Isoform-specific induction of actin reorganization by platelet-derived growth factor suggests that the functionally active receptor is a dimer.

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Human platelet-derived growth factor (PDGF) occurs as three isoforms which are made up of disulfide-bonded A and B chains. The isoforms bind with different affinities to two different but structurally related cell surface receptors. The A type receptor binds all three isoforms (PDGF-AA, PDGF-AB, PDGF-BB) with high affinity, whereas the B type receptor binds PDGF-BB with high affinity, PDGF-AB with lower affinity but does not appear to bind PDGF-AA. We have utilized the differential effects of the three isoforms on actin reorganization and membrane ruffling in human foreskin fibroblasts to probe the idea that ligand-induced receptor dimerization is associated with receptor activation. Actin reorganization was found to be induced only by PDGF-AB and PDGF-BB and is therefore likely to be mediated by the B type receptor. Simultaneous addition of PDGF-AA, or downregulation of the A type receptor blocked the effect of PDGF-AB but not that of PDGF-BB. This is compatible with a model by which PDGF-AB binds to and dimerizes one A and one B type receptor; PDGF-AB therefore requires A type receptors in order to be functionally active at physiological concentrations. In cells with down-regulated A type receptors, high concentrations of PDGF-AB inhibited the effect of PDGF-BB on actin reorganization. We believe that this is due to a monovalent binding of PDGF-AB to the B type receptors which prevents PDGF-BB from dimerizing the receptors.(ABSTRACT TRUNCATED AT 250 WORDS)

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