Lipids metabolic functions

TNF is a pleiotropic cytokine exerting a wide range of cellular responses, that affect biological processes such as lipid metabolism, coagulation, and insulin resistance and the function of endothelial cells. As a major proinflammatory cytokine TNF is also involved in progression of diseases like cancer, Alzheimer, Diabetes type II, cardiovascular, pulmonary or neurological disorders, and many autoimmune diseases. Blocking the action of TNF clearly reduces its inflammatory potential on various autoimmune disorders like Crohn s disease, rheumatoid arthritis (RA), and psoriasis. 

Besides water, the diet must provide metabolic fuels (mainly carbohydrates and lipids), protein (for growth and turnover of tissue proteins), fiber (for roughage), minerals (elements with specific metabolic functions), and vitamins and essential fatty acids (organic compounds needed in small amounts for essential metabolic and physiologic functions). The polysaccharides, tri-acylglycerols, and proteins that make up the bulk of the diet must be hydrolyzed to their constituent monosaccharides, fatty acids, and amino acids, respectively, before absorption and utilization. Minerals and vitamins must be released from the complex matrix of food before they can be absorbed and utifized. 

Lipoproteins. A lipoprotein is an endogenous macromolecule consisting of an inner apolar core of cholesteryl esters and triglycerides surrounded by a monolayer of phospholipid embedded with cholesterol and apoproteins. The functions of lipoproteins are to transport lipids and to mediate lipid metabolism. There are four main types of lipoproteins (classified based on their flotation rates in salt solutions) chylomicrons, very-low-density lipoprotein (VLDL), low-density lipoprotein (LDL), and high-density lipoprotein (HDL). These differ in size, molecular weight, and density and have different lipid, protein, and apoprotein compositions (Table 11). The apoproteins are important determinants in the metabolism of lipoproteins—they serve as ligands for lipoprotein receptors and as mediators in lipoproteins interconversion by enzymes. 

Peroxisome-proliferator activated receptors (PPARs) are lipid-activated transcription factors exerting several functions in development and metabolism. PPARa is implicated in the regulation of lipid metabolism, lipoprotein synthesis, and inflammatory response in liver and other tissues. 

Secondary hyperparathyroidism can cause altered lipid metabolism, altered insulin secretin, resistance to erythropoietic therapy, impaired neurologic and immune functions, and increased mortality. 

The physiological functions of carboxylesterases are still partly obscure but these enzymes are probably essential, since their genetic codes have been preserved throughout evolution [84] [96], There is some evidence that microsomal carboxylesterases play an important role in lipid metabolism in the endoplasmic reticulum. Indeed, they are able to hydrolyze acylcamitines, pal-mitoyl-CoA, and mono- and diacylglycerols [74a] [77] [97]. It has been speculated that these hydrolytic activities may facilitate the transfer of fatty acids across the endoplasmic reticulum and/or prevent the accumulation of mem-branolytic natural detergents such as carnitine esters and lysophospholipids. Plasma esterases are possibly also involved in fat absorption. In the rat, an increase in dietary fats was associated with a pronounced increase in the activity of ESI. In the mouse, the infusion of lipids into the duodenum decreased ESI levels in both lymph and serum, whereas an increase in ES2 levels was observed. In the lymph, the levels of ES2 paralleled triglyceride concentrations [92] [98],... 

Physioiogicai There is an extensive literature that deals with the effects ginseng on CNS function, but effects are also seen in neuroendocrine function, carbohydrate and lipid metabolism, the immune system, and cardiovascular function (Gillis 1997). Ginsenosides induce a decrease in heart rate and have biphasic effects on blood pressure, with decreases preceded by a slight increase (Kaku et al. 1975). Ginsenoside Rgl had the most potent effects on blood pressure. Little or no effect is observed on respiration. 

Hepatocytes make up 60-70% of the total number of liver cells. They have a well-organized intracellular structure with huge numbers of cell organelles to maintain the high metabolic profile. At the apical side or canalicular membrane the cell is specialized for the secretion of bile components. There are several ATP-dependent transport carriers located on this side of the membrane, which transport bile salts, lipids and xenobiotics into the canaliculus. On the sinusoidal side, the cells specialize in uptake and secretion of a wide variety of components. To increase the surface of the membrane for this exchange with the bloodstream, the sinusoidal domain of the membrane is equipped with irregular microvilli. The microvilli are embedded into the fluid and matrix components of the space of Disse and are in close contact with the sinusoidal blood because of the discontinuous and fenestrated SECs. To facilitate its metabolic functions numerous membrane transport mechanisms and receptors are situated in the membrane. 

Factor II), and Factors VII, VIII, IX, and X may increase. Sulfobromophthalein and other liver function test values may be increased the effects of medroxyprogesterone acetate on lipid metabolism are inconsistent. Both increases and decreases in total cholesterol, triglycerides, low-density lipoprotein (LDL) cholesterol, and high-density lipoprotein (FIDL) cholesterol have been observed. 

The activity of vitamin A is related to vision process, tissue differentiation, growth, reproduction, and the immune system. A deficiency of this micronutrient mainly leads to visual problems, impaired immune function, and growth retardation in children. Hypervitaminosis could lead to hepatotoxicity, affect bone metabolism, disrupt lipid metabolism, and teratogenicity [417]. The isomerization of P-carotene, due to technological processes in foods, leads to a reduction of the vitamin A activity it is therefore important to analyze it. 

Cleary, M. P., F. C. Phillips, and R. A. Morton. Genotype and diet effects in lean and obese Zucker rats fed either safflower or coconut oil diets. Proc Soc Exp Biol Med 1999 220(3) 153-161. Lai, J.J., C. V. Sreeranjit Kumar, M. V. Suresh, M. Indira, and P. L. Vija-yammal. Effect of in utero exposure of Toddy (coconut palm wine) on liver function and lipid metabolism in rat fetuses. Plant Foods Hum Nutr 1998 52(3) 209-219. 

HV168 Li ]., T. Kaneko, L. Q. Qin, J. Wang, and Y. Wang. Effects of barley intake on glucose tolerance, lipid metabolism, and bowel function in women. Nutrition 2003 19(11-12) 926-929. 

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