Molecular basis for the recognition of steroidogenic acute regulatory protein by the 14-3-3 protein family

ABSTRACT

Steroidogenesis in adrenals and gonads starts from cholesterol transport to mitochondria by the steroidogenic acute regulatory protein STARD1, containing a mitochondrial import sequence followed by a cholesterol-binding START domain. Although mutations in this protein have been linked to lipoid congenital adrenal hyperplasia, the mechanism of steroidogenesis regulation by the STARD1 remains debatable, hypothetically involving a molten-globule structural transition and interaction with 14-3-3 proteins. We show that, while the isolated START domain does not interact with 14-3-3, interaction is enabled by STARD1 phosphorylation at Ser57, close to the mitochondrial peptide cleavage site. Biochemical analysis of the STARD1 affinity towards 14-3-3 and crystal structures of 14-3-3 complexes with Ser57 and Ser195 phosphopeptides, suggest distinct roles of site-specific phosphorylations in recruiting 14-3-3, to modulate STARD1 activity, processing and import to mitochondria. Phosphorylation at Ser195 creates a unique conditional site, that could only bind to 14-3-3 upon partial unfolding of the START domain.