Several years ago, it was established that the Delta 15 trans isomer o
f alpha-linolenic acid is converted in vivo into fatty acids containin
g 20 and 22 carbons (geometrical isomers of eicosapentaenoic and docos
ahexaenoic acids). The present study focused on the in vitro Delta 6 d
esaturation, the first step of the biosynthesis of the n-3 long-chain
polyunsaturated fatty acids from 18:3n-3. For that purpose, rat liver
microsomes were prepared and incubated with radiolabeled 18:3 Delta 9
cis, 12 cis, 15 cis (18:3 c,c,c) or 18:3 Delta 9cis, 12cis, 15 trans (
18:3 c,c,t) under desaturation conditions. The data show that 18:3c,c,
t is converted at a lower rate compared with alpha-linolenic acid. The
product of conversion of 18:3 c,c,t may be 18:4 Delta 6cis, 9cis, 12c
is, 15 trans resulting from a Delta 6 desaturation of the trans substr
ate. Moreover, the conversion of radiolabeled 18:3 c,c,t was strongly
decreased by the presence of 18:3 c,c,c (up to 48%) while the 18:3 c,c
,t only slightly decreased the conversion of radiolabeled 18:3c,c,c. T
hus, the desaturation enzyme presented a higher affinity for the nativ
e all-cis n-3 substrate.