Vitamin E sequestration by liver fat in humans

Violet PC, Ebenuwa IC, Wang Y, Niyyati M, Padayatty SJ, Head B, Wilkins K, Chung S, Thakur V, Ulatowski L, Atkinson J, Ghelfi M, Smith S, Tu H, Bobe G, Liu CY, Herion DW, Shamburek RD, Manor D, Traber MG, Levine M.

JCI Insight. 2019 Dec 10. pii: 133309. doi: 10.1172/jci.insight.133309.

Abstract

BACKGROUND We hypothesized that obesity-associated hepato-steatosis served as a pathophysiologic chemical depot for fat-soluble vitamins and altered normal physiology. Using α-tocopherol (vitamin E) as a model vitamin, pharmacokinetics and kinetics principles were utilized to determine whether excess liver fat sequestered α-tocopherol in women with obesity-associated hepato-steatosis vs healthy controls.METHODS Custom-synthesized deuterated α-tocopherols (d3- and d6-α-tocopherols) were administered to hospitalized healthy women and women with hepato-steatosis under IND guidelines. Serial samples obtained over 72 hours were analyzed by LC/MS. Fluorescent-labelled α-tocopherol was custom-synthesized for cell studies.RESULTS In healthy subjects, 85% of intravenous d6-α-tocopherol disappeared from the circulation within 20 minutes but reappeared within minutes and peaked at 6-8 hours. d3- and d6-α-Tocopherols localized to lipoproteins. Lipoprotein redistribution occurred only in vivo within 1h, indicating a key role of liver in rapid uptake and re-release into the circulation. Compared to healthy subjects, subjects with hepato-steatosis had similar d6-α-tocopherol entry rates into liver, but reduced initial release rates (p<0.001). Similarly, pharmacokinetics parameters of AUC and Maximum Concentration (Cmax) were reduced (AUC0-8 ,p<0.01;Cmax p<0.02) in hepato-steatosis subjects, indicating reduced hepatic d6-α-tocopherol output. Reduced kinetics and pharmacokinetics parameters (AUC and Cmax) in hepato-steatosis subjects who received 2 mg were mirrored by similar reductions in healthy subjects when comparing 5 and 2 mg doses. In vitro, fluorescent-labelled α-tocopherol localized specifically to lipid in fat-loaded hepatocytes, indicating sequestration.CONCLUSIONS The unique role of the liver in vitamin E physiology is dysregulated by excess liver fat. Obesity-associated hepato-steatosis may produce unrecognized hepatic vitamin E sequestration, which might subsequently drive liver disease. Our findings raise the possibility that hepato-steatosis may similarly alter hepatic physiology of other fat-soluble vitamins.

Cabral EV, Vieira LD, Sant'Helena BRM, Ribeiro VS, Farias JS, Aires RS, Paz ST, Muzi-Filho H, Paixão AD, Vieyra A

Clin Exp Pharmacol Physiol. 2019 Dec;46(12):1151-1165. doi: 10.1111/1440-1681.13161.

Abstract

Maternal salt overload programs cardiovascular and renal alterations in the offspring. However, beneficial and harmful effects of high dose vitamin E supplementation have been described in humans and animals. We investigated the hypothesis as to whether cardiac and renal alterations can be programmed by gestational salt overload, and can become further modified during lactation and after weaning. Male Wistar rats were used, being the offspring of mothers that drank either tap water or 0.3 mol/L NaCl for 20 days before and during pregnancy. α-Tocopherol (0.35 g/kg) was administered to mothers daily during lactation or to their offspring for 3 weeks post-weaning. Systolic blood pressure (tcSBP) was measured in juvenile rats aged 210 days. The response of mean arterial pressure (MAP) and heart rate (HR) to intravenous infusion of angiotensin II (Ang II) was also examined. Left ventricle plasma membrane (PMCA) and sarcoplasmic reticulum Ca²⁺ -ATPase (SERCA) activities, and certain parameters of renal function, were measured. Maternal saline programmed for increased body mass and kidney mass/body mass ratio, increased tcSBP, increased mean arterial pressure and heart rate with anomalous response to infused Ang II. In the heart, saline increased PMCA and α-Tocopherol per se increased PMCA/SERCA. In the kidney, the most remarkable result was the silent saline programming of Cr_Cl , which was sensitized for a sharp decrease after α-Tocopherol. In conclusion, the combination of maternal saline overload and high α-Tocopherol immediately after birth leads to simultaneous cardiovascular and renal alterations in the young offspring, like those encountered in type V cardiorenal syndrome.

