Expression and Purification of EPHA2 Tyrosine Kinase Domain for Crystallographic and NMR Studies.

The receptor tyrosine kinase EPHA2 is overexpressed in several cancers (breast, head and neck, non-small-cell lung cancer). Small-molecule-based inhibition of the EPHA2 kinase domain (KD) is seen as an important strategy for therapeutic intervention. However, obtaining structural information by crystallography or NMR spectroscopy for drug discovery is severely hampered by the lack of pure, homogeneous protein. Here, different fragments of the EPHA2 KD were expressed and purified from both bacterial (Escherichia coli, BL21(DE3) cells) and insect cells (Spodoptera frugiperda, Sf9 cells).1 H,15 N HSQC was used to determine the proper folding and homogeneity of all the constructs. Protein from E. coli was well-folded but unstable, and it did not crystallize. However, a construct (D596-G900) produced in Sf9 cells yielded homogenous, well-folded protein that crystallized readily, thereby resulting in eleven new EPHA2-ligand crystal structures. We have also established a strategy for selective and uniform 15 N-amino acid labeling of EPHA2 KD in Sf9 cells for investigating dynamics and EPHA2-drug interactions by NMR.

High-level expression of a full-length Eph receptor.

Eph receptors are the largest family of Receptor Tyrosine Kinases containing a single membrane-spanning segment. They are involved in a various developmental and cell-cell communication events. Although there is extensive structural information available on both the extra- and intracellular regions of Eph's in isolation, no structures are available for the entire receptor. To facilitate structural studies on functionally relevant Eph/ephrin complexes, we have developed an expression system for producing the full-length human EphA2 receptor. We successfully expressed milligram amounts of the receptor using baculovirus-based vector and insect cells. We were also able to extract the protein from the cell membranes and purify it to near homogeneity in two simple steps. The purified receptor was shown to retain its biological activity in terms of both binding to its functional ligands and being able to auto-phosphorylate the key tyrosine residues of the cytoplasmic kinase domain.

Expression and purification of the intact cytoplasmic domain of the human ephrin receptor A2 tyrosine kinase in Escherichia coli.

The ephrin receptor A2 (EphA2) is an integral membrane protein tyrosine kinase and a member of the Eph family, the largest known family of receptor tyrosine kinases. EphA2 overexpression is sufficient to transform normal epithelial cells into an aggressive, metastatic phenotype. In normal cells, EphA2 negatively regulates cell growth and invasiveness. Here we report expression of the intact cytoplasmic domain (juxtamembrane linker, tyrosine kinase, and sterile alpha motif domains) of the human EphA2 receptor in an Escherichia coli system. The expressed protein was purified to near homogeneity by use of metal chelation chromatography combined with removal of vector-encoded tags by specific proteolysis. The cytoplasmic domains of EphA2 are expressed as an active kinase, with the expressed protein found to contain phosphorylated tyrosine residues. In addition, protein tyrosine phosphorylation appears only after EphA2 expression is induced and is removable with alkaline phosphatase treatment. The enzyme was purified 5-fold in yields that average 10-30 mg/L of active EphA2 cytoplasmic domains, which will now be used for further biophysical and structural characterization.