Spontaneous Synaptic Activation of Muscarinic Receptors by Striatal Cholinergic Neuron Firing.

Cholinergic interneurons (CHIs) play a major role in motor and learning functions of the striatum. As acetylcholine does not directly evoke postsynaptic events at most striatal synapses, it remains unclear how postsynaptic cholinergic receptors encode the firing patterns of CHIs in the striatum. To examine the dynamics of acetylcholine release, we used optogenetics and paired recordings from CHIs and medium spiny neurons (MSNs) virally overexpressing G-protein-activated inwardly rectifying potassium (GIRK) channels. Due to the efficient coupling between endogenous muscarinic receptors and GIRK channels, we found that firing of individual CHIs resulted in monosynaptic spontaneous inhibitory post-synaptic currents (IPSCs) in MSNs. Paired CHI-MSN recordings revealed that the high probability of acetylcholine release at these synapses allowed muscarinic receptors to faithfully encode physiological activity patterns from individual CHIs without failure. These results indicate that muscarinic receptors in striatal output neurons reliably decode CHI firing.

Determination of affinity and efficacy of acetylcholinesterase inhibitors using isothermal titration calorimetry.

BACKGROUND: Acetylcholinesterase (AChE), an enzyme rapidly terminating nerve signals at synapses of cholinergic neurons is an important drug target in treatment of Alzheimer's disease and related memory loss conditions. Here we present comprehensive use of isothermal titration calorimetry (ITC) for investigation of AChE kinetics and AChE-inhibitor interactions. METHODS: Acetylcholinesterase (AChE, EC 3.1.1.7) from Electrophorus electricus was assayed for interactions with five well known AChE inhibitors, galanthamine, tacrine, donepezil, edrophonium and ambenonium. In ITC experiments the inhibitors were injected to the enzyme solution solely (for thermodynamic characterization of binding) or in presence of the substrate, acetylcholine (for determination of inhibitors potency). RESULTS: Detailed description of various experimental protocols is presented, allowing evaluation of inhibitors potency (in terms of IC50 and Ki) and thermodynamic parameters of the binding. The potency of tested inhibitors was in nano to micromolar range which corresponded to activities determined in conventional method. Binding of all inhibitors showed to be enthalpy driven and obtained Ka values demonstrated good correlation with the data from standard Ellman's assay. CONCLUSIONS: Obtained results confirmed the usability of the ITC technique for comprehensive characterization of AChE-inhibitor interactions and AChE kinetics. The method reduced the complexity of reaction mixture and interference problems with the advantage of using natural substrates. GENERAL SIGNIFICANCE: The work reports complete thermodynamic characteristics of the AChE - inhibitor complexes. Due to the universal character of ITC measurements, described protocols can be easily adapted to other enzymatic systems.

Huperzine A Alleviates Mechanical Allodynia but Not Spontaneous Pain via Muscarinic Acetylcholine Receptors in Mice.

Chronic pain is a major health issue and most patients suffer from spontaneous pain. Previous studies suggest that Huperzine A (Hup A), an alkaloid isolated from the Chinese herb Huperzia serrata, is a potent analgesic with few side effects. However, whether it alleviates spontaneous pain is unclear. We evaluated the effects of Hup A on spontaneous pain in mice using the conditioned place preference (CPP) behavioral assay and found that application of Hup A attenuated the mechanical allodynia induced by peripheral nerve injury or inflammation. This effect was blocked by atropine. However, clonidine but not Hup A induced preference for the drug-paired chamber in CPP. The same effects occurred when Hup A was infused into the anterior cingulate cortex. Furthermore, ambenonium chloride, a competitive inhibitor of acetylcholinesterase, also increased the paw-withdrawal threshold but failed to induce place preference in CPP. Therefore, our data suggest that acetylcholinesterase in both the peripheral and central nervous systems is involved in the regulation of mechanical allodynia but not the spontaneous pain.

Schwann cells sense and control acetylcholine spillover at the neuromuscular junction by α7 nicotinic receptors and butyrylcholinesterase.

