Premarin improves memory, prevents scopolamine-induced amnesia and increases number of basal forebrain choline acetyltransferase positive cells in middle-aged surgically menopausal rats

Conjugated equine estrogen (CEE) is the most commonly prescribed estrogen therapy, and is the estrogen used in the Women's Health Initiative study. While in-vitro studies suggest that CEE is neuroprotective, no study has evaluated CEE's effects on a cognitive battery and brain immunohistochemistry in an animal model. The current experiment tested whether CEE impacted: I) spatial learning, reference memory, working memory and long-term retention, as well as ability to handle mnemonic delay and interference challenges; and, II) the cholinergic system, via pharmacological challenge during memory testing and ChAT-immunoreactive cell counts in the basal forebrain. Middle-aged ovariectomized (Ovx) rats received chronic cyclic injections of either Oil (vehicle), CEE-Low (10 μg), CEE-Medium (20 μg) or CEE-High (30 μg) treatment. Relative to the Oil group, all three CEE groups showed less overnight forgetting on the spatial reference memory task, and the CEE-High group had enhanced platform localization during the probe trial. All CEE groups exhibited enhanced learning on the spatial working memory task, and CEE dose-dependently protected against scopolamine-induced amnesia with every rat receiving the highest CEE dose maintaining zero errors after scopolamine challenge. CEE also increased number of ChAT-immunoreactive neurons in the vertical diagonal band of the basal forebrain. Neither the ability to remember after a delay nor interference, nor long-term retention, was influenced by the CEE regimen used in this study. These findings are similar to those reported previously for 17 β-estradiol, and suggest that CEE can provide cognitive benefits on spatial learning, reference and working memory, possibly through cholinergic mechanisms.     

Pineal cells enhance choline acetyltransferase activity in sympathetic neurons

Cells derived from the neonatal rat pineal gland were cocultured with cells derived from neonatal rat superior cervical ganglia (SCG) in an attempt to determine whether a sympathetic target organ with only adrenergic properties could enhance the development of adrenergic transmitter properties in sympathetic neurons in tissue culture. Choline acetyltransferase was measured as an index of cholinergic differentiation, and tyrosine hydroxylase was measured as an index of adrenergic differentiation. As indices of total cell number and cellular volume, DNA and protein, respectively, were also measured. We found that the pineal-SCG cocultures contained ten times greater choline acetyltransferase activity than sister neuronal cultures cultured without pineal cells, thus indicating that the pineal cells enhanced cholinergic properties in the sympathetic neurons. This cholinergic enhancement was dependent upon the presence of nerve growth factor and could not be obtained with pineal-conditioned medium. Tyrosine hydroxylase activity, measured on cultures sister to those mentioned above, was low in all cultures and decreased somewhat in SCGs cultured alone. TH activity in the pineal-SCG cocultures, however, increased slightly. Some tyrosine hydroxylating activity developed in pineals cultured alone, however, and may have been responsible for the small increase in tyrosine hydroxylase activity noted in the pineal-SCG cocultures. The implications of these results for a determination of the role that target organ plays in the development of the transmitter properties of sympathetic neurons are discussed.     

Studies on choline acetyltransferase isolated from human brain

The purified choline acetyltransferase from human striatal tissue was found to have aK _m value of 8 μM for acetyl-coenzyme A and 250 μM for choline. The predominant enzyme component has a molecular weight of about 67,000 daltons, measured by molecular filtration through Sephadex G-100. In a sucrose-density gradient, the enzyme cosedimented with bovine serum albumin with an estimatedS-value of 4.5. The enzyme activity was enhanced 2- to 3-fold by KCl, NaCl, (NH₄)₂SO₄, and chelating agents like EDTA or EGTA. Cupric sulfate (0.1 mM) inhibited the enzyme activity almost completely. This inhibition was circumvented by increasing concentrations of enzyme protein, dithiothreitol, and EDTA, but not by the substrates, histidine, or imidazole.     

Purification and immunochemical properties of choline acetyltransferase from human brain

Choline acetyltransferase (CAT) was purified to homogeneity from 363 g of human neostriatum by means of ammonium sulfate and protamine sulfate fractionation, followed by chromatography on DEAE-Sephadex, hydroxyapatite, phosphocellulose, and agarose-hexane-Co A columns. The final product migrated as a single component on 7.5% gels with or without SDS. It had a molecular weight of 66,000 daltons and a specific activity of 7.3 mol acetylcholine formed per milligram protein per minute. Antibodies prepared in rabbits gave single precipitin lines against this protein on Ouchterlony immunodiffusion and immunoelectrophoresis plates. The CAT-anti-CAT IgG complex migrated as a single band on gel electrophoresis, establishing the monospecificity of the antibodies. Strong cross-reactivity to the IgG was obtained with CAT from rat, rabbit, and guinea pig, but only weak reactivity with chicken. Fab fragments were prepared from the rabbit IgG and were used to stain CAT-containing neurons in the spinal cord and nerve endings at the neuromuscular junction using the PAP technique.     

