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Effect of (+)-usnic acid on mitochondrial functions as measured by mitochondria-specific oligonucleotide microarray in liver of B6C3F(1) mice

Authors
Joseph, AjayLee, TaewonMoland, Carrie L.Branham, William S.Fuscoe, James C.Leakey, Julian E. A.Allaben, William T.Lewis, Sherry M.Ali, Akhtar A.Desai, Varsha G.
Issue Date
4월-2009
Publisher
ELSEVIER SCI LTD
Keywords
Usnic acid; Liver; Female B6C3F(1) mice; Gene expression; Mitochondrial functions
Citation
MITOCHONDRION, v.9, no.2, pp.149 - 158
Indexed
SCIE
SCOPUS
Journal Title
MITOCHONDRION
Volume
9
Number
2
Start Page
149
End Page
158
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/120319
DOI
10.1016/j.mito.2009.02.002
ISSN
1567-7249
Abstract
Usnic acid is a lichen metabolite used as a weight-loss dietary supplement due to its uncoupling action on mitochondria. However, its use has been associated with severe liver disorders in some individuals. Animal studies conducted thus far evaluated the effects of usnic acid on mitochondria primarily by measuring the rate of oxygen consumption and/or ATP generation. To obtain further insight into usnic acid-mediated effects on mitochondria, we examined the expression levels of 542 genes associated with mitochondrial structure and functions in liver of B6C3F(1) female mice using a mitochondria-specific microarray. Beginning at 8 weeks of age, mice received usnic acid at 0, 60, 180, and 600 ppm in ground, irradiated 5LG6 diet for 14 days. Microarray analysis showed a significant effect of usnic acid on the expression of several genes only at the highest dose of 600 ppm. A prominent finding of the study was a significant induction of genes associated with complexes I through IV of the electron transport chain. Moreover, several genes involved in fatty acid oxidation, the Krebs cycle, apoptosis, and membrane transporters were over-expressed. Usnic acid is a lipophilic weak acid that can diffuse through mitochondrial membranes and cause a proton leak (uncoupling). The up-regulation of complexes I-IV may be a compensatory mechanism to maintain the proton gradient across the mitochondrial inner membrane. in addition, induction of fatty acid oxidation and the Krebs cycle may be an adaptive response to uncoupling of mitochondria. Published by Elsevier B.V. on behalf of Mitochondria Research Society.
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