Effect of dietary fatty acids on lipoprotein lipase
gene expression in the liver and visceral adipose tissue of fed and starved
red sea bream Pagrus major
X.-F.
Liang, H.Y. Ogata, Hiromi Oku-2002
Comparative
Biochemistry and Physiology - Part A: Molecular and Integrative Physiology,
132(4): 913-919
Abstract:
Juvenile
red sea bream Pagrus major were fed either a commercial diet (diet 1)
or diets supplemented with 10% oleate (diet 2), 5% oleate+5% linoleate (diet
3) or 5% oleate+5% n-3 polyunsaturated fatty acid mixture (diet 4) for 4
weeks. Following the conditioning period, the effects of dietary fatty acids
on lipoprotein lipase (LPL) gene expression in the liver and visceral
adipose tissue of fed (5 h post-feeding) and starved (48 h post-feeding)
fish were investigated by competitive polymerase chain reaction. Fish liver
showed substantial LPL mRNA expression that is not found in adult rat liver.
When compared with diet 1, diets 2-4 tended to increase the LPL mRNA level
in the liver, but tended to decrease it in the visceral adipose tissue under
the fed condition. The reciprocal regulation of the liver and visceral
adipose LPL mRNA abundance by dietary fatty acids was comparable to that of
rat brown and white adipose tissue, respectively. The change in the LPL mRNA
level by fatty acids was not completely consistent with the degree of fatty
acid unsaturation. Our results indicate that the regulatory effect of
dietary fatty acids on LPL gene expression was tissue-specific and related
to feeding conditions, but was not solely dependent on the degree of
unsaturation of fatty acids.
(National
Research Institute of Aquaculture, Nansei, Mie 516-0193, Japan, Tel.:
+81-298-38-6357; fax: +81-298-38-6655, e-mail of H.Y. Ogata: ogata1@jircas.affrc.go.jp)