The kinase DYRK1A phosphorylates substrate proteins that are involved in the progression of many diseases. DYRK1A also phosphorylates its own residues on key elements intramolecularly to activate and stabilize itself during the folding process. Once the folding process of DYRK1A has completed, it can no longer catalyzes the intramolecular reaction, suggesting that a transitional intermediate state that catalyzes the autophosphorylation exists. In the previous study, we identified a small molecule, designated as FINDY, that selectively inhibits the folding intermediate of DYRK1A. Although evidence has suggested that FINDY targets the ATP-binding pocket of DYRK1A, it remains elusive as to whether the DYRK1A kinase domain could be purified as a complex with FINDY. In this study, we successfully expressed and purified the kinase domain of DYRK1A in complex with FINDY. The DYRK1A kinase domain was expressed as a fusion protein with a hexahistidine tag and ZZ-domain (His-ZZ-DYRK1A) at 6 °C by using a cold shock induction system in Escherichia coli cells. The cells were incubated with FINDY. The cell pellets were gently extracted on ice and subjected to immobilized-metal affinity chromatography. The amount of FINDY in the elution fraction was measured by UV absorbance specific for FINDY. The eluate contained FINDY with the ratio of FINDY to DYRK1A protein being 0.15 in quadruplicate experiments. Thus, this study demonstrates the direct interaction between the DYRK1A kinase domain and FINDY, paving the way for structural determination of the complex.
Keywords: Autophosphorylation; DYRK1A; FINDY; Folding; Intermediate; Protein kinase; ZZ-Domain.
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