Scopolamine Hydrobromide
Ethylamines
Kidney Papillary Necrosis
Muscarinic Antagonists
Levorphanol
Guaifenesin
Dextromethorphan
beta-Aminoethyl Isothiourea
S-16924, a novel, potential antipsychotic with marked serotonin1A agonist properties. IV. A drug discrimination comparison with clozapine. (1/602)
The novel benzodioxopyrrolidine (S-16924) displays a clozapine-like profile of interaction with multiple monoaminergic receptors, in addition to potent agonist activity at serotonin (5-HT)1A receptors. S-16924 (2.5 mg/kg i.p.) and clozapine (5.0 mg/kg i.p.) generated robust discriminative stimuli (DS) and displayed full mutual generalization. The D4 antagonists L-745,870 and S-18126, the D1/D5 antagonist SCH-39166, and the D3 antagonist S-14297 showed at most partial generalization to S-16924 and clozapine. The D2/D3 antagonist raclopride fully generalized to S-16924, but only partially generalized to clozapine. The 5-HT2A antagonist MDL-100, 907 fully generalized to S-16924 and two further 5-HT2A antagonists, fananserin and SR-46349, showed partial generalization. However, MDL-100,907, fananserin, and SR-46349 showed less pronounced generalization to clozapine. Similarly, the 5-HT2C antagonists SB-200,646 and SB-206,553 more markedly generalized to S-16924 than to clozapine. The 5-HT1A receptor agonist (+/-)-8-dihydroxy-2-(di-n-propylamino) tetralin generalized fully to S-16924 but not to clozapine. Full generalization was obtained to both S-16924 and clozapine for the clozapine congeners, olanzapine and quetiapine. In distinction, the benzisoxazole, risperidone, and the phenylindole, sertindole, weakly generalized to S-16924 and clozapine. However, the benzisoxazole ziprasidone, which possesses 5-HT1A agonist properties, generalized fully to S-16924 but not to clozapine. Finally, the muscarinic antagonist scopolamine generalized fully to clozapine and partially to S-16924. In conclusion, S-16924 and clozapine display both communalities and differences in their "compound" DS; this likely reflects their respective complex patterns of interaction with multiple monoaminergic receptors. Although no specific receptor was identified as underlying the clozapine DS, 5-HT1A agonist as well as D2 and 5-HT2A/2C antagonist properties contribute to the S-16924 DS. (+info)Roles of threonine 192 and asparagine 382 in agonist and antagonist interactions with M1 muscarinic receptors. (2/602)
Conserved amino acids, such as Thr in transmembrane domains (TM) V and Asn in TM VI of muscarinic receptors, may be important in agonist binding and/or receptor activation. In order to determine the functional roles of Thr192 and Asn382 in human M1 receptors in ligand binding and receptor activation processes, we created and characterized mutant receptors with Thr192 or Asn382 substituted by Ala. HM1 wild-type (WT) and mutant receptors [HM1(Thr192Ala) and HM1(Asn382Ala)] were stably expressed in A9 L cells. The Kd values for 3H-(R)-QNB and Ki values for other classical muscarinic antagonists were similar at HM1(WT) and HM1(Thr192Ala) mutant receptors, yet higher at HM1(Asn382Ala) mutant receptors. Carbachol exhibited lower potency and efficacy in stimulating PI hydrolysis via HM1(Thr192Ala) mutant receptors, and intermediate agonist activity at the HM1(Asn382Ala) mutant receptors. The Asn382 residue in TM VI but not the Thr192 residue in TM V of the human M1 receptor appears to participate directly in antagonist binding. Both Thr192 and Asn382 residues are involved differentially in agonist binding and/or receptor activation processes, yet the Asn382 residue is less important than Thr192 in agonist activation of M1 receptors. Molecular modelling studies indicate that substitution of Thr192 or Asn382 results in the loss of hydrogen-bond interactions and changes in the agonist binding mode associated with an increase in hydrophobic interactions between ligand and receptor. (+info)Cholinergic and GABAergic regulation of nitric oxide synthesis in the guinea pig ileum. (3/602)