Nguyen TTH, Eo MY, Seo MH, Myoung H, Kim SM, Lee JH

Eur Arch Otorhinolaryngol. 2019 Dec;276(12):3443-3452. doi: 10.1007/s00405-019-05600-8.

Abstract

PURPOSE:

A combination of pentoxifylline (PTX) and tocopherol (TP) is believed to reduce chronic fibrosis and induce bone healing in osteoradionecrosis (ORN) of the mandible, but evidence of its therapeutic effectiveness for cortical bone is lacking. This study was designed to determine the effect of combined PTX and TP (PTX + TP) on mandibular cortical bone remodeling in a rat model of ORN, using micro-CT and histological analysis.

METHODS:

Forty-eight 8-week-old male Sprague-Dawley rats were randomly divided into irradiated (n = 40) and non-irradiated (n = 8) groups. Animals in the irradiated group were divided into four sub-groups, including PTX, TP, PTX + TP, and normal saline. Three weeks after irradiation, mandibular posterior tooth extraction was performed, and animals were sacrificed 7 weeks after irradiation. The mandibles were analyzed using micro-CT and histological evaluation.

RESULTS:

The alveolar bone height, cortical bone thickness, cortical bone volume, and total cortical bone surface of the PTX + TP group were significantly greater than those of other irradiated groups (p < 0.05). In 3D reconstructed images, the residual volumes of cortical and cancellous bone were inadequate in the irradiated groups.

CONCLUSION:

We found that a combination of PTX and TP improved quality and quantity of cortical bone in irradiated rat mandibles, thus providing supporting evidence of its utility as a treatment and prophylactic agent in ORN. We observed inadequate volumes of cortical and cancellous bone in ORN mandibles, suggesting that cortical bone could play an important role in further ORN studies.

Kogure K

J Nutr Sci Vitaminol (Tokyo). 2019;65(Supplement):S109-S112. doi: 10.3177/jnsv.65.S109.

Abstract

Astaxanthin (Asx) is known to be a potent quencher of singlet oxygen and an efficient scavenger of superoxide anion. However, the scavenging activity of Asx toward the hydroxyl radical was currently unclear because the high lipophilicity of Asx prevents analysis of such activity in water. Liposomes containing Asx (Asx-lipo) were previously shown to be dispersed in water. Analysis of the hydroxyl radical scavenging activity of Asx-lipo demonstrated a dose-dependence in water, with the effect of Asx being more potent than the vitamin E α-tocopherol (α-T). Furthermore, liposomes co-encapsulating Asx and vitamin E derivatives, namely tocotrienols (T3), showed a synergistic elimination effect on singlet oxygen and hydroxyl radical, although the antioxidative activity of liposomes co-encapsulating Asx and α-T was lower than the calculated additive value of each independent activity. A calculation of the most stable structure of Asx in the presence of α-T or T3, suggested that only T3 was able to hydrogen bond with Asx, and the Asx polyene chain partially interacting with the α-T3 triene chain, which could explain the synergistic effect between Asx and T3, but not Asx and α-T. This review introduces the hydroxyl radical scavenging activity of Asx, and its synergistic effect with T3.

Fujiwara Y

J Nutr Sci Vitaminol (Tokyo). 2019;65(Supplement):S34-S37. doi: 10.3177/jnsv.65.S34.