Membrane-bound choline acetyltransferase from human brain: Purification and properties

Choline acetyltransferase (ChAT; EC 2.3.1.6) was separated from human caudate/putamen into three fractions by successive extractions into apotassium phosphate buffer, a high salt (NaCl) buffer and a buffer containing 0.6% Triton X-100. The Triton-X-solubilized fraction is the membrane-bound ChAT (mChAT) and represents about 40% of the total ChAT. After centrifugation, mChAT was precipitated by ammonium sulfate at 35–65% saturation. The crude enzyme preparation was fractionated in turn on a DEAE-Sepharose, a hydroxylapatite and a phosphocellulose columns. Finally, mChAT was applied to a CoA-Sepharose column equilibrated with buffer containing 100 mM choline chloride and was specifically eluted with buffer containing acetyl-CoA. The presence of both substrates greatly stabilized the enzyme and ChAT was recovered almost quantitatively. The final preparation of mChAT has a specific activity of 37.2 mol of acetylcholine synthesized per min-mg protein. The purified mChAT has a pH optimum of 8.3. It migrated as two bands on SDS-PAGE with molecular weights of 67,000 and 62,000 daltons, respectively. Immunoblot autoradiography showed that an antiserum prepared previously against soluble ChAT also cross-reacted with both bands of mChAT, indicating that both forms of this enzyme are related. Furthermore, as previously reported for soluble ChAT, Fab-Sepharose chromatography could be used for the purification of mChAT and this preparation also resolved into two bands of 10% SDS gel.Special Issue dedicated to Prof. Eduardo De Robertis.     

Large scale isolation of choline acetyltransferase from ox brains

A process for the large-scale isolation of choline acetyltransferase from ox brain has been developed, by scaling-up an existing laboratory method. 20% of the enzyme was obtained from 17 kg of brain tissue with a 50-fold purification.     

Antibody production to choline acetyltransferase purified from human brain

Choline acetyltransferase (CAT) was isolated from human caudate and putamen. The enzyme was highly purified by a series of steps involving fractionation by protamine sulfate and ammonium sulfate followed by chromatography on DEAE-Sephadex, hydroxyapatite and carboxymethyl cellulose columns. The isolated CAT gave a single protein band on polyacrylamide gel electrophoresis at pH 8.3 which corresponded with CAT activity. A single band was also obtained at pH 6.8. Rabbit antiserum was prepared to the purified homogeneous CAT from carboxymethyl cellulose columns. It exhibited a single sharp precipitin band on double diffusion tests on Ouchterlony I.D. plates when tested against the partially purified hydroxyapatite enzyme. On preincubation, the antiserum inhibited CAT activity to 50–60% of control independently of the concentration of enzymatic protein. Normal rabbit serum neither produced a precipitin band on double diffusion tests nor inhibited the CAT activity on incubation. The anti-CAT rabbit antibody thus appeared to be specific.     

Characteristics of choline acetyltransferase and cholinesterases in two types of cultured cells from embryonic chick brain

Cells that were mechanically dissociated from the brains of 7-day-old chick embryos were grown in culture for 7–8 days. Two major cell populations were observed: (1) cells that aggregated and sent out processes, (2) flat cells that proliferated rapidly and formed a confluent layer by day 4 of culture. Many of the cells of the first type had the morphological, histochemical and biochemical attributes of neurons. They possessed choline acetyltransferase (ChAc) and acetylcholinesterase (AChEs) activities. The flat cells possessed neither of the activities, but did have butyrylcholinesterase (BuChEs) activity and a choline independent acetylase activity (CIA) that may be carnitine acetyltransferase.The activities of ChAc and AChEs in the cultured neurons increased approximately 9-fold and 5-fold, respectively, over an 8-day period. The patterns of change of these enzymes were not unlike those seen in vivo in intact developing chick brain.The addition of thyroxine (10^?6M) to these cultures increased the activities of neuronal AChEs and flat cell BuChEs by 30–70%.     

Amines and choline acetyltransferase in rat intestine

A biochemical study of the endogenous levels of serotonin (5-HT), noradrenaline (NA) and the activity of choline acetyltransferase (CAT) was carried out in the intestinal tract of the rat. High levels of 5-HT and NA were detected in the caecum and the colon. These anatomical regions also presented the highest activity of CAT. Similar activities of CAT were detected, after dissection, in the mucosa and the muscular layers containing the enteric plexuses. During the day-night cycle, 5-HT and NA amounts showed significant variations as a function of time. Treatment with pargyline (75 mg kg^?1), a monoamine oxidase inhibitor, resulted in an increase in 5-HT content with parallel modifications in CAT activity. In spite of an important decrease in 5-HT endogenous level in the caecum of rats pretreated with parachlorophenylalanine (300 mg kg^?1), no significant change in CAT activity was detected whatever was the duration of the treatment. α-Methylparatyrosine (100 mg kg^?1), known to block the synthesis of NA, did not affect the CAT activity in the caecum.     