Nitric oxide (NO) synthesis was examined in intact longitudinal muscle-myenteric plexus preparations of the guinea pig ileum by determining the formation of [3H]citrulline during incubation with [3H]arginine. Spontaneous [3H]citrulline production after 30 min was 80-90 dpm/mg, which constituted approximately 1% of the tissue radioactivity. Electrical stimulation (10 Hz) led to a threefold increase in [3H]citrulline formation. Removal of calcium from the medium or addition of NG-nitro-L-arginine strongly inhibited both spontaneous and electrically induced production of [3H]citrulline. TTX reduced the electrically induced but not spontaneous [3H]citrulline formation. The electrically induced formation of [3H]citrulline was diminished by (+)-tubocurarine and mecamylamine and enhanced by scopolamine, which suggests that endogenous ACh inhibits, via muscarinic receptors, and stimulates, via nicotinic receptors, the NO synthesis in the myenteric plexus. The GABAA receptor agonist muscimol and GABA also reduced the electrically evoked formation of [3H]citrulline, whereas baclofen was without effect. Bicuculline antagonized the inhibitory effect of GABA. It is concluded that nitrergic myenteric neurons are equipped with GABAA receptors, which mediate inhibition of NO synthesis. (+info)Investigation of stretching behaviour induced by the selective 5-HT6 receptor antagonist, Ro 04-6790, in rats. (4/602)
1. The present study examined the effects of the selective 5-HT6 receptor antagonist 4-amino-N-(2, 6 bis-methylamino-pyrimidin-4-yl)-benzene sulphonamide (Ro 04-6790) on locomotor activity and unconditioned behaviour in male Sprague Dawley rats (230-300 g). 2. In non-quantified behavioural observations, animals treated with Ro 04-6790 (3, 10 or 30 mg kg(-1), i.p) showed no overt behavioural signs except a dose-dependent reduction in locomotor activity and a behavioural syndrome of stretching, yawning and chewing. The latter behaviour was most pronounced between 30 and 90 min following the administration of Ro 04-6790. 3. Detailed analysis of the stretching and yawning behaviour showed that Ro 04-6790 (3, 10 or 30 mg kg(-1), i.p.) dose-dependently induced stretching. The number of stretches observed following treatment with either Ro 04-6790 (10 mg kg(-1) i.p.) or Ro-04-6790 (30 mg kg(-1), i.p.) was significantly greater than that observed in saline-treated rats. The yawning behaviour, however, was not dose-dependent nor was the number of yawns in any of the drug treated groups significantly greater than in those treated with saline. 4. Pretreatment (30 min) with the non-selective muscarinic antagonists scopolamine (0.1, 0.3 or 1 mg kg(-1), i.p.) and atropine (0.3, 1 or 3 mg kg(-1), s.c.) but not methylatropine (1, 3 or 10 mg kg(-1), s.c) significantly inhibited stretching induced by Ro 04-6790 (30 mg kg(-1), i.p.). 5. The dopamine D2-like receptor antagonist, haloperidol (0.03, 0.1 or 0.3 mg kg(-1), s.c.) given at the same time as Ro 04-6790 (30 mg kg(-1), i.p.) had no effect on the stretching induced by the 5-HT6 antagonist. 6. These data suggest that systemic injection of the 5-HT6 antagonist, Ro 04-6790, produces a stretching behaviour that appears to be mediated by an increase in cholinergic neurotransmission in the CNS and which could be a useful functional correlate for 5-HT6 receptor blockade. There is no evidence for dopamine D2-like receptor involvement in this behaviour. (+info)Electrical stimulation of the horizontal limb of the diagonal band of broca modulates population EPSPs in piriform cortex. (5/602)
Electrical stimulation of the horizontal limb of the diagonal band of Broca (HDB) was coupled with recording of evoked potentials in the piriform cortex. Stimulation of the HDB caused an enhancement of the late, disynaptic component of the evoked potential elicited by stimulation of the lateral olfactory tract but caused a suppression of the synaptic potential elicited by stimulation of the posterior piriform cortex. The muscarinic antagonist scopolamine blocked both effects of HDB stimulation. The enhancement of disynaptic potentials could be due to cholinergic depolarization of pyramidal cells, whereas the suppression of potentials evoked by posterior piriform stimulation could be due to presynaptic inhibition of intrinsic fiber synaptic transmission by acetylcholine. (+info)Belladonna alkaloids-induced behavioral changes and amnesia on open-field and step-through in 18-, 28-, and 38-day-old mice. (6/602)
