Uncategorized
The methanol extract from the aerial parts of Roldana barba-johannis (Asteraceae) afforded sargachromenol, sargahydroquinoic acid, and sargaquinoic acid. These natural products and their corresponding acetylated and methylated derivatives showed insecticidal and insect growth regulatory activities against the Fall Armyworm [Spodoptera frugiperda J.E. Smith, (Lepidoptera: Noctuidae)], an important insect pest of corn. The most active compounds were sargachromenol and its acetylated derivative; sargahydroquinoic acid and its acetylated derivative; and a mixture of sargachromenol, sargahydroquinoic acid, and sargaquinoic acid (6:3:1) and the acetylated form of this mixture. All these compounds and mixtures had significant inhibitory effects between 5.0 and 20.0 ppm in diets. Most compounds were insecticidal to larvae, with lethal doses between 20 and 35 ppm. In addition, these substances also demonstrated scavenging properties toward 2,2-diphenyl-1-picrylhydrazyl radical in TLC autographic and spectrophotometric assays. These compounds appear to have selective effects on the pre-emergence metabolism of the insect. The results from these compounds were fully comparable in activity to those known natural insect growth inhibitors such as gedunin and methanol extracts of Cedrela salvadorensis and Yucca periculosa. These substances may be useful as natural insecticidal agents.
Tocols represent a family of tocopherols, tocotrienols, and their derivatives, and are fundamentally derived from the simplest tocopherol, 6-hydroxy-2-methyl-2-phytylchroman, which is referred to as “tocol”. The most common tocol is D-alpha-tocopherol, also known as vitamin E. Tocols can be excellent solvents for water insoluble drugs and are compatible with other cosolvents, oils and surfactants. This review highlights the major developments in the use of tocols in parenteral emulsions for drug delivery, with a focus on drug solubilization, physicochemical properties, and biopharmaceutical applications. Tocol emulsions offer an appealing alternative for the parenteral administration of poorly soluble drugs, including major chemotherapeutics such as paclitaxel. Data will be presented on solubilization of paclitaxel, a key chemotherapeutic agent, and its corresponding formulation development, toxicity, efficacy and pharmacokinetic studies in animal models and humans. The breadth of the utility of tocol-based emulsions will be discussed and examples of specific therapeutic drugs and applications will be provided. As these formulations progress further in the clinic, the therapeutic utility of tocol emulsions is anticipated to expand.
With increasing evidence suggesting the involvement of oxidative stress in various disorders and diseases, the role of antioxidants in vivo has received much attention. Chemically, tocopherols and tocotrienols are closely related; however, it has been observed that they have widely varying degrees of biological effectiveness. The present study has been carried out in an attempt to deepen our understanding of whether there is a significant difference in distribution between tocopherol and tocotrienol homologs to rat eye tissues. Rats were administered 5 microL of pure tocopherol or tocotrienol to each eye once a day for 4 d. Various tissues of the eyes were separated and analyzed for tocopherol and tocotrienol concentrations. The concentration of alpha-to-cotrienol increased markedly in every tissue to which it was administered; however, no significant increase was observed in the case of alpha-tocopherol. The intraocular penetration of gamma-tocopherol and gamma-tocotrienol did not differ significantly. Additionally, a significant increase in total vitamin E concentration was observed in ocular tissues, including crystalline lens, neural retina, and eye cup, with topical administration using a relatively small amount (5 microL) of vitamin E, whereas no significant increase was observed when the same amount of vitamin E was administered orally. Topical administration of tocotrienols is thus an effective way to increase ocular tissue vitamin E concentration.
Background & aims: Carboxyethyl-hydroxychromans (CEHC) are hydrosoluble vitamin E metabolites excreted through the renal filter. In this study we investigated the effect of the kidney damage on the blood levels of CEHC.
Methods: Plasma levels of a-CEHC, g-CEHC and their precursors (namely, α-tocopherol and γ-tocopherol) were measured by HPLC with electrochemical detection in chronic (CRF) and end-stage renal failure patients on regular hemodialysis (HD) before and after dialysis. CRF patients (n=26) were divided into three subgroups with different extent of kidney damage as measured by the intervals of creatinine clearance (CrCl, in ml/min): (a) 2–10, (b) 10–20, and (c) 20–45. HD patients (n=8) did not show residual renal function. In all the subjects the intake of vitamin E
(as α-tocopherol) was assessed using a food frequency questionnaire. In the HD group, the plasma concentrations of ascorbic and uric acid (AA and UA, respectively), total thiols, the total antioxidant status (TAS) and reactive carbonyls were also measured.
