Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Adipose tissue synthesis

The principal behind the protocol is the utilization of two growth facilitating Action/Reaction Factors of the body that simultaneously reduce adipose tissue synthesis and increase lean tissue mass Insulin and IGF-1. When there are reasonably brief supraphysiological increases in circulatory insulin levels in the presence of hyperaminoacidemia (lots of extra amino acids in the circulatory system) and the absence of significant carbohydrate derived glucose, the result is an... [Pg.89]

All of this in turn propagates increases adipose tissue synthesis and decreases androgen... [Pg.117]

Carbohydrates are the prime source of glucose manufacture in the body. They are also the only macronutrient we can live better without and the prime source of cholesterol and adipose tissue synthesis. [Pg.120]

When these in vitro results are compared with the synthesis rates obtained by sterol balance methods in vivo, the adipocytes synthesized less than 1 mg of cholesterol per kg fat per day whereas the obese patients made over 20 mg cholesterol per kg excess weight per day. We are now actively investigating causes for excessive cholesterol synthesis in obesity other than local adipose tissue synthesis. [Pg.166]

Very Htfle data are available regarding effects of anaboHc steroid implants on the Hpid metaboHsm in growing mminants. Lipogenic enzyme activity and fatty acid synthesis in vitro were elevated in subcutaneous adipose tissue from bulls implanted with estradiol (44), which may account for the increase in fat content of carcasses reported in some studies. TBA implants have no effect on Hpogenesis in intact heifers, and only tend to reduce Hpogenic enzyme activities in ovariectomized heifers (45). [Pg.409]

Insulin appears to activate a process that helps glucose molecules enter the cells of striated muscle and adipose tissue Figure 49-1 depicts normal glucose metabolism. Insulin also stimulates die synthesis of glycogen by die liver. In addition, insulin promotes protein syntiiesis and helps the body store fat by preventing its breakdown for energy. [Pg.489]

The rate of mitochondrial oxidations and ATP synthesis is continually adjusted to the needs of the cell (see reviews by Brand and Murphy 1987 Brown, 1992). Physical activity and the nutritional and endocrine states determine which substrates are oxidized by skeletal muscle. Insulin increases the utilization of glucose by promoting its uptake by muscle and by decreasing the availability of free long-chain fatty acids, and of acetoacetate and 3-hydroxybutyrate formed by fatty acid oxidation in the liver, secondary to decreased lipolysis in adipose tissue. Product inhibition of pyruvate dehydrogenase by NADH and acetyl-CoA formed by fatty acid oxidation decreases glucose oxidation in muscle. [Pg.135]

Fatty acids are synthesized by an extramitochondrial system, which is responsible for the complete synthesis of palmitate from acetyl-CoA in the cytosol. In the rat, the pathway is well represented in adipose tissue and liver, whereas in humans adipose tissue may not be an important site, and liver has only low activity. In birds, lipogenesis is confined to the liver, where it is particularly important in providing lipids for egg formation. In most mammals, glucose is the primary substrate for lipogenesis, but in ruminants it is acetate, the main fuel molecule produced by the diet. Critical diseases of the pathway have not been reported in humans. However, inhibition of lipogenesis occurs in type 1 (insulin-de-pendent) diabetes mellitus, and variations in its activity may affect the nature and extent of obesity. [Pg.173]

Insulin stimulates lipogenesis by several other mechanisms as well as by increasing acetyl-CoA carboxylase activity. It increases the transport of glucose into the cell (eg, in adipose tissue), increasing the availability of both pyruvate for fatty acid synthesis and glycerol 3-phosphate for esterification of the newly formed fatty acids, and also converts the inactive form of pyruvate dehydrogenase to the active form in adipose tissue but not in liver. Insulin also—by its ability to depress the level of intracellular cAMP—inhibits lipolysis in adipose tissue and thereby reduces the concentration of... [Pg.178]

