Objective: To characterize a novel splice variant of the alpha subunit of the granulocyte-macrophage colony-stimulating factor (GM-CSF) receptor (GMRalpha), which we discovered in human neutrophils.
Methods: We used reverse transcriptase polymerase chain reaction to identify, characterize, and examine the expression of a novel splice variant of the GMRalpha transcript. At the protein level, surface plasmon resonance was used to measure the affinity of a recombinant soluble form of the novel GMRalpha protein for GM-CSF ligand. The full-length novel GMRalpha protein was expressed in a recombinant cell culture system, and its expression and localization were examined using Western blotting, I(125) GM-CSF binding assays, flow cytometry, and a soluble GMRalpha enzyme-linked immunosorbent assay.
Results: The novel GMRalpha transcript identified herein contains a previously undescribed exon of the GMRalpha gene; this exon derives from an Alu DNA repeat element, and is alternatively spliced in the novel GMRalpha transcript. Inclusion of this 102 nucleotide exon results in translation of a protein product, which we have named Alu-GMRalpha. Alu-GMRalpha is identical to cell surface GMRalpha, but additionally contains a 34 amino-acid insert in the juxtamembrane region of the extracellular domain of GMRalpha. Functionally, the Alu-GMRalpha-specific epitope does not modify the ability of the protein to bind GM-CSF, but rather appears to be preferentially targeted by ectodomain proteases to mediate the release of a third soluble GM-CSF receptor into the extracellular space.
Conclusions: This study provides the first example of a cytokine receptor system in which soluble receptors are produced by three distinct mechanisms. Our results highlight the importance of soluble GMRalpha proteins in regulation of GM-CSF signaling.