AIM: To study the age-related changes of atropine (Atr), scopolamine (Sco), anisodine (AT3), and anisodamine (Ani) on behaviors and memories. METHODS: The behaviors and memories were measured with open-field test and step-through task. M-cholinergic receptors were determined by [3H] quinuclidinyl benzilate ([3H] QNB). RESULTS: During acquisition session (d 1) the 18-, 28-, and 38-d-old mice pretreated with Atr, Sco, and AT3 (0.02, 0.2, 2, or 20 mg.kg-1, i.p.) in open-field test showed increase in walking counts by 26%-42%, but decrease in rearing, grooming, and defecating counts for 50%-92%, 67%-100%, and 75%-100%, respectively. On recall session (d 2) the walking and rearing behaviors in the 18- and 28-d-old mice receiving Atr, Sco, and AT3 on d 1 were higher than those in the mice receiving saline. But a lower grooming behavior on d 2 was found in the mice receiving the drugs on d 1. On d 1 Ani 20 mg.kg-1 reduced the rearing behavior by 50% in 18-d-old mice and defecation by 33%-36% in 18- and 28-d-old mice. All the 4 belladonna alkaloids increased the number of avoidance-response errors and decreased the retention latencies in step-through task. Bmax of [3H] QNB binding sites in frontal cortex and hippocampus regions in the 38-d-old mice increased 7% and 23% vs in the mice of 18 d of age, respectively. CONCLUSION: 1) The effects of the belladonna alkaloids on behaviors and memories in adult mice were weaker than those in young mice. 2) The belladonna alkaloids-induced amnesia on passive avoidance-response in step-through was more sensitive than behavioral changes and amnesia on open-field. 3) According to the lowest effective doses which insulted the behaviors or memories in young mice, Sco was about 10, 100, and 1000 times more potent than Atr, AT3, and Ani, respectively. (+info)Nociceptin/orphanin FQ and nocistatin on learning and memory impairment induced by scopolamine in mice. (7/602)
1. Nociceptin, also known as orphanin FQ, is an endogenous ligand for the orphan opioid receptor-like receptor 1 (ORL1) and involves in various functions in the central nervous system (CNS). On the other hand, nocistatin is recently isolated from the same precursor as nociceptin and blocks nociceptin-induced allodynia and hyperalgesia. 2. Although ORL1 receptors which display a high degree of sequence homology with classical opioid receptors are abundant in the hippocampus, little is known regarding their role in learning and memory. 3. The present study was designed to investigate whether nociceptin/orphanin FQ and nocistatin could modulate impairment of learning and memory induced by scopolamine, a muscarinic cholinergic receptor antagonist, using spontaneous alternation of Y-maze and step-down type passive avoidance tasks in mice. 4. While nocistatin (0.5-5.0 nmol mouse-1, i.c.v.) administered 30 min before spontaneous alternation performance or the training session of the passive avoidance task, had no effect on spontaneous alternation or passive avoidance behaviours, a lower per cent alternation and shorter median step-down latency in the retention test were obtained in nociceptin (1.5 and/or 5.0 nmol mouse-1, i.c.v.)-treated normal mice. 5. Administration of nocistatin (1.5 and/or 5.0 nmol mouse-1, i.c.v.) 30 min before spontaneous alternation performance or the training session of the passive avoidance task, attenuated the scopolamine-induced impairment of spontaneous alternation and passive avoidance behaviours. 6. These results indicated that nocistatin, a new biologically active peptide, ameliorates impairments of spontaneous alternation and passive avoidance induced by scopolamine, and suggested that these peptides play opposite roles in learning and memory. (+info)Muscarinic receptor agonists, like dopamine receptor antagonist antipsychotics, inhibit conditioned avoidance response in rats. (8/602)
The purpose of our studies was to determine the effects of muscarinic receptor agonists on conditioned avoidance responding in the rat. Rats were trained to avoid or escape an electric shock delivered to the feet in a discrete trial procedure. The muscarinic receptor agonists pilocarpine and [2-ethyl-8-methyl-2,8-diazaspiro(4. 