Abstract

The dietary fat intake of Japanese is thought to be more appropriate than in Western countries; however there is a range of differences of individuals in the amounts of fat intake and n-6/n-3 ratio. Therefore, it is important what kind of vegetable oils are used for cooking in order to consider the total balance of fat intake. Rice bran oil (RBO) is expected to reduce plasma cholesterol and be useful for prevention of cardiovascular disease because it contains several effective ingredients. RBO is rich in linoleic and oleic acid. RBO contains γ-oryzanol, which is well known to reduce plasma cholesterol levels. Furthermore, it contains tocotrienols, which are analogs of vitamin E, reported to have unique bioactivity different from that of α-tocopherol. The biological function of these components and their potential to prevent Japanese lifestyle-related diseases are discussed.

Fontana F, Raimondi M, Marzagalli M, Moretti RM, Marelli MM, Limonta P

Recent Pat Anticancer Drug Discov. 2019;14(1):5-18. doi: 10.2174/1574892814666190116111827.

Abstract

BACKGROUND:

Tocotrienols (TTs) are vitamin E derivatives naturally occurring in several plants and vegetable oils. Like Tocopherols (TPs), they comprise four isoforms, α, β, γ and δ, but unlike TPs, they present an unsaturated isoprenoid chain. Recent studies indicate that TTs provide important health benefits, including neuroprotective, anti-inflammatory, anti-oxidant, cholesterol lowering and immunomodulatory effects. Moreover, they have been found to possess unique anti-cancer properties.

OBJECTIVE:

The purpose of this review is to present an overview of the state of the art of TTs role in cancer prevention and treatment, as well as to describe recent patents proposing new methods for TTs isolation, chemical modification and use in cancer prevention and/or therapy.

METHODS:

Recent literature and patents focusing on TTs anti-cancer applications have been identified and reviewed, with special regard to their scientific impact and novelty.

RESULTS:

TTs have demonstrated significant anti-cancer activity in multiple tumor types, both in vitro and in vivo. Furthermore, they have shown synergistic effects when given in combination with standard anti-cancer agents or other anti-tumor natural compounds. Finally, new purification processes and transgenic sources have been designed in order to improve TTs production, and novel TTs formulations and synthetic derivatives have been developed to enhance their solubility and bioavailability.

CONCLUSION:

The promising anti-cancer effects shown by TTs in several preclinical studies may open new opportunities for therapeutic interventions in different tumors. Thus, clinical trials aimed at confirming TTs chemopreventive and tumor-suppressing activity, particularly in combination with standard therapies, are urgently needed.

Dronamraju V, Ibrahim BA, Briski KP, Sylvester PW

Nutr Cancer. 2019;71(7):1214-1228. doi: 10.1080/01635581.2019.1599969.

Abstract

Cancer cell metabolism is characterized by aerobic glycolysis or the “Warburg effect”. Enhanced Akt signaling is associated with activation of various downstream enzymes involved in the glycolytic process, whereas activation of 5′-AMP-activated kinase (AMPK) acts to terminate energy expending mechanisms and decrease glycolytic enzyme expression. Studies were conducted to determine if the anticancer effects of γ-tocotrienol, are mediated through a suppression in aerobic glycolysis. Results show that treatment with 0-7 μM γ-tocotrienol throughout a 4-day culture period resulted in a dose-responsive increase in AMPK activation, and corresponding decrease in Akt activity in human MCF-7 and MDA-MB-231 breast cancer cells. γ-Tocotrienol treatment was also found to induce a dose-responsive decrease in phosphorylated-Fox03 (inactivated), a transcription factor that acts to inhibit in the levels of glycolytic enzyme, and this decrease was associated with a reduction in glycolytic enzyme levels and activity, as well as glucose consumption in these cells. PCR microarray analysis shows that γ-tocotrienol treatment decreases the expression of genes associate with metabolic signaling and glycolysis in MCF-7 and MDA-MB-231 breast cancer cells. In summary, these findings demonstrate that the anticancer effects of γ-tocotrienol are mediated, at least in part, by a suppression in the Warburg effect.