Terminal Schwann cells (TSCs) are key components of the mammalian neuromuscular junction (NMJ). How the TSCs sense the synaptic activity in physiological conditions remains unclear. We have taken advantage of the distinct localization of acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) at the NMJ to bring out the function of different ACh receptors (AChRs). AChE is clustered by the collagen Q in the synaptic cleft and prevents the repetitive activation of muscle nicotinic AChRs. We found that BChE is anchored at the TSC by a proline-rich membrane anchor, the small transmembrane protein anchor of brain AChE. When BChE was specifically inhibited, ACh release was significant depressed through the activation of α7 nAChRs localized on the TSC and activated by the spillover of ACh. When both AChE and BChE were inhibited, the spillover increased and induced a dramatic reduction of ACh release that compromised the muscle twitch triggered by the nerve stimulation. α7 nAChRs at the TSC may act as a sensor for spillover of ACh adjusted by BChE and may represent an extrasynaptic sensor for homeostasis at the NMJ. In myasthenic rats, selective inhibition of AChE is more effective in rescuing muscle function than the simultaneous inhibition of AChE and BChE because the concomitant inhibition of BChE counteracts the positive action of AChE inhibition. These results show that inhibition of BChE should be avoided during the treatment of myasthenia and the pharmacological reversal of residual curarization after anesthesia.

Use of inclusion complex of cyclodextrin with ambenonium to improve the treatment of anticholinesterase poisoning.

The complex of ambenonium with methyl-ß-cyclodextrin injected intramuscularly to rats caused more pronounced inhibition of acetylcholinesterase in erythrocyte and brain than free drug. The use of this complex as part of combined therapy significantly reduces mortality in animals during experimental anticholinesterase poisoning in comparison with the controls.

Long-term nicotine treatment down-regulates α6ß2* nicotinic receptor expression and function in nucleus accumbens.

Long-term nicotine exposure induces alterations in dopamine transmission in nucleus accumbens that sustain the reinforcing effects of smoking. One approach to understand the adaptive changes that arise involves measurement of endogenous dopamine release using voltammetry. We therefore treated rats for 2-3 months with nicotine and examined alterations in nAChR subtype expression and electrically evoked dopamine release in rat nucleus accumbens shell, a region key in addiction. Long-term nicotine treatment selectively decreased stimulated α6ß2* nAChR-mediated dopamine release compared with vehicle-treated rats. It also reduced α6ß2* nAChRs, suggesting the receptor decline may contribute to the functional loss. This decreased response in release after chronic nicotine treatment was still partially sensitive to the agonist nicotine. Studies with an acetylcholinesterase inhibitor demonstrated that the response was also sensitive to increased endogenous acetylcholine. However, unlike the agonists, nAChR antagonists decreased dopamine release only in vehicle- but not nicotine-treated rats. As antagonists function by blocking the action of acetylcholine, their ineffectiveness suggests that reduced acetylcholine levels partly underlie the dampened α6ß2* nAChR-mediated function in nicotine-treated rats. As long-term nicotine modifies dopamine release by decreasing α6ß2* nAChRs and their function, these data suggest that interventions that target this subtype may be useful for treating nicotine dependence. Long-term nicotine treatment decreases dopamine (DA) transmission in the mesolimbic dopaminergic system. Our data suggest this may involve a decrease in α6ß2* nicotinic receptor expression and function. These changes may play a key role in nicotine reward and dependence.

Preparation, in vitro screening and molecular modelling of symmetrical bis-quinolinium cholinesterase inhibitors--implications for early myasthenia gravis treatment.

This paper describes the preparation and in vitro evaluation of 18 newly prepared bis-quinolinium inhibitors on human recombinant acetylcholinesterase (AChE) and human plasmatic butyrylcholinesterase (BChE). Their inhibitory (IC(50)) and was compared to the chosen standards ambenonium dichloride, edrophonium chloride, BW284c51 and ethopropazine hydrochloride. One novel compound was found to be a promising inhibitor of hAChE (in nM range) and was better than edrophonium chloride or BW284c51, but was worse than ambenonium chloride. This compound also showed selectivity towards hAChE and it was confirmed as a non-competitive inhibitor of hAChE by kinetic analysis. A molecular modelling study further confirmed its binding to the peripheral active site of hAChE via apparent π-π or π-cationic interactions.