5)decane-1,3-dione] hydrochloride (RS86) and the cholinesterase inhibitor physostigmine all decreased the percentage of avoidance responses at doses that produced less than approximately 30% response failures. Similar results were obtained with the antipsychotic drugs haloperidol, trifluoperazine, chlorpromazine, and clozapine. However, the benzodiazepine anxiolytic diazepam did not decrease avoidance responding up to doses that produced ataxia. On the other hand, oxotremorine and arecoline decreased avoidance responding only by producing response failures, whereas aceclidine produced intermediate changes. The muscarinic receptor antagonists scopolamine, trihexyphenidyl, and benztropine were without effect when administered alone but antagonized the decreases in avoidance responding produced by pilocarpine and RS86. Scopolamine had little effect on the decreases in avoidance responding produced by haloperidol. The newer muscarinic receptor partial agonists or agonist/antagonists [R-(Z)-(+)-alpha-(methoxyimino)-1-azabicyclo[2.2. 2]octane-3-acetonitrile] hydrochloride, talsaclidine, milameline, and xanomeline also produced dose-related decreases in avoidance responding. Our results demonstrate that muscarinic receptor agonists can decrease avoidance responding in a manner similar to dopamine-receptor antipsychotic drugs, suggesting that muscarinic receptor agonists may provide an alternative approach to the treatment of psychosis. (+info)Scopolamine hydrobromide is a synthetic anticholinergic drug, which means it blocks the action of acetylcholine, a neurotransmitter in the nervous system. It is primarily used for its anti-motion sickness and anti-nausea effects. It can also be used to help with symptoms of Parkinson's disease, such as muscle stiffness and tremors.
In medical settings, scopolamine hydrobromide may be administered as a transdermal patch, which is placed behind the ear to allow for slow release into the body over several days. It can also be given as an injection or taken orally in the form of tablets or liquid solutions.
It's important to note that scopolamine hydrobromide can have various side effects, including dry mouth, blurred vision, dizziness, and drowsiness. It may also cause confusion, especially in older adults, and should be used with caution in patients with glaucoma, enlarged prostate, or certain heart conditions.
Ethylamines are organic compounds that contain a primary amino group (-NH2) attached to an ethyl group (-C2H5). In other words, they have the formula R-CH2-CH2-NH2, where R is a carbon-containing group. Ethylamines are derivatives of ammonia (NH3), in which one or more hydrogen atoms have been replaced by an ethyl group.
Ethylamines can be found in various natural and synthetic substances. They are used as building blocks in the synthesis of various pharmaceuticals, agrochemicals, and other industrial chemicals. Some ethylamines also have psychoactive properties and are used as recreational drugs or abused for their mind-altering effects.
It is important to note that some ethylamines can be toxic or harmful to human health, especially at high concentrations or with prolonged exposure. Therefore, they should be handled with care and used only under controlled conditions.
Kidney papillary necrosis is a medical condition characterized by the death (necrosis) of the renal papillae, which are the small conical projections at the ends of the renal tubules in the kidneys. This condition typically occurs due to reduced blood flow to the kidneys or as a result of toxic injury from certain medications, chronic infections, diabetes, sickle cell disease, and systemic vasculitides.
The necrosis of the papillae can lead to the formation of small stones or debris that can obstruct the flow of urine, causing further damage to the kidneys. Symptoms of kidney papillary necrosis may include fever, flank pain, nausea, vomiting, and bloody or foul-smelling urine. The diagnosis is typically made through imaging studies such as CT scans or MRI, and treatment may involve addressing the underlying cause, administering antibiotics to prevent infection, and providing supportive care to maintain kidney function.
Fenoterol is a short-acting β2-adrenergic receptor agonist, which is a type of medication used to treat respiratory conditions such as asthma and chronic obstructive pulmonary disease (COPD). It works by relaxing the muscles in the airways and increasing the flow of air into the lungs, making it easier to breathe.
Fenoterol is available in various forms, including inhalation solution, nebulizer solution, and dry powder inhaler. It is usually used as a rescue medication to relieve sudden symptoms or during an asthma attack. Like other short-acting β2-agonists, fenoterol has a rapid onset of action but its effects may wear off quickly, typically within 4-6 hours.
