Abstract
Ligand-activated nuclear receptors (NRs) including steroid receptors orchestrate development, growth, and reproduction across all animal lifeforms - the Metazoa - but how NRs evolved remains mysterious. Given the universality of terpenoids - including steroids and retinoids - as activating NR ligands, we asked if NRs might have evolved from enzymes that catalyze terpene synthesis and metabolism. We provide evidence suggesting that NRs are a sub-branch of the terpene synthase (TS) enzyme superfamily. Based on over ten thousand 3D structural comparisons, backed up by multiple primary sequence alignments and mapping of ligand-contacting residues, we report that the NR ligand-binding domain and TS enzymes share a conserved core of seven α-helical segments. Primary sequence comparisons reveal potential amino acid sequence similarities between NRs and the subfamily of cis-isoprene transferases, in particular dehydrodolichyl pyrophosphate synthase (DHDPPS) and its obligate partner, NUS1/NOGOB receptor. Our results suggest that a ligand-gated receptor may have arisen from an enzyme antecedent, and thus resolve the long-standing debate about whether the ancestral NR was unliganded. This would also explain aspects of NR ligand 'promiscuity', with implications for the development of pharmaceuticals targeting NRs and TS enzymes.
Competing Interest Statement
The authors have declared no competing interest.