Literature DB >> 18470630

Baicalein 5,6,7-trimethyl ether activates peroxisomal but not mitochondrial fatty acid beta-oxidation.

M Morita1, M Kanai, S Mizuno, M Iwashima, T Hayashi, N Shimozawa, Y Suzuki, T Imanaka.   

Abstract

Recently, we reported that baicalein 5,6,7-trimethyl ether (BTM), a flavonoid, is capable of activating fatty acid beta-oxidation in X-linked adrenoleukodystrophy (X-ALD) fibroblasts (FEBS Lett. 2005; 579: 409-414). The objective of this study was to clarify whether BTM activates peroxisomal and/or mitochondrial fatty acid beta-oxidation. We first analysed the effect of BTM on fatty acid beta-oxidation in fibroblasts derived from healthy controls as well as patients with X-ALD, mitochondrial carnitine-acylcarnitine translocase (CACT) deficiency, and peroxisome biogenesis disorder, Zellweger syndrome. Lignoceric acid (C(24:0)) beta-oxidation in the fibroblasts was stimulated by treatment with BTM, except for Zellweger fibroblasts. In contrasts, palmitic acid (C(16:0)) beta-oxidation was increased (2.8-fold) only in CACT-deficient fibroblasts. In U87 glioblastoma cells, C(24:0) beta-oxidation was also activated by treatment with BTM but C(16:0) beta-oxidation was not. The C(16:0) beta-oxidation was, however, significantly increased in the presence of 2-[5-(4-chlorophenyl)pentyl]oxirane-2-carboxylate (POCA), a carnitine palmitoyltransferase I inhibitor. These results indicate that BTM activates peroxisomal but not mitochondrial fatty acid beta-oxidation. In addition, we found that BTM did not upregulate the expression of ABCD2/ALDR, ABCD3/PMP70, ACOX1 and FATP4 genes but slightly increased ACSVL1 gene expression.

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Year:  2008        PMID: 18470630     DOI: 10.1007/s10545-008-0857-2

Source DB:  PubMed          Journal:  J Inherit Metab Dis        ISSN: 0141-8955            Impact factor:   4.750


  35 in total

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Review 4.  Fatty acid activation.

Authors:  P A Watkins
Journal:  Prog Lipid Res       Date:  1997-03       Impact factor: 16.195

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Authors:  T Imanaka; K Aihara; T Takano; A Yamashita; R Sato; Y Suzuki; S Yokota; T Osumi
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7.  Epidemiology of X-linked adrenoleukodystrophy in Japan.

Authors:  Yasuhiko Takemoto; Yasuyuki Suzuki; Akiko Tamakoshi; Osamu Onodera; Shoji Tsuji; Takashi Hashimoto; Nobuyuki Shimozawa; Tadao Orii; Naomi Kondo
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8.  Mouse very long-chain acyl-CoA synthetase in X-linked adrenoleukodystrophy.

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Journal:  J Biol Chem       Date:  2002-06-04       Impact factor: 5.157

9.  Functional overlap between ABCD1 (ALD) and ABCD2 (ALDR) transporters: a therapeutic target for X-adrenoleukodystrophy.

Authors:  Aurora Pujol; Isidre Ferrer; Carme Camps; Elisabeth Metzger; Colette Hindelang; Noëlle Callizot; Montse Ruiz; Teresa Pàmpols; Marisa Giròs; Jean Louis Mandel
Journal:  Hum Mol Genet       Date:  2004-10-15       Impact factor: 6.150

10.  Role of ALDP (ABCD1) and mitochondria in X-linked adrenoleukodystrophy.

Authors:  M C McGuinness; J-F Lu; H-P Zhang; G-X Dong; A K Heinzer; P A Watkins; J Powers; K D Smith
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  5 in total

1.  Molecular species of phospholipids with very long chain fatty acids in skin fibroblasts of Zellweger syndrome.

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2.  A novel method for determining peroxisomal fatty acid β-oxidation.

Authors:  Masashi Morita; Shun Matsumoto; Airi Okazaki; Kaito Tomita; Shiro Watanabe; Kosuke Kawaguchi; Daishiro Minato; Yuji Matsuya; Nobuyuki Shimozawa; Tsuneo Imanaka
Journal:  J Inherit Metab Dis       Date:  2016-06-20       Impact factor: 4.982

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Review 4.  Role of fatty acid transport protein 4 in metabolic tissues: insights into obesity and fatty liver disease.

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Review 5.  ABC Transporter Subfamily D: Distinct Differences in Behavior between ABCD1-3 and ABCD4 in Subcellular Localization, Function, and Human Disease.

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Journal:  Biomed Res Int       Date:  2016-09-28       Impact factor: 3.411
  5 in total

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