization of surface receptors for alpha-macroglobulin.protease complexes in rabbit alveolar macrophages

Rabbit alveolar macrophages internalize α-macroglobulin ¹²⁵I-trypsin complexes subsequent to binding of complexes to high affinity surface receptors. Cells were capable of accumulating a 5–10 fold greater amount of αM · ¹²⁵I-T at 37°C than at 0°C. At 0°C cell-bound αM · ¹²⁵I-T was bound solely to surface receptors, whereas at 37°C the majority (85%) of cell-bound radioactivity was intracellular. The temperature-dependent accumulation of αM · ¹²⁵I-T did not reflect a change in surface receptor number or ligand-receptor affinity. Rather, the greater rate of uptake reflected continued internalization of αM · ¹²⁵I-T complexes. At 37°C cells took up 5–9 fmole αMT per μg cell protein per hr, whereas binding to surface receptors accounted for 0.5–0.7 fmole per μg cell protein. Once bound to surface receptors internalized αM · ¹²⁵I-T was localized in lysosomes, where it was degraded at a rate of 35–45% per hr. Following binding of αM · T to receptors at 37°C, but not at 0°C, unoccupied receptors could be found on the cell surface. Using cycloheximide to probe receptor turnover, I calculated that receptors were replenished at a rate of 15% per hr. Cells incubated in the presence of cycloheximide exhibited unaltered ligand uptake and catabolism for hours. Thus the reappearance of receptor activity during ligand uptake was not primarily due to de novo receptor synthesis. The rate of ligand uptake was a function of the number of surface receptors. Measurement of αM¹²⁵I-T binding to subcellular fractions did not reveal the presence of any intracellular reservoir of receptors. These observations are consistent with the hypothesis that continued ligand uptake reflects receptor reutilization.