Vitamin xenobiotics

And finally, more types of activity are being studied. The first edition listed activities in only 11 categories. This volume discusses activities in 18 categories, including enzymes for metabolism of lipids, vitamins, xenobiotics, pyrimidines, complex saccharides, and glycoproteins, and activities that modify proteins and peptides, as well the modification of nucleic acids and their expression. 

A wide variety of interactions of selenium with essential and nonessential elements, vitamins, xenobiotics, and sulfur-containing amino acids have been demonstrated in numerous studies. Selenium has been reported to reduce the toxicity of many metals including mercury, cadmium, lead, silver, and to some extent, copper (Frost 1972). Most forms of selenium and arsenic interact to reduce the toxicity of both elements (Levander 1977). Because of selenium s role in the antioxidant glutathione peroxidase enzymes, selenium also reduces the toxicity of metals in vitamin E-deficient animals (Diplock et al. 1967). 

Cholesterolesters, esters of vitamins Xenobiotics Carboxyl ester lipase (EC 3.1.1.1) ... 

Section VI consists of discussions of eleven special topics nutrition, digestion, and absorption vitamins and minerals intracellular traffic and sorting of proteins glycoproteins the extracellular matrix muscle and the cy-toskeleton plasma proteins and immunoglobulins hemostasis and thrombosis red and white blood cells the metabolism of xenobiotics and the Human Genome Project. 

Aflatoxin Bl, bupropion, cyclophosphamide, dexamethasone, etoposide, ifosfamide, midazolam, phenobarbital, propofol, rifampin, teitiposide, thiotepa, vitamin D, xenobiotics Amitriptyhne, carisoprodol,... 

Sites of concentration -There are other sites where drugs may accumulate besides in the water portion of the blood or within fat tissue. The blood also contains a host of proteins which can bind vitamins, metabolites and xenobiotics. In addition, the collagen network of bone and connective tissue can act as a depository for various ions. 

Hooser, S.B., Rosengren, R.J., Hill, D.A., Mobley, S.A. Sipes, I.G. (1994) Vitamin A modulation of xenobiotic-induced hepatotoxicity in rodents. Environ. Health Perspect., 102 (Suppl. 9), 39-43... 

In rats, hepatic ischaemia is associated with reduced ATP levels but normal lipid peroxide formation. Reperfusion gives a slow recovery of ATP levels, a reduction in endogenous vitamin E and glutathione, but an increase in lipid peroxidation. Vitamin-E-treated animals showed accelerated ATP synthesis with a suppression of the increased lipid peroxidation [ 170, l7l]. Ischaemia of liver tissue reduced the metabolism of xenobiotics. Vitamin E was protectant against this effect [172]. The protective effect is related to an increase in catalytic activity of cytochrome P-450, to antioxidant and membrane-stabilizing properties [173]. In kidney tissue, prophylactic injection of vitamin E and synthetic antioxidants prevented the development of lesions during acute renal ischaemia and subsequent reperfusion. These effects were related therefore to the vitamin s antioxidant ability. 

Table 6 Relative Distribution of Some Lipophilic Drugs, Vitamins, and Xenobiotics between Different Lipoprotein Fractions in the Lymph... 

The permeability of the skin to a toxic substance is a function of both the substance and the skin. The permeability of the skin varies with both the location and the species that penetrates it. In order to penetrate the skin significantly, a substance must be a liquid or gas or significantly soluble in water or organic solvents. In general, nonpolar, lipid-soluble substances traverse skin more readily than do ionic species. Substances that penetrate skin easily include lipid-soluble endogenous substances (hormones, vitamins D and K) and a number of xenobiotic compounds. Common examples of these are phenol, nicotine, and strychnine. Some military poisons, such as the nerve gas sarin (see Section 18.8), permeate the skin very readily, which greatly adds to then-hazards. In addition to the rate of transport through the skin, an additional factor that influences toxicity via the percutaneous route is the blood flow at the site of exposure. 

The biochemical aspects of teratology are not particularly well understood. Several kinds of biochemical mechanisms are probably involved. One such mechanism is interference with DNA synthesis, which alters the function of nucleic acids in cell replications, resulting in effects that are expressed as birth defects. Exposure to teratogenic xenobiotic substances may result in either an absence or excess of chromosomes. Enzyme inhibition (see Section 7.6) by xenobiotics can result in birth defects. Xenobiotics that deprive the fetus of essential substrates (for example, vitamins), that interfere with energy supply, or that alter the permeability of the placental membrane may all cause birth defects. 

During the course of the symposium, several dietary factors that can influence xenobiotic metabolism were discussed in detail. Here we will attempt t summarize in the broadest terms how various classic nutrient groups might exert an influence on xenobiotic metabolism. For convenience, the dietary groups have been broken into carbohydrates, lipids, proteins, water-soluble vitamins, fat-soluble vitamins and trace elements. It is difficult to take any one group individually, and it must be kept in mind that the interactions are continuous and extremely complicated. 

Carbohydrates which are digestible appear to have no dramatic effect on metabolism of xenobiotics however, the nondigestible carbohydrates can mediate the toxicity of a xenobiotic. Dietary fiber can reduce nutrient availability by absorbtion of certain minerals and/or vitamins. Inclusion in the diet of fiber has been associated with a lower incidence of colon cancer, and this... 

Water-soluble vitamins and co-factors also appear to elicit an effect on xenobiotic metabolism. Ascorbic acid has been shown to inhibit chemically induced chemical carcinogenesis in test systems (Shamberger, ( ). When diets are deficient in choline, the animals appear to become much more susceptible to chemically-... 

Increasing evidence indicates that diet/nutrition plays an important role in modulating the action and/or metabolism of a number of chemicals, drugs and environmental pollutants. Nutrients are essential for all fundamental cellular processes. The nutritional status of the affected subject may, therefore, influence cellular susceptibility to the effect of xenobiotics, including those from cigarette smoke. While the precise role of vitamin E in cellular metabolism is not yet clear, the vitamin may protect essential cellular components from the adverse effects of xenobiotics either via a free radical scavenging mechanism or as a component of the cell membrane (10-11). Administration of vitamin E has been shown to lessen the toxicity of a variety of compounds (12-16). 

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