Alcoholism leads to fat accumulation in the liver, hyperlipidemia, and ultimately cirrhosis. The exact mechanism of action of ethanol in the long term is stiU uncertain. Ethanol consumption over a long period leads to the accumulation of fatty acids in the liver that are derived from endogenous synthesis rather than from increased mobilization from adipose tissue. There is no impairment of hepatic synthesis of protein after ethanol ingestion. Oxidation of ethanol by alcohol dehydrogenase leads to excess production of NADH. [Pg.212]

Adipose tissue releases free fatty acids in statvation, and these ate used by many tissues as fuel. Futthet-mote, in the hvet they ate the substtate fot synthesis of ketone bodies. [Pg.236]

Evidence exists that the relative solubility of amines and inhibitors in heterogeneous oil-water systems could be decisive in formation of nitrosamines and blocking these reactions, Nitrosopyrrolidine formation in bacon predominates in the adipose tissue despite the fact that its precursor, proline, predominates in the lean tissue (5,6,7). Mottram and Patterson (8) partly attribute this phenomenon to the fact that the adipose tissue furnishes a medium in which nitrosation is favored, Massey, et al, (9) found that the presence of decane in a model heterogeneous system caused a 20-fold increase in rate of nitrosamine formation from lipophilic dihexylamine, but had no effect on nitrosation of hydrophilic pyrrolidine. Ascorbic acid in the presence of decane enhanced the synthesis of nitrosamines from lipophilic amines, but had no effect on nitrosation of pyrrolidine. The oil-soluble inhibitor ascorbyl palmitate had little influence on the formation of nitrosamines in the presence or absence of decane. [Pg.150]

Insulin also plays a role in fat metabolism. In humans, most fatty acid synthesis takes place in the liver. The mechanism of action of insulin involves directing excess nutrient molecules toward metabolic pathways leading to fat synthesis. These fatty acids are then transported to storage sites, predominantly adipose tissue. Finally, insulin stimulates the uptake of amino acids into cells where they are incorporated into proteins. [Pg.137]

Starvation elicits mobilization of triglycerides from the adipose tissue and inhibits the endogenic cholesterol synthesis owing to the low activity of hydroxy-methylglutaryl-CoA reductase. The latter process provides the possibility for the active production of ketone bodies in the liver. [Pg.210]

The regulation of fat metabolism is relatively simple. During fasting, the rising glucagon levels inactivate fatty acid synthesis at the level of acetyl-CoA carboxylase and induce the lipolysis of triglycerides in the adipose tissue by stimulation of a hormone-sensitive lipase. This hormone-sensitive lipase is activated by glucagon and epinephrine (via a cAMP mechanism). This releases fatty acids into the blood. These are transported to the various tissues, where they are used. [Pg.222]

Stimulation of protein synthesis in many tissues Mobilization of depot lipids from adipose tissue (lipolytic effect)... [Pg.309]

See other pages where Adipose tissue synthesis is mentioned: [Pg.120]    [Pg.88]    [Pg.120]    [Pg.88]    [Pg.113]    [Pg.584]    [Pg.760]    [Pg.760]    [Pg.761]    [Pg.821]    [Pg.41]    [Pg.502]    [Pg.758]    [Pg.125]    [Pg.137]    [Pg.166]    [Pg.176]    [Pg.196]    [Pg.208]    [Pg.215]    [Pg.217]    [Pg.231]    [Pg.231]    [Pg.232]    [Pg.232]    [Pg.367]    [Pg.479]    [Pg.573]    [Pg.257]    [Pg.96]    [Pg.115]    [Pg.139]    [Pg.222]    [Pg.229]    [Pg.1198]    [Pg.165]   
See also in sourсe #XX -- [ Pg.195 ]



SEARCH



Adipose

Adipose tissue

Fatty acids synthesis in adipose tissue

Triglycerides synthesis in adipose tissue

© 2024 chempedia.info