Isoform-specific regulation of platelet-derived growth factor activity and binding in osteoblast-enriched cultures from fetal rat bone.

In osteoblast-enriched cultures from fetal rat bone, the A-chain homodimer of platelet-derived growth factor (PDGF-AA) is less potent than the PDGF isoforms containing B chain subunits (PDGF-AB and PDGF-BB), but normal osteoblasts appear to synthesize only PDGF-A subunit mRNA and polypeptide. However, other agents may regulate PDGF-AA activity in skeletal tissue. Pretreatment of osteoblast-enriched cultures with interleukin 1 alpha (IL-1 alpha) or tumor necrosis factor-alpha (TNF-alpha) synergistically enhanced the mitogenic effect of PDGF-AA coincident with increased binding site occupancy, but neither factor augmented PDGF-BB activity or binding. Polyacrylamide gel analysis showed 125I-PDGF-AA binding complexes predominantly at greater than 200 kD and faint labeling at 185 kD. After IL-1 alpha or TNF-alpha pretreatment, PDGF-AA binding increased at both sites, but this effect was more striking at 185 kD, which co-migrated with 125I-PDGF-BB-labeled complexes. PDGF-AA binding sites were rapidly lost by comparison to those for PDGF-BB in cycloheximide-treated cultures, but they remained relatively enhanced by IL-1 alpha and TNF-alpha pretreatment. These studies indicate that IL-alpha and TNF-alpha increase PDGF-AA binding and activity for osteoblasts by mechanisms that are at least in part independent of new receptor synthesis, and suggest regulatory events that could control how PDGF binding sites specifically recognize different ligands.