Polyterpenoids as cholesterol and tetrahymanol surrogates in the ciliate Tetrahymena pyriformis.

D Raederstorff, M Rohmer

Index: Biochim. Biophys. Acta 960(2) , 190-9, (1988)

Full Text: HTML

Abstract

The tetracyclic sterol precursors, cyclolaudenol, cycloartenol and lanosterol, inhibit efficiently the tetrahymanol biosynthesis in the ciliate Tetrahymena pyriformis, as reported earlier for cholesterol and other sterols. The prokaryotic bacteriohopanetetrols have little effect, and diplopterol, another hopanoid, as well as the carotenoid, canthaxanthin, have no effect. In the presence of triparanol, a hypocholesterolemic drug inhibiting the squalene cyclase of T. pyriformis and modifying the fatty acid metabolism, the cells do not grow further, but growth can be restored by the addition to the culture medium of suitable polyterpenoids. Thus, growth in presence of triparanol (13 microM) is almost normal after addition of a sterol such as sitosterol and cyclolaudenol, and longer lag times and lower absorbances than those of untreated cultures are observed in presence of cyclartenol, lanosterol, euphenol (a lanosterol isomer), bacteriohopanetetrols and three carotenoids. No growth at all is observed in the presence of tetrahymanol and diplopterol, although these triterpenoids are the normal reinforcers of the ciliate, probably because of a poor bioavailability. Thus, structurally different polyterpenoids are (at least partially) functionally equivalent and capable of replacing tetrahymanol or sterols and might act as membrane reinforcers in T. pyriformis cells.