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Cocaine dependence mechanisms

Somoza EC, Winhusen TM, Bridge TP, et al An open-label pilot study of methylpheni-date in the treatment of cocaine-dependent patients with adult attention deficit/ hyperactivity disorder. J Addict Dis 23 77—92, 2004 Sora 1, Wichems C, Takahashi N, et al Cocaine reward models conditioned place preference can be established in dopamine- and in serotonin-transporter knockout mice. Proc Natl Acad Sci U S A 95 7699-7704, 1998 Soral, Hall FS, Andrews AM, etal Molecular mechanisms of cocaine reward combined dopamine and serotonin transporter knockouts eliminate cocaine place preference. Proc Nad Acad Sci U S A 98 5300-5305, 2001 Spear J, Alderton D Psychosis associated with prescribed dexamphetamine use 0etter). [Pg.208]

There are no proven pharmacotherapies for treatment of cocaine or amphetamine dependence. Disulfiram, however, shows some promise in randomized controlled trials for treating cocaine dependence at doses of 250 mg daily, especially in combination with CBT.45 Its mechanism of action for treating cocaine dependence is not known, but may be due to its inhibition of the dopamine P-hydroxylase enzyme that converts DA to NE in the brain. The resulting increase in DA levels may counter the DA-deficient state that is believed to underlie cocaine withdrawal and craving. [Pg.545]

Saunders C, Ferrer JV, Shi L, Chen J, Merrill G, et al. 2000. Amphetamine-induced loss of human dopamine transporter activity an internalization-dependent and cocaine-sensitive mechanism. Proc. Natl. Acad. Sci. USA 97 6850-55... [Pg.542]

The development of effective pharmacotherapy has lagged behind progress in understanding the reward mechanisms and chronic impairments underlying stimulant abuse. Pharmacological and behavioral treatment approaches that have been used for cocaine abuse have not been as widely tested for the treatment of amphetamine abuse, limiting what can be offered for treatment of this disorder. No treatment agents are approved by the FDA for treatment of cocaine or amphetamine dependence. [Pg.193]

Similarly, self-administration of MDMA in monkeys trained to self-administer amphetamine (Kamien et al. 1986) or in monkeys or baboons trained to self-administer cocaine (Beardsley et al. 1986 Lamb and Griffiths 1987) probably reflects a dopaminergic component to the pharmacology of MDMA. This would be consistent with current theories of dopamine involvement in the mechanism of action of drugs with dependence liability (Wise and Bozarth 1987). [Pg.10]

Upregulation of the cAMP pathway may be a common mechanism by which a number of neuronal cell types respond to chronic opiates and develop tolerance and dependence (see Ch. 56). There is also evidence that similar mechanisms involving alterations in the cAMP second-messenger and protein phosphorylation pathway may mediate aspects of addiction to other types of drugs of abuse, for example, cocaine and alcohol [66],... [Pg.411]

Balfour DJ. (1994). Neural mechanisms underlying nicotine dependence. Addiction. 89(11) 1419-23. Bolla KI, Cadet JL, London ED. (1998). The neuropsychiatry of chronic cocaine abuse. J Neuropsychiatry Clin Neurosci. 10(3) 280-89. [Pg.571]

Dopamine is removed from the synapse via two mechanisms. First, COMT degrades intrasynaptic DA. Second, the dopamine transporter (DAT) [see (4) in Fig. 2.9], a Na /CD-dependent neurotransmitter transporter, transports DA in either direction, depending on the concentration gradient. The DAT is blocked selectively by drugs such as cocaine, amphetamine, bupropion, and nomifensine. [Pg.31]

The action of norepinephrine is terminated by reuptake mechanisms, two of which have been identified. Biogenic amine Uptake 1 is located in the presynaptic membrane, requires energy for the transport, is sodium and temperature dependent, and is inhibited by ouabain (a cardiac glycoside), cocaine (a local anesthetic), and imipramine (an antidepressant). Biogenic amine Uptake 2 is located extraneuronally in various smooth muscles and glands, requires energy, and is temperature dependent. Approximately 20% of the amine is either taken up by the Uptake 2 mechanism or is metabolized. [Pg.519]

Although cocaine can function as a local anesthetic, most of its actions relate to a second mechanism. Cocaine increases synaptic concentrations of catecholamines (i.e., dopamine and norepinephrine) in the brain by blocking their reuptake mechanisms. Normally, when these transmitters are released from nerve terminals, they are rapidly removed from the synaptic cleft by specific energy-dependent transporter proteins that carry them back into the terminal. By blocking these transporter systems, cocaine prolongs the time the catecholamines remain in the synapse and intensifies their actions. This increase in dopamine concentration in the CNS appears to be the basis for the various euphoric and related changes that occur in people who use cocaine. A similar mechanism has been suggested for methamphetamine. [Pg.201]

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