Synthetic α-Tocopherol, Compared with Natural α-Tocopherol, Downregulates Myelin Genes in Cerebella of Adolescent Ttpa-null Mice.

BACKGROUND: Vitamin E (α-tocopherol; α-T) deficiency causes spinocerebellar ataxia. α-T supplementation improves neurological symptoms, but little is known about the differential bioactivities of natural versus synthetic α-T during early life. OBJECTIVE: We assessed the effects of dietary α-T dose and source on tissue α-T accumulation and gene expression in adolescent α-tocopherol transfer protein-null (Ttpa-/-) mice. METHODS: Three-week-old male Ttpa-/- mice (n  = 7/group) were fed 1 of 4 AIN-93G-based diets for 4 wk: vitamin E deficient (VED; below α-T limit of detection); natural α-T, 600 mg/kg diet (NAT); synthetic α-T, 816 mg/kg diet (SYN); or high synthetic α-T, 1200 mg/kg diet (HSYN). Male Ttpa+/+ littermates fed AIN-93G [75 mg synthetic α-T (CON)] served as controls (n  = 7). At 7 wk of age, tissue α-T concentrations and stereoisomer profiles were measured for all groups. RNA-sequencing was performed on cerebella of Ttpa-/- groups. RESULTS: Ttpa-/- mice fed VED had undetectable brain α-T concentrations. Cerebral cortex α-T concentrations were greater in Ttpa-/- mice fed NAT (9.1 ± 0.7 nmol/g), SYN (10.8 ± 1.0 nmol/g), and HSYN (13.9 ± 1.6 nmol/g) compared with the VED group but were significantly lower than in Ttpa+/+ mice fed CON (24.6 ± 1.2 nmol/g) (P < 0.001). RRR-α-T was the predominant stereoisomer in brains of Ttpa+/+ mice (∼40%) and Ttpa-/- mice fed NAT (∼94%). α-T stereoisomer composition was similar in brains of Ttpa-/- mice fed SYN and HSYN (2R: ∼53%; 2S: ∼47%). Very few of the 16,774 genes measured were differentially expressed. However, compared with the NAT diet, HSYN significantly downregulated 20 myelin genes, including 2 transcription factors: SRY-box transcription factor 10 (Sox10) and myelin regulatory factor (Myrf), and several downstream target genes (false discovery rate <0.05). CONCLUSIONS: High-dose synthetic α-T compared with natural α-T alters myelin gene expression in the adolescent mouse cerebellum, which could lead to morphological and functional abnormalities later in life.

In vitro and in vivo anticancer effects of the novel vitamin E ether analogue RRR-alpha-tocopheryloxybutyl sulfonic acid in prostate cancer.

PURPOSE: Among derivatives of alpha-vitamin E, alpha-vitamin E succinate (VES), has attracted much attention due to its potent anti-prostate cancer activity in vitro and in vivo. However, the in vivo antitumor activity of VES might be compromised if administrated orally due to the VES hydrolysis by esterases in the gastrointestinal tract. EXPERIMENTAL DESIGN: New nonhydrolyzable VES ether analogues were synthesized and their growth inhibition was screened by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide growth assay. Among them, RRR-alpha-tocopheryloxybutyl sulfonic acid (VEBSA) was further characterized by terminal deoxyribonucleotidyl transferase-mediated dUTP nick end labeling apoptosis assay, soft agar assay, and in vivo tumor formation. RESULTS: VEBSA has potent antitumor ability, albeit to a lesser extent than VES, in in vitro cultured prostate cancer LNCaP and PC3 cells. Like VES, VEBSA induced apoptosis, repressed androgen receptor protein expression, and enhanced vitamin D receptor expression, suggesting that VEBSA can go through mechanisms similar to those used by VES to inhibit the growth of prostate cancer cells in vitro. However, 6 weeks of oral consumption of VEBSA, but not of VES, reduced the tumor burden in the xenografted prostate tumors in nude mice. Furthermore, oral intake of VEBSA for 20 weeks inhibited prostate tumor growth and progression more efficiently compared with VES in the prostate cancer tumor model of TRAMP mice. CONCLUSION: Oral consumption of VEBSA allows a greater anticancer activity compared with VES. Chemoprevention prefers the oral consumption of agents; the advantage of VEBSA over VES to be administrated orally will allow VEBSA to serve as an agent for both preventive and therapeutic purposes for prostate cancer.

Alpha-tocopherol pro-vitamins: synthesis, hydrolysis and accumulation in rabbit ear skin.

We synthesized esters of alpha-tocopherol (VE) with the aim to develop new pro-vitamins, easily reconverted by enzymes in the skin and able to release another active moiety such as an amino acid, in order to obtain a synergic effect. In particular, the attention was dedicated to the amino acids glycine and alanine and to pyroglutamic acid. The sensitivity of pro-vitamins to enzymatic hydrolysis was evaluated in vitro using porcine liver esterase. Permeation experiments were performed using rabbit ear skin, for the quantification of pro-vitamins and derived VE in the epidermis and dermis. The new derivatives synthesized, and in particular the glycine and alanine derivatives, accumulated in rabbit skin in a significant extent and originated substantial amounts of alpha-tocopherol. In comparison with the acetate derivative (VEAc), the amounts accumulated are comparable or higher. Moreover, the new derivatives, being more hydrophilic, allow the use of vehicles such as the mixture water/propylene glycol/ethanol widely employed for the preparation of creams and gels. Finally, the enzymatic metabolism of these new derivatives generates not only VE, but also components that can have a further advantageous action on skin.