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A cytochrome P450 CYP87A4 imparts sterol side-chain cleavage in digoxin biosynthesis.

Emily CarrollBaradwaj Ravi GopalIndu RaghavanMinakshi MukherjeeZhen Q Wang
Published in: Nature communications (2023)
Digoxin extracted from the foxglove plant is a widely prescribed natural product for treating heart failure. It is listed as an essential medicine by the World Health Organization. However, how the foxglove plant synthesizes digoxin is mostly unknown, especially the cytochrome P450 sterol side chain cleaving enzyme (P450 scc ), which catalyzes the first and rate-limiting step. Here we identify the long-speculated foxglove P450 scc through differential transcriptomic analysis. This enzyme converts cholesterol and campesterol to pregnenolone, suggesting that digoxin biosynthesis starts from both sterols, unlike previously reported. Phylogenetic analysis indicates that this enzyme arises from a duplicated cytochrome P450 CYP87A gene and is distinct from the well-characterized mammalian P450 scc . Protein structural analysis reveals two amino acids in the active site critical for the foxglove P450 scc 's sterol cleavage ability. Identifying the foxglove P450 scc is a crucial step toward completely elucidating digoxin biosynthesis and expanding the therapeutic applications of digoxin analogs in future work.
Keyphrases
  • heart failure
  • cell wall
  • amino acid
  • dna binding
  • gene expression
  • left ventricular
  • atrial fibrillation
  • small molecule
  • protein protein
  • molecular docking
  • cardiac resynchronization therapy