G. Bee et al., Dietary fats and energy levels differently affect tissue lipogenic enzyme activity in finishing pigs, FETT-LIPID, 101(9), 1999, pp. 336-342
The aim of the present study was to determine the relationship between high
and low digestible energy levels (9.5 vs. 15.4 MJ ME/kg) and either tallow
or soy oil supplementation (5%) on lipogenic activities and fatty acid pro
file of the backfat tissue outer layer and liver tissue in finishing pigs.
Twenty Large White pigs averaging 30 (initial) to 106 kg (final) live weigh
t were allocated into four dietary groups and fed the diets ad libitum. The
lipid content and fatty acid composition of the tissues were determined an
d glucose-6-phosphate dehydrogenase (G6PDH), malic enzyme (ME). and fatty a
cid synthase (FAS activity were measured. Growth performance and carcass me
asurements were affected by the dietary energy levels but not by the fat so
urces. Lipid deposition rate of animals fed the low energy diets was lowere
d regardless whether tallow or soy oil was supplemented. Unlike lipid depos
ition, fatty acid profile was influenced by both dietary factors. Pigs fed
the low energy diet supplemented with soy oil exhibited the lowest level of
saturated (P < 0.001), monounsaturated (P < 0.001), and the highest level
of polyenic fatty acids in the backfat, the opposite was the case for the p
igs fed the high energy diet supplemented with beef tallow. The fatty acid
profile of the adipose tissue of animals fed the other two diets were inter
mediate, but clear distinction of the profile due to diets was visible. Ind
ependent of dietary treatments, lipogenic activities were up to 10 times hi
her in the backfat than in the liver. G6PDH activity was higher (P < 0.05)
due to high energy diet, whereas the activities of ME and FAS were not aff
ected. Animals fed the high energy diet either supplemented with tallow or
soy oil exhibited higher ME activity (P < 0.05) in the backfat, without any
effects on G6PDH activity. In contrast. dietary fat sources affected the F
AS activity, with lower activity (P < 0.05) exhibited in the backfat of ani
mals fed the soy oil diets. The present results indicate that dietary manip
ulation, which change the flux through the pathway of lipogenesis and pento
se-phosphate must affect differently the activities of the involved enzymes
. The effect of the dietary energy level was stronger and overwhelmed the i
nducing effect of the PUFA on the activities of the collateral enzymes. In
contrast the immediately involved lipogenic enzyme FAS responded more to di
etary PUFA stimulation than to the energy supply.