Amphetamines nervous system

Research for an antidepressant among non-tricyclic compounds with pharmacological effects qualitatively different from those of the conventional tricyclic compounds led to the preparation and testing of a series of indazole derivatives for reserpine-like activity in mice. l-[3-(Dimethylamino)propyl]-5-methyl-3-phenyl-l//-indazole (FS-32 692) antagonizes reserpine-induced effects and potentiates amphetamine-induced self-stimulation and l-Dopa-induced increase in motor activity. FS-32 produces an anticholinergic action mainly on the central nervous System, while the action of imipramine occurs centrally as well as peripherally (79AF511). 

Amines can be synthesized in a single step by treatment of an aldehyde or ketone with ammonia or an amine in the presence of a reducing agent, a process called reductive amination. For example, amphetamine, a central nervous system stimulant, is prepared commercially by reductive amination of phenyl-2-propanone with ammonia, using hydrogen gas over a nickel catalyst as the reducing agent. 

Cyclopentamine is an amphetamine-like central nervous system stimulant. Propose a synthesis of cyclopentamine from materials of five carbons or less. 

Amphetamine and related compounds are indirect acting sympathomimetic agents that are frequently abused due to their stimulant properties on the central nervous system. Amphetamines act by inducing the... 

Berry MD (2004) Mammalian central nervous system trace amines. Pharmacologic amphetamines, physiologic neuromodulators. J Neurochem 90 257—271... 

The various stimulants have no obvious chemical relationships and do not share primary neurochemical effects, despite their similar behavioral effects. Cocaines chemical strucmre does not resemble that of caffeine, nicotine, or amphetamine. Cocaine binds to the dopamine reuptake transporter in the central nervous system, effectively inhibiting dopamine reuptake. It has similar effects on the transporters that mediate norepinephrine and serotonin reuptake. As discussed later in this chapter in the section on neurochemical actions mediating stimulant reward, dopamine is very important in the reward system of the brain the increase of dopamine associated with use of cocaine probably accounts for the high dependence potential of the drug. 

Maletzky, B.M. ( -Amphetamine and delinquency Hyperkinesis persisting Dis Nervous System 35 543-547, 1974. 

Characteristics of [ H](+)amphetamine binding sites in the rat central nervous system. Life Sci 34 771-782, 1984. 

Effects of Amphetamine Analogs on Central Nervous System Neuropeptide Systems... 

Isolated seizures that are not epilepsy can be caused by stroke, central nervous system trauma, central nervous system infections, metabolic disturbances (e.g., hyponatremia and hypoglycemia), and hypoxia. If these underlying causes of seizures are not corrected, they may lead to the development of recurrent seizures I or epilepsy. Medications can also cause seizures. Some drugs that are commonly associated with seizures include tramadol, bupropion, theophylline, some antidepressants, some antipsy-chotics, amphetamines, cocaine, imipenem, lithium, excessive doses of penicillins or cephalosporins, and sympathomimetics or stimulants. 

This sympathomimetic amine exudes similar pharmacologic activity as the amphetamines, resulting in central nervous system stimulation and appetite suppression. This drug is indicated for short-term use in conjunction with a reduced-calorie diet and exercise in obese patients with a BMI of 30 kg/m2 or greater following failed attempts of diet and exercise alone.40... 

BZ is usually disseminated as an aerosol with the primary route of entry into the body through the respiratory system the secondary route is through the digestive tract. BZ blocks the action of acetylcholine in both the peripheral and central nervous systems. As such, it lessens the degree and extent of the transmission of impulses from one nerve fiber to another through their connecting synaptic junctions. It stimulates the action of noradrenaline (norepinephrine) in the brain, much as do amphetamines and cocaine. Thus, it may induce vivid hallucinations as it sedates the victim. Toxic delirium is very common. 

Rothman, R.B., Baumann, M.H., Dersch, C.M. et al. Amphetamine-type central nervous system stimulants release norepinephrine more potently than they release dopamine and serotonin. Synapse. 39 32, 2001. 

Ephedra, also known as Ma-Huang, is a central nervous system stimulant that is similar to amphetamine. Ephedra alkaloids (a material found in plants) with the active ingredient ephedrine have been used for medicinal purposes in China for... 

Cyberpunk science fiction drizzles in coercive pharmacotherapy. In the quintessential cyberpunk novel, Neuromancer ] 984) an addiction" to cyberspace becomes the target not of government, but corporate retributive malice. The protagonist has his delicate nervous system damaged with the forced application of a Russian mycotoxin to punish him for data thievery. As a condition of employment, his pancreas is replaced and his liver is blocked so that he cannot experience the effects of amphetamines. 

Although this drug is categorized as a local anesthetic, I have chosen to put it in with the hallucinogens because of the psychotomimetic effects that it produces. Cocaine is not a phenylethyl-amine, but it produces central nervous system arousal or stimulant effects which closely resemble those of the amphetamines, the methylenedioxyamphetamines in particular. This is due to the inhibition by cocaine of re-uptake of the norepinephrine released by the adrenergic nerve terminals, leading to an enhanced adrenergic stimulation of norepinephrine receptors. The increased... 

The quantity of amphetamines competent for medicinal use is seriously limited, and their synthesis and properties will be examined in detail in Chapter 8, Central Nervous System Stimulants. ... 

Adrenomimetic drugs with no substitutions on their benzene ring (e.g., amphetamine and ephedrine) are generally quite lipid soluble, readily cross the blood-brain barrier, and can cause central nervous system (CNS) stimulation. 

There is good evidence that the facilitation of peripheral sympathetic nervous system transmission prcxluced by the amphetamines also occurs in the CNS.The possibihty that amphetamines act indirectly (i.e., by releasing monoamines) at monoaminergic synapses in the brain and spinal cord seems likely. However, amphetamine has effects beyond displacement of catecholamines these include inhibition of neuronal amine uptake, direct stimulation of dopamine and serotonin receptors, antagonism of catecholamine action at certain subtypes of adrenoceptors, and inhibition of monoamine oxidase. Interestingly, none of these actions explains the therapeutic benefit of the amphetamines in hyperkinetic children. 

Mecfianism of Action A phenylalkylamine sympathomimetic with activity similar to amphetamines that stimulates the central nervous system (CNS) and elevates blood pressure (BP) most likely mediated via norepinephrine and dopamine metabolism. Causes stimulation of the hypothalamus. Therapeutic Effect Decreases appetite. Pharmacokinetics The pharmacokinetics of phendimetrazine tartrate has not been well established. Metabolized to active metabolite, phendimetrazine. Excreted in urine. Half-life 2-4 hr. 

Despite the documented efficacy and safety of the psychostimulants, their mechanism of action is not fully understood. Stimulants affect central nervous system (CNS) dopamine (DA) and norepinephrine (NE) pathways crucial in frontal lobe function. The stimulants act by causing release of catecholamines from the DA axons and blocking their reuptake. Methylphenidate releases catecholamines from long-term stores, so its effects can be blocked by pretreatment with reserpine. Amphetamines, on the other hand, release catecholamines from recently formed storage granules near the surface of the presynaptic neuron, so their action is not blocked by reserpine. In addition, the stimulants bind to the DA transporter in striatum (see Figures 2.6 and 2.7) and block the reuptake of both DA and NE. This action reduces the rate that catecholamines are removed from the synapse back into the axon and leads... 

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