Decrease of Acetylcholine Release from Cortical Slices in Aged Rats: Investigations into Its Reversal by Phosphatidylserine

Vannucchi, Maria Giuliana; Casamenti, Fiorella; Pepeu, Giancarlo

doi:10.1111/j.1471-4159.1990.tb04565.x

Cited by 34 publications

(9 citation statements)

References 38 publications

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“…After two further washings, the cells were collected in 140 jil of 0.014 M citrate buffer prewarmed at 100°Cand homogenized in a glass-glass homogenizer. ACh was determined in the homogenates after HPLC separation, following the method of Vannucchi et al (1990).…”

Section: Ach Determinationmentioning

confidence: 99%

Cellular Acetylcholine Content and Neuronal Differentiation

Bignami

Bevilacqua

Biagioni

et al. 1997

Journal of Neurochemistry

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N18TG2 neuroblastoma clone is defective for biosynthetic neurotransmitter enzymes; its inability to establish functional synapses is overcome in the neuroblastoma X glioma 108CC15, where acetylcholine synthesis is also activated. These observations suggest a possible relation between the ability to produce acetylcholine and the capability to advance in the differentiation program and achieve a fully differentiated state. Here, we report the characterization of several clones after transfection of N18TG2 cells with a construct containing a cDNA for rat choline acetyltransferase (ChAT). The ability of these clones to synthesize acetylcholine is demonstrated by HPLC determination on cellular extracts. In the transfected clones, northern blot analysis shows increased expression of mRNAs for a specific neuronal protein associated with synaptic vesicles, synapsin I. Fiber outgrowth of transfected clones is also evaluated to establish whether there is any relation between ChAT levels and morphological differentiation. This analysis shows that the transfected clone 1/2, not expressing ChAT activity, displays a very immature morphology, and its ability to extend fibers also remains rather poor in the presence of "differentiation" agents such as retinoic acid. In contrast, clones 2/4, 3/1, and 3/2, exhibiting high ChAT levels, display higher fiber outgrowth compared with clone 1/2 in both the absence and the presence of differentiating agents.

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Section: Ach Determinationmentioning

confidence: 99%

Cellular Acetylcholine Content and Neuronal Differentiation

Bignami

Bevilacqua

Biagioni

et al. 1997

Journal of Neurochemistry

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“…Impairment in the ability to synthesize and release ACh has been consistently reported in aged rodent cortex (Vannucchi et al 1990). The activity of AChE, the degradative enzyme of cholinergic system, in the cerebral cortex of 90 weeks old control group decreased significantly compared to 7 weeks old control with significant increase in the K m .…”

Section: Discussionmentioning

confidence: 97%

“…The cholinergic innervation of the cerebral cortex has been extensively investigated because of its role in arousal, learning and memory (Bartus et al 1985;McCormick 1989McCormick , 1992Olton et al 1991;Voytko et al 1994). Studies in rodents have shown a consistent decline in cortical ACh synthesis and release during ageing (Gibson et al 1981;Araujo et al 1990;Vannucchi et al 1990). Also, memory decline during ageing has been extensively documented in rodents (Ingram et al 1981), nonhuman primates (Presty et al 1987), and humans (Rowe and Kahn 1987).…”

Section: Introductionmentioning

confidence: 96%

Acetylcholine and muscarinic receptor function in cerebral cortex of diabetic young and old male Wistar rats and the role of muscarinic receptors in calcium release from pancreatic islets

et al. 2009

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We investigated acetylcholine esterase (AChE) activity, acetylcholine and muscarinic M1, M3 receptors kinetics in the cerebral cortex of young and old streptozotocin induced and insulin treated diabetic rats. The role of muscarinic receptors in intracellular calcium release from pancreatic islets was studied in vitro. Wistar rats of 7 and 90-weeks old were used. All studies were done in cerebral cortex. AChE assay was done by spectrophotometric method. Radioreceptor binding assays were done for Acetylcholine, Muscarinic M1 and M3 receptors using specific ligands. Calcium imaging was done using fluo4-AM in pancreatic cells. Ninety-weeks old control rats showed significantly decreased Vmax and increased Km for AChE compared to 7-weeks old control rats. An increased Vmax observed in both 7 and 90-weeks old diabetic groups with significant decrease in Km. Scatchard analysis using specific agonists showed significant decrease in the B (max) and K (d) of acetylcholine and muscarinic M1 receptors in 90-weeks old control rats compared to 7-weeks old control. Binding studies for M3 receptors showed no significant change compared to 7-weeks old control. Acetylcholine, muscarinic M1 and M3 receptor number significantly increased in 90-weeks old diabetic rat groups compared to their respective controls. Insulin treatment significantly reversed the binding parameters to near control compared to diabetic group. In vitro studies showed that acetylcholine through muscarinic M1 and M3 receptors' stimulated calcium release from the pancreatic islets. Thus our studies suggest that Insulin signaling play an important part in differentially regulating pancreatic cholinergic activity, and the diabetes mediated cortical dysfunctions with age.

