Non-specific Biosynthesis of Gammacerane Derivatives by a Cell-Free System from the Protozoon Tetrahymena pyriformis

Abstract

1 A cell-free system from the protozoon Tetrahymena pyriformis was incubated with either [12-³H]squalene or (RS)-2,3-epoxy-2,3-dihydro-[12,13-³H]squalene. Squalene was cyclized into tetrahymanol whereas racemic squalene epoxide was transformed into gammacerane-3α,21α-diol and gammacerane-3β,21α-diol. After cyclization of (RS)-2,3-epoxy-2,3-dihydro-[3-³H]squalene, both epimeric gammaceranediols were labelled with a tritium atom located at C-3, showing that no isomerization via a 3-oxo compound occurred. 2 The proton NMR spectra of the cyclization products of synthetic (2E, 22E)-(1,1,1,24,24,24-²H₆) squalene and (RS)-(22E)-2,3-epoxy-2,3-dihydro-(1,1,1,24,24,24-²H₆) squalene show that squalene and the (3S)enantiomer of its epoxide are cyclized in an all pre-chair conformation, whereas tae (3R) enantiomer of squalene epoxide is cyclized in a pre-boat conformation as concerns the cycle A. 3 The squalene cyclase of T. pyriformis presents the sane lack of substrate specificity as the cyclase of Acetobacter pasteurianum: in addition to squalene, its normal substrate, it also cyclizes both enantiomers of its epoxide. This conformational versatility is characteristic of squalene cyclases but no longer exists in the squalene epoxide cyclases from eukaryotes.