Ramdas P, Radhakrishnan AK, Abdu Sani AA, Abdul-Rahman PS

Nutr Cancer. 2019;71(8):1263-1271. doi: 10.1080/01635581.2019.1607407

Abstract

Tocotrienols (T3), a family of vitamin E, are reported to possess potent anti-cancer effects but the molecular mechanisms behind these effects still remain unclear. The aim of this study was to investigate how T3 exert anti-cancer effects on MDA-MB-231 human breast cancer cells. The MDA-MB-231 cells were chosen for this study as they are triple-negative and highly metastatic cells, which form aggressive tumors in experimental models. The MDA-MB-231 cells were treated with varying concentrations (0-20 µg mL^-1) of gamma (γ) or delta (δ) T3 and the secretome profiles of these cells treated with half maximal inhibitory concentration (IC₅₀) of γT3 (5.8 µg mL^-1) or δT3 (4.0 µg mL^-1) were determined using label-free quantitative proteomic strategy. A total of 103, 174 and 141 proteins were identified with ProteinLynx Global Server (PLGS) score of more than 200 and above 25% sequence coverage in the untreated control and T3-treated cell culture supernatant respectively. A total of 18 proteins were dysregulated between untreated control and T3 (δT3 or γT3) treated conditions. The results showed that T3 treatment downregulated the exogenous Cathepsin D and Serpine1 proteins but upregulated Profilin-1 protein, which play a key role in breast cancer in the MDA-MB-231 cells. These findings strongly suggest that T3 may induce differential expression of secreted proteins involved in the cytoskeletal regulation of RHO GTPase signaling pathway.

Wan Nasri WN, Makpol S, Mazlan M, Tooyama I, Wan Ngah WZ, Damanhuri HA

J Alzheimers Dis. 2019;70(s1):S239-S254. doi: 10.3233/JAD-180496.

Abstract

Alzheimer’s disease (AD) is a progressive neurodegenerative disorder characterized by loss of memory and other cognitive abilities. AD is associated with aggregation of amyloid-β (Aβ) deposited in the hippocampal brain region. Our previous work has shown that tocotrienol rich fraction (TRF) supplementation was able to attenuate the blood oxidative status, improve behavior, and reduce fibrillary-type Aβ deposition in the hippocampus of an AD mouse model. In the present study, we investigate the effect of 6 months of TRF supplementation on transcriptome profile in the hippocampus of APPswe/PS1dE9 double transgenic mice. TRF supplementation can alleviate AD conditions by modulating several important genes in AD. Moreover, TRF supplementation attenuated the affected biological process and pathways that were upregulated in the AD mouse model. Our findings indicate that TRF supplementation can modulate hippocampal gene expression as well as biological processes that can potentially delay the progression of AD.

Hamezah HS, Durani LW, Yanagisawa D, Ibrahim NF, Aizat WM, Makpol S, Wan Ngah WZ, Damanhuri HA, Tooyama I

J Alzheimers Dis. 2019;72(1):229-246. doi: 10.3233/JAD-181171.

Abstract

Tocotrienol-rich fraction (TRF) is a mixture of vitamin E analogs derived from palm oil. We previously demonstrated that supplementation with TRF improved cognitive function and modulated amyloid pathology in AβPP/PS1 mice brains. The current study was designed to examine proteomic profiles underlying the therapeutic effect of TRF in the brain. Proteomic analyses were performed on samples of hippocampus, medial prefrontal cortex (mPFC), and striatum using liquid chromatography coupled to Q Exactive HF Orbitrap mass spectrometry. From these analyses, we profiled a total of 5,847 proteins of which 155 proteins were differentially expressed between AβPP/PS1 and wild-type mice. TRF supplementation of these mice altered the expression of 255 proteins in the hippocampus, mPFC, and striatum. TRF also negatively modulated the expression of amyloid beta A4 protein and receptor-type tyrosine-protein phosphatase alpha protein in the hippocampus. The expression of proteins in metabolic pathways, oxidative phosphorylation, and those involved in Alzheimer’s disease were altered in the brains of AβPP/PS1 mice that received TRF supplementation.