Choline brain

Acetylcholine and choline Brain C CME Multienzyme redox-hydrogel under Nafion [53]... 

Magi l,S.G.,ZeLsel,S.H.,and Wurtman, R.). (1981J. Effects of ingesting soy Or egg lecithins on serum choline, brain choline and brain acetylcholine. /. Nutr. Ill, 166-170. 

Fig,3. The effect of pH on the incorporation of methyl groups from SAM into rat brain microsomal Ptd-choline. Brain microsomes (0,2-0,3 mg protein) were incubated for 20 min at 37°C in a final volume of 80 p.1 with 60 mM succinate-NaOH (pH 5,0-5,5) or cacodilate (5 0-7,0) or phosphate (6,0-7,8) or Tris HCl (7,2-8,8) buffers and with 2,66 pM SAM (15 Ci/mmol), Treatment after incubation was carried out as reported in FLg,l, Phospholipids were separated according to published procedures with the following couple of solvents l), chlorofomwnethanol-NH OH (28, w/v), 65 30 ... 

It was soon found that the administration of choline, by injection or as a constituent of the diet, caused major sequential elevations in serum choline, brain choline, and brain acetylcholine levels. Concentrations of the neurotransmitter were shown to rise within all... 

CjHiaNO, [Mc3NCH= CH2] OH. A liquid forming a crystalline trihydrate, It is present free and combined in brain and other animal and vegetable products and is formed as a product of putrefaction of lecithin. It can be prepared synthetically from choline and decomposes easily to trimethylamine. neutralization, heat of The amount of heat evolved when I g equivalent of an acid is neutralized by 1 g equivalent of a base. For strong acids and strong bases in dilute solution the only reaction which occurs is H -h OH ---> H2O and the heat of neutral-... 

Acetylcholine Precursors. Early efforts to treat dementia using cholinomimetics focused on choline [62-49-7] (12) supplement therapy (Fig. 3). This therapy, analogous to L-dopa [59-92-7] therapy for Parkinson s disease, is based on the hypothesis that increasing the levels of choline in the brain bolsters acetylcholine (ACh) synthesis and thereby reverses deficits in cholinergic function. In addition, because choline is a precursor of phosphatidylcholine as well as ACh, its supplementation may be neuroprotective in conditions of choline deficit (104). 

Allen DD and Smith QR. Characterization of the blood-brain barrier choline... 

Geldenhuys WJ, Lockman PR, McAfee JH, Fitzpatrick KT, Van der Schyf CJ and Allen DD. Molecular modeling studies on the active binding site of the blood-brain barrier choline transporter. Bioorg Med Chem Lett 2004 14 3085-92. 

These compounds constimte as much as 10% of the phospholipids of brain and muscle. StmcmraUy, the plasmalogens resemble phosphatidylethanolamine but possess an ether link on the sn- carbon instead of the ester link found in acylglycerols. Typically, the alkyl radical is an unsamrated alcohol (Figure 14-10). In some instances, choline, serine, or inositol may be sub-stimted for ethanolamine. 

NEUROTRANSMITTERS, DRUGS AND BRAIN FUNCTION CHOLINE 0 ACETYL-CoA... 

Acetylcholine is synthesised in nerve terminals from its precursor choline, which is not formed in the CNS but transported there in free form in the blood. It is found in many foods such as egg yolk, liver and vegetables although it is also produced in the liver and its brain concentration rises after meals. Choline is taken up into the cytoplasm by a high-affinity (Am = 1-5 pM), saturable, uptake which is Na+ and ATP dependent and while it does not appear to occur during the depolarisation produced by high concentrations of potassium it is increased by neuronal activity and is specific to cholinergic nerves. A separate low-affinity uptake, or diffusion (Am = 50 pM), which is linearly related to choline concentration and not saturable, is of less interest since it is not specific to cholinergic neurons. 

ACh is widely distributed throughout the brain and parts of the spinal cord (ventral horn and dorsal columns). Whole brain concentrations of lOnmolg" tissue have been reported with highest concentrations in the interpeduncular, caudate and dorsal raphe nuclei. Turnover figures of 0.15-2.0 nmol g min vary with the area studied and the method of measurement, e.g. synthesis of labelled ACh from [ " C]-choline uptake or rundown of ACh after inhibition of choline uptake by hemicholinium. They are all sufficiently high, however, to suggest that in the absence of synthesis depletion could occur within minutes. 

Released ACh is broken down by membrane-bound acetylcholinesterase, often called the true or specific cholinesterase to distinguish it from butyrylcholinesterase, a pseudo-or non-specific plasma cholinesterase. It is an extremely efficient enzyme with one molecule capable of dealing with something like 10000 molecules of ACh each second, which means a short life and rapid turnover (100 ps) for each molecule of ACh. It seems that about 50% of the choline freed by the hydrolysis of ACh is taken back into the nerve. There is a wide range of anticholinesterases which can be used to prolong and potentiate the action of ACh. Some of these, such as physostigmine, which can cross the blood-brain barrier to produce central effects and neostigmine, which does not readily... 

Flentge, F, Venema, K, Koch, T and Korf, J (1997) An enz5mie-reactor for electrochemical monitoring of choline and acetylcholine. Applications in high-performance liquid chromatography, brain tissue, microdialysis and cerebral fluid. Annal. Biochem. 204 305-311. 

Ethanol and choline glycerolipids were isolated from calf brain and beef heart lipids by PTLC using silica gel H plates. Pure ethanol amine and choline plasmalogens were obtained with a yield of 80% [74]. Four phosphohpid components in the purple membrane (Bacteriorhodopsin) of Halobacterium halobium were isolated and identified by PTLC. Separated phosphohpids were add-hydrolyzed and further analyzed by GC. Silica gel G pates were used to fractionate alkylglycerol according to the number of carbon atoms in the aliphatic moiety [24]. Sterol esters, wax esters, free sterols, and polar lipids in dogskin hpids were separated by PTLC. The fatty acid composition of each group was determined by GC. 

The BBB also has sodium- and pH-independent transporters of organic cations. They are important for the homeostasis of choline and thiamine in the brain and for the permeation of cationic drugs like propranolol, lidocaine, fentanyl, Hl-an-... 

Brain ChAT has a KD for choline of approximately 1 mmol/1 and for acetyl coenzyme A (CoA) of approximately 10pmol/l. The activity of the isolated enzyme, assayed in the presence of optimal concentrations of cofactors and substrates, appears far greater than the rate at which choline is converted to ACh in vivo. This suggests that the activity of ChAT is repressed in vivo. Surprisingly, inhibitors of ChAT do not decrease ACh synthesis when used in vivo this may reflect a failure to achieve a sufficient local concentration of inhibitor, but also suggests that this step is not rate-limiting in the synthesis of ACh [18-20]. 

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