Metabolism of tocotrienols in animals and synergistic inhibitory actions of tocotrienols with atorvastatin in cancer cells

Zhihong Yang¹, Mao-Jung Lee, Yang Zhao, Chung S Yang

Affiliations

Affiliation

¹ Susan Lehman Cullman Laboratory for Cancer Research, Department of Chemical Biology and Center for Cancer Prevention Research, Ernest Mario School of Pharmacy, Rutgers, The State University of New Jersey, 164 Frelinghuysen Road, Piscataway, NJ, 08854, USA.

PMID: 21590436
PMCID: PMC3250521
DOI: 10.1007/s12263-011-0233-y

Metabolism of tocotrienols in animals and synergistic inhibitory actions of tocotrienols with atorvastatin in cancer cells

Zhihong Yang et al. Genes Nutr. 2012 Jan.

. 2012 Jan;7(1):11-8.

doi: 10.1007/s12263-011-0233-y. Epub 2011 May 18.

Authors

Zhihong Yang¹, Mao-Jung Lee, Yang Zhao, Chung S Yang

Affiliation

¹ Susan Lehman Cullman Laboratory for Cancer Research, Department of Chemical Biology and Center for Cancer Prevention Research, Ernest Mario School of Pharmacy, Rutgers, The State University of New Jersey, 164 Frelinghuysen Road, Piscataway, NJ, 08854, USA.

PMID: 21590436
PMCID: PMC3250521
DOI: 10.1007/s12263-011-0233-y

Abstract

Tocotrienols (T3s), members of the vitamin E family, exhibit potent anti-cancer, anti-oxidative, anti-inflammatory, and some other biological activities. To better understand the bioavailability and metabolism of T3s, T3s and their metabolites were identified in urine and fecal samples from mice on diet supplemented with mixed T3s using HPLC/electrochemical detection and liquid chromatography electrospray ionisation mass spectrometry (LC-ESI-MS). Whereas the short-chain metabolites carboxyethyl hydroxychromans (CEHCs) and carboxymethylbutyl hydroxychromans (CMBHCs) were the major metabolites of T3s, several new metabolites with double bonds were also identified. Similar to tocopherols, the majority of T3 metabolites were excreted as sulfate/glucuronide conjugates in mouse urine. The distribution of γ- and δ-T3 and γ-T3 metabolites were also determined in different organs as well as in urine and fecal samples from mice on diets supplemented with corresponding T3s. The synergistic anti-cancer actions of γ-T3 and atorvastatin (ATST) were studied in HT29 and HCT116 colon cancer cell lines. The combination greatly potentiated the ability of each individual agent to inhibit cancer cell growth and to induce cell cycle arrest and apoptosis. The triple combination of γ-T3, ATST, and celecoxib exhibited synergistic actions when compared with any double combination plus the third agent. Mechanistic studies revealed that the synergistic actions of γ-T3 and ATST could be attributed to their mediation of 3-hydroxy-3-methyl-glutaryl-CoA reductase, and the subsequent inhibition of protein geranylgeranylation. It remains to be determined whether such a synergy occurs in vivo.

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Figures

**Fig. 1**
The structures of tocopherols and tocotrienols

**Fig. 2**
A proposed tocotrienol degradation pathway

**Fig. 3**
Chromatograms of γ-tocotrienol (a) and its short-chain metabolites (b) in mouse serum samples

**Fig. 4**
Inhibition of isoprenoid biosynthetic pathway by ATST [modified from Holstein et al. (Holstein et al. 2002)]

See this image and copyright information in PMC

References

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Metabolism of tocotrienols in animals and synergistic inhibitory actions of tocotrienols with atorvastatin in cancer cells

Affiliation

Metabolism of tocotrienols in animals and synergistic inhibitory actions of tocotrienols with atorvastatin in cancer cells

Authors

Affiliation

Abstract

Figures

References

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