Preoperative steroid therapy stabilizes postoperative respiratory conditions in myasthenia gravis.

OBJECTIVE: We reviewed our experience from 1990 to 2005 to examine whether control of myasthenia gravis (MG) with steroid therapy before surgery could stabilize postoperative respiratory conditions, compared with the nonsteroid treatment. METHODS: Records of 43 consecutive patients with MG who underwent extended thymectomy at Kansai Medical University Hospital were retrospectively reviewed. Two groups, a steroid group (n = 28) and a nonsteroid group (n = 15) were compared. RESULTS: In the steroid group, steroid doses ranged from 10 to 100 mg every other day, or 40-60 mg daily. The patients showed significantly less thymus hyperplasia in the pathological findings (P = 0.023). Whereas 3 of 28 (7%) in the steroid group suffered respiratory insufficiency within 3 days of surgery, 5 of 15 (33%) in the nonsteroid group exhibited the same problem (P = 0.030). Univariate analysis showed that steroid treatment was the only significant factor (P = 0.041) affecting respiratory insufficiency. Patients in the steroid group achieved palliation of MG more quickly after surgery than patients in the nonsteroid group (86% vs. 57% within 6 months, P = 0.059; 84% vs. 42% within 1 year, P = 0.042). CONCLUSION: The control of myasthenia gravis with steroid therapy before surgery seems to stabilize postoperative respiratory status without having adverse effects on surgical infection.

Concurrence of non-myasthenic symptoms with myasthenia gravis.

Myasthenia gravis (MG) is a disease that is known to be accompanied by various complications. But the relationship between these complications and MG and the treatment for these complications still partly remain unknown. We report two cases of MG with unusual complications. The first one is a case of a 72-year-old woman with lingual dyskinesia, and the second is a 28-year-old man with dysgeusia. Both symptoms improved in parallel after the treatment of MG. Here we report these cases and review similar cases in the literature.

Similarities between CSF-brain extracellular transfer and neurofibrillary tangle invasion in Alzheimer's disease.

Using the in vivo enzyme protection-enzyme inhibition method, we visualized the distribution of the intraventricularly and cisternally (cisterna magna) injected ambenonium chloride (Am) bound reversibly to the extracellular acetylcholinesterase enzyme (AChE) in the rabbit brain in order to describe the extracellular flow pathways from the cerebrospinal fluid (CSF). We found that the distribution of Am-protected AChE (indicating the Am itself) is similar to tracers having no intracerebral binding sites. The topographical distribution after both ways of application indicates a preferential penetration of Am into the limbic structures of the cerebral hemispheres in a predictable topographic sequence starting from the corticoid areas, allo- and periallo cortices followed by the mesocortical regions and then, in a limited extent, to the isocortex. The lentiform nuclei and the central part of diencephalic halves are inaccessible to Am. The hierarchic order in the sequence of diffusion from the CSF into the hemispheric subpial regions and the distribution pattern of Am resemble the stereotypic topographic expansion pattern and the predominantly limbic distribution of neurofibrillary tangles (NFTs) in Alzheimer's disease and related conditions.

Design, synthesis and biological evaluation of ambenonium derivatives as AChE inhibitors.

Ambenonium (1), an old AChE inhibitor, is endowed with an outstanding affinity and a peculiar mechanism of action that, taken together, make it a very promising pharmacological tool for the treatment of Alzheimer's disease (AD). Unfortunately, the bisquaternary structure of 1 prevents its passage through the blood brain barrier. In a search of centrally active ambenonium derivatives, we planned to synthesize tertiary amines of 1, such as 2 and 3. In addition, to add new insights into the binding mechanism of the inhibitor, we designed constrained analogues of ambenonium by incorporating the diamine functions into cyclic moieties (4-12). The biological evaluation of the new compounds has been assessed in vitro against human AChE and BChE. All tertiary amine derivatives resulted more than 1000-fold less potent than 1 and, unlike prototype, did not show any selectivity between the two enzymes. This result, because of recent findings concerning the role of BChE in AD, makes our compounds, endowed with a well-balanced profile of AChE/BChE inhibition, valuable candidates for further development. To better clarify the interactions that account for the high affinity of 1, docking simulations and molecular dynamics studies on the AChE-1 complex were also carried out.

