Human Cytochrome P450 17A1 Conformational Selection

Background: Crystallography provides a static structure of cytochrome P450 17A1 (CYP17A1). Results: Solution NMR reveals an ensemble of CYP17A1 conformational substates. Conclusion: Ligand, cytochrome b(5), or temperature alters the conformational CYP17A1 substates present. Significance: Changes in conformations probably modulate human steroidogenesis by CYP17A1. Crystallographic studies of different membrane cytochrome P450 enzymes have provided examples of distinct structural conformations, suggesting protein flexibility. It has been speculated that conformational selection is an integral component of substrate recognition and access, but direct evidence of such substate interconversion has thus far remained elusive. In the current study, solution NMR revealed multiple and exchanging backbone conformations for certain structural features of the human steroidogenic cytochrome P450 17A1 (CYP17A1). This bifunctional enzyme is responsible for pregnenolone C17 hydroxylation, followed by a 17,20-lyase reaction to produce dehydroepiandrosterone, the key intermediate in human synthesis of androgen and estrogen sex steroids. The distribution of CYP17A1 conformational states was influenced by temperature, binding of these two substrates, and binding of the soluble domain of cytochrome b(5) (b(5)). Notably, titration of b(5) to CYP17A1pregnenolone induced a set of conformational states closely resembling those of CYP17A117-hydroxypregnenolone without b(5,) providing structural evidence consistent with the reported ability of b(5) to selectively enhance 17,20-lyase activity. Solution NMR thus revealed a set of conformations likely to modulate human steroidogenesis by CYP17A1, demonstrating that this approach has the potential to make similar contributions to understanding the functions of other membrane P450 enzymes involved in drug metabolism and disease states.