UC Merced

Membrane proteins play important roles in health and disease. Despite their importance, the study of membrane proteins has been significantly limited by the difficulties inherent to their successful expression, purification, and stabilization once they have been extracted from the cell membrane. In addition, expression of human membrane proteins commonly requires the use of expensive and/or time-consuming eukaryotic systems, hence their successful expression in bacteria will be obviously beneficial for experimental research. Furthermore, since lipids can have critical effects on the activity of membrane proteins and given the composition similarities between the inner mitochondrial membrane and the bacterial plasma membrane, production of mitochondrial membrane proteins in E. coli represents a logical choice. Here, we present a novel protocol to produce a human mitochondrial ATP-Binding Cassette (ABC) transporter in E. coli. The function of the three known human mitochondrial ABC transporters is not fully understood, but X-ray crystallography models of ABCB10 produced in insect cells are available. We have successfully expressed and purified ABCB10 from E. coli. The yield is close to that of another bacterial ABC transporter routinely produced in our laboratory under similar conditions. In addition, we can efficiently reconstitute detergent purified ABCB10 into lipid nanodiscs. Measurements of ATPase activity of ABCB10 produced in E. coli show an ATP hydrolysis rate similar to other human ABC transporters. This novel protocol facilitates the production of this human mitochondrial transporter for biochemical, structural, and functional analysis, and can likely be adjusted for production of other mitochondrial transporters.