Thyroid gland tumour, pemphigus foliaceus and myasthenia gravis in the daughter of a woman with myasthenia gravis.

We describe a rare case of pemphigus foliaceus associated with familial myasthenia gravis (MG). A 35-year-old woman developed MG during oral corticosteroid treatment for pemphigus foliaceus. She had been operated on for a thyroid gland tumour that was confirmed histopathologically to be papillary carcinoma without metastasis. At the time of treatment, her mother had had MG for 30 years and undergone thymectomy 22 years ago. A specific ELISA technique showed that antidesmoglein 1 antibody was present in the daughter. There are many reports of multiple diseases such as pemphigus, thymoma, malignancy, and other autoimmune diseases associated with MG. However, familial MG following pemphigus foliaceus has not been reported previously.

Reversible and irreversible acetylcholinesterase inhibitors cause changes in neuronal amyloid precursor protein processing and protein kinase C level in vitro.

The alternative routes of cleavage of the amyloid precursor protein (APP) result in the generation and secretion of both soluble APP and beta-amyloid, the latter being the main component of the amyloid deposits in the brains of individuals with Alzheimer's disease (AD). This study examined the question of whether acetylcholinesterase (AChE) inhibitors can alter the processing of APP and the level of protein kinase C (PKC) in primary rat basal forebrain cultures. Western blotting was used to test two AChE inhibitors (reversible and irreversible) for their ability to enhance the release of APP and PKC content. These inhibitors were ambenonium (AMB) and metrifonate (MTF), at different concentrations. A significant increase was found in the cell-associated APP level in a basal forebrain neuronal culture, and there was an elevation of the APP release into the medium. Increases were similarly observed in the PKC levels after AMB or MTF treatment. The results suggest that these AChE inhibitors promote the non-amyloidogenic route of APP processing, which may be due to their stimulatory effects on PKC. The PKC activation may enhance the alpha-secretase activity and consequently the production of the N-terminal APP. Since both a decreased level of APP secretion and a low activity and level of PKC may be involved in the pathogenesis of AD, it is concluded that the administration of AChE inhibitors to AD patients may facilitate the memory processes and exert a neuroprotective effect.

Coronary spastic angina induced by anticholinesterase medication for myasthenia gravis--a case report.

Myasthenia gravis (MG) is characterized by weakness of skeletal muscles because of a decrease in the number of available acetylcholine receptors at neuromuscular junctions. Anticholinesterase medication is widely used to treat MG, but muscarinic side effects sometimes appear and limit the drug usage. To their knowledge, the authors present the first case of coronary spastic angina quite possibly induced by anticholinesterase medication to treat MG. The appearance of coronary spastic angina in the present case is likely mediated through the increase of acethylcholine by anticholinesterase medication.

Pharmacodynamic analysis of contractile potentiation by cholinesterase inhibitors in rats.

Pharmacological profiles of four cholinesterase (ChE) inhibitors: edrophonium, pyridostigmine, neostigmine, and ambenonium after to administration to rats were analyzed. A pharmacodynamic model was developed by considering acetylcholinesterase (AChE) inhibition, direct antagonism to the nicotinic receptor, and desensitization of the nicotinic receptor. Pharmacokinetics of these drugs are dose-independent and have similar volumes of distribution at steady state (0.4-0.6 L/kg various doses). The t1/2 increases in the order of neostigmine, edrophonium, pyridostigmine, and ambenonium. Inhibitory constants of ChE inhibitors to bovine erythrocyte AChE determined in vitro were 2019, 276, 26, and 3.7 nM for edrophonium, pyridostigmine, neostigmine, and ambenonium, respectively. The effect of ChE inhibitor was monitored as the increase of developed tension of triceps muscle induced by sciatic nerve stimulation. The maximum value of contractile tension after i.v. administration decreased at high doses of each drug and the dose-response curves were biphasic. Time courses of plasma concentration and contractile muscle tension were modeled to estimate the association/dissociation rate constants to AChE and the nicotinic receptor, desensitization rate constant of receptor and the dissociation constant of acetylcholine (ACh) to nicotinic receptor/basal acetylcholine level ratio (Kd/ACh0). The estimated Kd/ACh0 values were not dependent on the drug. A significant correlation between inhibitory constants of ChE inhibitors to AChE estimated by in vivo pharmacodynamic analysis and those determined by an in vitro enzyme kinetic study was shown, while the relationship between dissociation constants to nicotinic receptor estimated by in vivo pharmacodynamic analysis and those measured by an in vitro binding study was not clear. Other process such as desensitisization induced by endogenous ACh diffusion rate of drugs into the synaptic cleft, action of presynaptic receptors, etc., might contribute to the dose-effect relationship of ChE inhibitors.