It is important to note that the use of fenoterol has been associated with an increased risk of severe asthma exacerbations and cardiovascular events, such as irregular heartbeat and high blood pressure. Therefore, it should be used with caution and only under the supervision of a healthcare professional.
Muscarinic antagonists, also known as muscarinic receptor antagonists or parasympatholytics, are a class of drugs that block the action of acetylcholine at muscarinic receptors. Acetylcholine is a neurotransmitter that plays an important role in the parasympathetic nervous system, which helps to regulate various bodily functions such as heart rate, digestion, and respiration.
Muscarinic antagonists work by binding to muscarinic receptors, which are found in various organs throughout the body, including the eyes, lungs, heart, and gastrointestinal tract. By blocking the action of acetylcholine at these receptors, muscarinic antagonists can produce a range of effects depending on the specific receptor subtype that is affected.
For example, muscarinic antagonists may be used to treat conditions such as chronic obstructive pulmonary disease (COPD) and asthma by relaxing the smooth muscle in the airways and reducing bronchoconstriction. They may also be used to treat conditions such as urinary incontinence or overactive bladder by reducing bladder contractions.
Some common muscarinic antagonists include atropine, scopolamine, ipratropium, and tiotropium. It's important to note that these drugs can have significant side effects, including dry mouth, blurred vision, constipation, and confusion, especially when used in high doses or for prolonged periods of time.
Levorphanol is a potent opioid analgesic medication used to treat moderate to severe pain. It is a synthetic compound with a chemical structure similar to that of morphine, but it has more potent analgesic and sedative effects. Levorphanol works by binding to opioid receptors in the brain and spinal cord, which reduces the perception of pain and produces a sense of well-being or euphoria.
Levorphanol is available in oral tablet form and is typically used for short-term pain management in patients who are not able to take other opioid medications or who have developed tolerance to them. It has a long duration of action, with effects lasting up to 24 hours after a single dose.
Like all opioids, levorphanol carries a risk of dependence and addiction, as well as serious side effects such as respiratory depression, sedation, and constipation. It should be used with caution in patients with a history of substance abuse or mental illness, and it is not recommended for use in pregnant women or children.
Guaifenesin is a medication that belongs to the class of expectorants. According to the Medical Dictionary by Farlex, guaifenesin is defined as:
"A salicylate-free agent with expectorant properties; it increases respiratory secretions and decreases their viscosity, making coughs more productive. It is used as an antitussive in bronchitis and other respiratory tract infections."
Guaifenesin works by helping to thin and loosen mucus in the airways, making it easier to cough up and clear the airways of bothersome mucus and phlegm. It is commonly available as an over-the-counter medication for relieving symptoms associated with a common cold, flu, or other respiratory infections.
Guaifenesin can be found in various forms, such as tablets, capsules, liquid, or extended-release products. Common brand names of guaifenesin include Mucinex and Robitussin. It is important to follow the recommended dosage on the product label and consult a healthcare professional if you have any questions about its use or if your symptoms persist for more than one week.
Dextromethorphan is a medication that is commonly used as a cough suppressant in over-the-counter cold and cough remedies. It works by numbing the throat area, which helps to reduce the cough reflex. Dextromethorphan is a synthetic derivative of morphine, but it does not have the same pain-relieving or addictive properties as opioids.
Dextromethorphan is available in various forms, including tablets, capsules, liquids, and lozenges. It is often combined with other medications, such as antihistamines, decongestants, and pain relievers, to provide relief from cold and flu symptoms.
While dextromethorphan is generally considered safe when used as directed, it can have side effects, including dizziness, drowsiness, and stomach upset. In high doses or when taken with certain other medications, dextromethorphan can cause hallucinations, impaired judgment, and other serious side effects. It is important to follow the recommended dosage and to talk to a healthcare provider before taking dextromethorphan if you have any health conditions or are taking other medications.
Beta-Aminoethyl Isothiourea is not a medical term, but a chemical compound. Its systematic name is (betaine) N-(β-aminoethyl)-isothiouronium bromide. It is used in research and pharmaceutical industry as a tool for studying various biochemical processes, particularly related to enzyme inhibition.
It acts as a potent and irreversible inhibitor of several enzymes such as carboxylesterases, cholinesterases, and proteases. It is not used in clinical medicine or approved for human use.