Our goal is to elucidate the nature of the bimolecular interaction of parathyroid hormone (PTH) with its receptor, the parathyroid hormone receptor type-l (PTHR1). In order to study this interaction, we are aiming to obtain a three-dimensional structure of the PTH-PTHR1 bimolecular complex. Due to the very low expression levels of endogenous PTHR1, a recombinant form is required for structural analysis. However, the extreme hydrophobicity of the transmembrane regions of PTHR1 makes heterologous expression of PTHR1 difficult. Therefore, we sought to express the N-terminal extracellular domain (N-ECD) of PTHR1, a region that plays a pivotal role in ligand interaction. We expressed the N-ECD in both bacterial (Escherichia coli) and insect (Sf9) cells. The form produced in E. coli, a fusion-protein with thioredoxin, is soluble. However, removal of the fusion partner from a partially purified preparation results in dramatic loss of yield of the N-ECD. Expression in Sf9 cells, however, facilitates purification of a soluble form of the N-ECD. Isothermal calorimetry demonstrates that this N-ECD binds PTH-(1-34), albeit with lower affinity than the full-length receptor. This report describes the expression and purification of milligram quantities of the isolated N-ECD of PTHR1. The receptor fragment retains the ability to bind its cognate peptide ligand, an important pre-requisite for subsequent structural studies. (c) 2007 Elsevier Inc. All rights reserved.