Quaternary nitrogen compounds affect carnitine distribution in rats. Particular emphasis on edrophonium.

Edrophonium (ethyl(m-hydroxyphenyl)dimethylamine) acutely modifies carnitine levels in different rat tissues, increasing hepatic and reducing blood and renal levels. After 2 h edrophonium treatment, the total serum carnitine levels were decreased by 16 (P < 0.001) and 33 (P < 0.001) percent in fed and fasted rats respectively compared to control, and in kidney the levels decreased by 11 (P < 0.05) and 34 (P < 0.001) percent whereas in liver the edrophonium treatment increased the levels by 43 (P < 0.001) and 59 (P < 0.001) percent. The edrophonium action does not depend on the route of administration or on the nutritional state of the animal. Its activity on carnitine levels is neither accompanied by significant variation of serum parameters of carbohydrate, fat and protein metabolism nor of insulin levels. The edrophonium activity is not related to cholinergic action, as physostigmine and ambenonium at concentrations known to increase cholinergic activity do not modify carnitine distribution in tissues. Trimethylphenylammonium (TPA) and trimethyl(p-aminophenyl)ammonium (TPA.NH2), compounds structurally similar to edrophonium, are on the contrary active on levels of carnitine and this effect is not related to their cholinergic potency. In 24 h fasted rats after the TPA and TPA. NH2 treatment, the total serum carnitine levels were decreased by 32 (P < 0.001) and 13 (n.s.) percent respectively compared to control, and in kidney the levels decreased by 15 (P < 0.02) and 5 (n.s.) percent, whereas in liver the treatment increased the levels by 72 (P < 0.001) and 45 (P < 0.01) percent. Moreover atropine, an acetylcholine antagonist, affects carnitine distribution in a way similar to edrophonium. Edrophonium activity on carnitine distribution, probably affects (inter)cellular carnitine transport by direct action on plasma membrane. Effect on capillary endothelium may be responsible for its observed action on muscle contraction force in imminent ischemia.

Comparative pharmacokinetics of four cholinesterase inhibitors in rats.

Pharmacokinetics of a very short-acting, a short-acting and two long-acting cholinesterase (ChE) inhibitors, edrophonium, neostigmine, pyridostigmine and ambenonium, respectively, were compared to elucidate the major determinant of their pharmacokinetics. No dose-dependency in pharmacokinetic behavior was observed within the range of 2-10 mumol/kg for edrophonium, 0.5-2 mumol/kg for pyridostigmine, 0.1-0.5 mumol/kg for neostigmine and 0.3-3 mumol/kg for ambenonium, respectively. Neostigmine has the shortest elimination half-life, and edrophonium, pyridostigmine and ambenonium follow in that. Four ChE inhibitors have similar Vdss values within the range of 0.3-0.7 l/kg, which is similar to the muscle/plasma concentration ratio of these drugs. The liver or kidney to plasma concentration ratio of all ChE inhibitors at 20min after i.v. administration ranged from 5 to 15. Small distribution volumes estimated from the plasma concentration profiles may reflect the distribution to muscle and to the extracellular space of other organs/tissues, while the rapid disappearance of ChE inhibitors from plasma may reflect the concentrative uptake to the liver and kidney.