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“…Impairment in the ability to synthesize and release ACh has been consistently reported in aged rodent cortex (e.g., refs. [7][8][9]. Electrophysiological experiments in the hippocampus of old rats showed impairment in neuronal response to local application of ACh (but not of glutamate) without consistent changes in receptor number (1).…”

mentioning

confidence: 95%

“…Although the aging process seems to impinge on several neurotransmitter systems, special emphasis has been placed on the role of the cortical cholinergic innervation in geriatric memory dysfunction (6). Studies in rodents have shown a consistent decline in cortical acetylcholine (ACh) synthesis and release during aging (7)(8)(9), although little or no change occurs in cortical choline acetyltransferase activity (1,8,6,10). Further, the cholinergic basal forebrain neurons that project to the cortex undergo an age-related decrease in size though their number is apparently not diminished (11).…”

mentioning

confidence: 99%

Age-dependent decrease in the affinity of muscarinic M1 receptors in neocortex of rhesus monkeys.

Vannucchi

Goldman‐Rakic²

1991

Proc. Natl. Acad. Sci. U.S.A.

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In vitro autoradiography on tissue sections and receptor assay in cortical membrane homogenates revealed that pirenuzepine h-affinity muscarink sites (Ml) decrease in affinity in the prefrontal cortex and in other cortical areas of aged rhesus monkey (Macaca miudta). Carbachol competition experiments detected only a single, low-affinity da of sites in old monkeys, while two classes of sites (low and hh affity) were observed in young adults. The change in affinity in the aged monkeys is not accomaed by a decrease in the density ofthese sites and, further, the age-related decline in the affinity ofthe Ml site is reversible. In the presence of Mg2e, the Ml muarnic receptors in the aged monkeys were capable of forming carbachol high-affinity sites. These results provide evidence for agedependent funtional changes in receptor activity in cerebral cortex and indicate that these receptors maintain a degree of plasticity that could be a strategc target for research aimed at treatment of memory disorders in aged humans.Memory decline during aging has been extensively documented in rodents (1, 2), nonhuman primates (3, 4), and humans (5). Although the aging process seems to impinge on several neurotransmitter systems, special emphasis has been placed on the role of the cortical cholinergic innervation in geriatric memory dysfunction (6). Studies in rodents have shown a consistent decline in cortical acetylcholine (ACh) synthesis and release during aging (7-9), although little or no change occurs in cortical choline acetyltransferase activity (1,8,6,10). Further, the cholinergic basal forebrain neurons that project to the cortex undergo an age-related decrease in size though their number is apparently not diminished (11).In the present study we have examined the status of the Ml muscarinic cholinergic receptor in aged rhesus monkey, a species that exhibits behavioral impairment and cortical pathological changes remarkably similar to those observed in elderly humans (4,6,12). Ml sites are present in high concentration in the primate neocortex (13,14) and are involved in cortical cholinergic excitation (15). However, little is known about changes in these cortical receptors with age. In aged rats, there have been conflicting reports of decrease (16) or no change (17) in binding-site density. Only two recent studies have examined the status of ACh receptors in monkey cortex during aging, and both found a decrease of nicotinic and muscarinic receptors, mainly in temporal (18,19) and parahippocampal (18) cortex. Neither study found any significant decreases in the affinity of binding sites in aged monkey cortex.In the present study we confirm that the number of Ml sites does not change with age but we provide evidence for changes in the molecular structure of the cortical receptor or of the coupled effector systems able to alter the affinity of these sites. To obtain this evidence, we studied the binding of the highly selective compound pirenzepine (PZ) (20) to the Ml sites in nine distinct areas of monkey cortex both i...

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Decrease of Acetylcholine Release from Cortical Slices in Aged Rats: Investigations into Its Reversal by Phosphatidylserine

Cited by 34 publications

References 38 publications

Cellular Acetylcholine Content and Neuronal Differentiation

Cellular Acetylcholine Content and Neuronal Differentiation

Acetylcholine and muscarinic receptor function in cerebral cortex of diabetic young and old male Wistar rats and the role of muscarinic receptors in calcium release from pancreatic islets

Age-dependent decrease in the affinity of muscarinic M1 receptors in neocortex of rhesus monkeys.

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