Results: The progressive deterioration of the kidney function in the different groups of patients produced an exponential increase of both α-CEHC and γ-CEHC in plasma. Compared with healthy controls (α-CEHC¼20.1713.4 and γ-CEHC=230.6±83.0 nmol/l) the levels of CEHC approximately doubled in patients with CrCl<20 ml/min (42.4±20.2 and 424.5.5±174.4; P<0:05 or higher in both) and reached a 3-fold maximum increase in HD patients (77.3±45.7 and 636.6±219.3). The hemodialysis provided a significant, but only a transient, correction of CEHC accumulation (44.8±23.5, 364.2±189.9). The HD patients showed lower intake and levels of vitamin E (α-tocopherol=5.17=±1.0 and γ-tocopherol=0.32±0.11 mmol/mmol cholesterol; P<0:05) compared to healthy controls (5.8±0.8 and 0.43±0.14), but in the CRF patients tocopherol levels were normal or only slightly decreased even though approximately half of the subject had lowered vitamin E intake. When the entire patient population was considered, the blood concentrations of parental tocopherols and CEHC did not correlate. The HD patients before dialysis showed a marked decrease of TAS/UA, AA and thiols levels, while UA and free carbonyls significantly increased. After dialysis, the depletion of AA and thiols further worsened and also UA and TAS/UA decreased, but free carbonyls slightly increased.
A simple and reliable method for the simultaneous determination of all eight homologs of Vitamin E in chicken meat is described. All analytes, including the internal standard (alpha-tocopherol acetate), were eluted within 35 min and detected using their native fluorescence (295 nm excitation and 330 nm emission). Chromatography using hexane based eluent on a normal phase silica column included an initial column conditioning step to prevent irreversible adsorption of tocopherols and tocotrienols on silica. Lowest detectable levels of alpha-tocopherol, gamma-tocopherol, alpha-tocotrienol, beta-tocotrienol, gamma-tocotrienol and delta-tocotrienol were 0.73, 0.86, 1.0, 1.2, 1.7 and 1.3 ng, respectively.
We present here current data on the distribution and metabolism of vitamin E analogs in vivo. There are eight different naturally occurring forms of vitamin E : four tocopherols (α-,β, γ- and δ-toc) and four tocotrienols (α-,β-,γ and δ-toc). With regard to the bioavailability of vitamin E, it has been established that the affinity of various vitamin E analogs for α–tocopherol transfer protein (α-TTP), which may determine their plasma levels, is a major determinant if their biological activity however, a novel function of toc-3 has been noted as a result of its unique distribution in the skin and the adipose tissue. In addition, following the discovery that the final metabolites of Toc and Toc-3 are in the form of carboxyethyl hydroxychroman, it is now possible to examine the intermediary metabolites of vitamin E analogs. The metabolites of vitamin E is known to be involved in the actions of drug metabolic enzymes (CYP3A, CYP4F2). However, the relationship between α –TTP and the metabolic enzymes that are responsible for the regulation of vitamin E metabolism has yet to be clarified. Future research will focus on the elucidation of the vitamin E metabolic regulation system.
Tocochromanols (tocopherols and tocotrienols), collectively known as vitamin E, are essential antioxidant components of both human and animal diets. Because of their potential health benefits, there is a considerable interest in plants with increased or customized vitamin E content. Here, we have explored a new strategy to reach this goal. In plants, phenylalanine is the precursor of a myriad of secondary compounds termed phenylpropanoids. In contrast, much less carbon is incorporated into tyrosine that provides p-hydroxyphenylpyruvate and homogentisate, the aromatic precursors of vitamin E. Therefore, we intended to increase the flux of these two compounds by deriving their synthesis directly at the level of prephenate. This was achieved by the expression of the yeast (Saccharomyces cerevisiae) prephenate dehydrogenase gene in tobacco (Nicotiana tabacum) plants that already overexpress the Arabidopsis p-hydroxyphenylpyruvate dioxygenase coding sequence. A massive accumulation of tocotrienols was observed in leaves. These molecules, which were undetectable in wild-type leaves, became the major forms of vitamin E in the leaves of the transgenic lines. An increased resistance of the transgenic plants toward the herbicidal p-hydroxyphenylpyruvate dioxygenase inhibitor diketonitril was also observed. This work demonstrates that the synthesis of p-hydroxyphenylpyruvate is a limiting step for the accumulation of vitamin E in plants.
Vitamins E and K share structurally related side chains and are degraded to similar final products. For vitamin E the mechanism has been elucidated as initial omega-hydroxylation and subsequent beta-oxidation. For vitamin K the same mechanism can be suggested analogously. omega-Hydroxylation of vitamin E is catalyzed by cytochrome p450 enzymes, which often are induced by their substrates themselves via the activation of the nuclear receptor PXR. Vitamin E is able to induce CYP3A-forms and to activate a PXR-driven reporter gene. It is shown here that K-type vitamins are also able to activate PXR. A ranking showed that compounds with an unsaturated side chain were most effective, as are tocotrienols and menaquinone-4 (vitamin K(2)), which activated the reporter gene 8-10-fold. Vitamers with a saturated side chain, like tocopherols and phylloquinone were less active (2-5-fold activation). From the fact that CYPs commonly responsible for the elimination of xenobiotics are involved in the metabolism of fat-soluble vitamins and the ability of the vitamins to activate PXR it can be concluded that supranutritional amounts of these vitamins might be considered as foreign.