Molecular characterization of choline acetyltransferase from Drosophila melanogaster

Purified acetyl-CoA: choline O-acetyltransferase (EC 2.3.1.6) from Drosophila melanogaster has been shown to contain two major polypeptides of 67 and 54 K Daltons. However, all enzyme activity is found in a single molecular weight form of approx 67 K Daltons as determined by sucrose gradient sedimentation and molecular exclusion chromatography. The latter showed both the 67 and 54 K Dalton polypeptides on polyacrylamide gel electrophoresis in sodium lauryl sulfate (10% acrylamide). Analysis of purified choline acetyltransferase on polyacrylamide gel electrophoresis in sodium lauryl sulfate (15% acrylamide) revealed the presence of an additional polypeptide at 13 K Daltons. Tryptic-peptide maps of the 67, 54 and 13 K Dalton components showed all three to be structurally related. In addition to several common tryptic peptides, the 13 K Dalton polypeptide contained three tryptic-peptides that were also found in the 67 K Dalton polypeptide, but were absent from the 54 K Dalton polypeptide. This evidence suggests that native Drosophila choline acetyltransferase may exist in two forms, one a single polypeptide chain with a molecular weight of 67 K Daltons and the other consisting of two noncovalently bound polypeptide chains with molecular weights of 54 and 13 K Daltons. The latter form is the major one isolated and may be generated by limited proteolysis of the single chain 67 K Dalton form.     

High activity of choline acetyltransferase induced in neuroblastoma X glia hybrid cells

Hybrids were made between rat glioma X mouse neuroblastoma cell lines and were examined for the specific activities of choline acetyltransferase and acetylcholinesterase. The specific activities of choline acetyltransferase of the hybrids were as high as those in normal brain, whereas neither parent line showed appreciable activities. The electrical excitability of the neuroblastoma cells was retained in the hybrids.     

Stimulation of carnitine acetyltransferase in PC12 cells by nerve growth factor: Relationship to choline acetyltransferase stimulation

The activity of carnitine acetyltransferase (acetyl-CoA:L-carnitine O-acetyltransferase) was found to be at least 50-fold higher than that of choline acetyltransferase in PC12 cells. Nerve growth factor stimulated both enzymes in a parallel manner with respect to concentration of NGF and culture time. The stimulation of both enzymes was completely inhibited by 10 M 6-thioguanine, an inhibitor of protein kinase N. Results are discussed with reference to the hypothesis that the two enzymes may be functionally related in neuronal cells.     

Induction of fibre outgrowth and choline acetyltransferase in PC12 pheochromocytoma cells by conditioned media from glial cells and organ extracts

Culture medium conditioned by C-6 glioma cells (previously shown to support the survival of chick sensory neurons in vitro [7]) was tested on the PC12 clone of pheochromocytoma cells. It is demonstrated that fibre outgrowth can be induced and the activity of the enzyme choline acetyltransferase stimulated by this medium. The activity of the conditioned medium is protease sensitive and the peak activity has an apparent molecular weight (on gel filtration) of approx. 50000. Similar effects can be obtained by conditioned medium from another rat glioma, D-74, and by extracts from rat central and peripheral nervous system. In no case is the effect blocked by specific antibodies against nerve growth factor (NGF). Media conditioned by other cell lines, together with other tissue extracts (at the same concentration as those taken from nervous tissue) have no detectable effect on the PC12 cells. It is suggested that PC12 cells will be useful as a tool for the further characterisation of factors with NGF-like activities.     

Redox reactive reagents inhibiting and inactivating choline acetyltransferase

3-Trimethylammoniomethyl catechol and N,N-dimethylepinephrine (catecholine) are redox reactive reagents which possess quaternary ammonium functional groups and the capacity to inhibit or inactivate choline binding macromolecules which mediate cholinergic neuronal function. Earlier studies reported the synthesis of 3-trimethylammoniomethyl catechol and demonstrated its redox-dependent covalent inactivation of the nicotinic acetylcholine receptor (Nickoloff et al., Biochemistry 24, 999-1007 (1985)]. Here we present the synthesis of catecholine and show that both 3-trimethylammoniomethyl catechol and catecholine are weak noncompetitive inhibitors (Ki = 15 +/- 6 and 25 +/- 4 mM, respectively) of choline acetyltransferase (EC 2.3.1.6). Both agents irreversibly inactivate the enzyme.