Reuptake Transporter

Reuptake transporters are structures within the cell membranes of the presynaptic nerve terminal that serve to transport biogenic amines released from vesicles back into the nerve cell. These structures are targets for antidepressants, which block the transporter, thus increasing the bioavailability of neurotransmitters at postsynaptic receptors. 

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. 

After more than a decade of use, bupropion (24) is considered a safe and effective antidepressant, suitable for use as first-line treatment. In addition, it is approved for smoking cessation and seasonal affective disorder. It is also prescribed off-label to treat the sexual dysfunction induced by SSRIs. Bupropion is often referred to as an atypical antidepressant and has much lower affinity for the monoamine transporters compared with other monoamine reuptake inhibitors. The mechanism of action of bupropion is still uncertain but may be related to inhibition of dopamine and norepinephrine reuptake transporters as a result of active metabolites [71,72]. In a recently reported clinical trial, bupropion extended release (XL) had a sexual tolerability profile significantly better than that of escitalopram with similar re-... 

In an attempt to explain the reason for the delay in the onset of the therapeutic effect of antidepressants, which is clearly unrelated to the acute actions of these drugs on monoamine reuptake transporters or intracellular metabolizing enzymes, emphasis has moved away from the presynaptic mechanism governing the release of the monoamine transmitters to the adaptive changes that occur in pre- and postsynaptic receptors that govern the physiological expression of neurotransmitter function. 

Atomoxetine (Straterra , originally tomoxetine or tomoxetin, 3) was first described and synthesized by chemists at Eli Lilly in the late 1970s and was one of the few compounds that was known to display meaningful selectivity for the norepinephrine reuptake transporter (NET) versus the serotonin reuptake transporter (SERT) and the dopamine reuptake transporter (DAT) (Barnett, 1986 Molloy and Schmiegel, 1997). Atomoxetine was one of several structurally related and commercially successful monoamine reuptake inhibitors that were developed by Lilly for the treatment of various psychiatric disorders (Eig. 17.4). Fluoxetine (43) and duloxetine (44) have both gained approval in the United States as Prozac and Cymbalta , respectively, and nisoxetine (45) is widely used as a tool in biology. 

These drugs increase synaptic serotonin by selectively blocking the serotonin reuptake transporter. In preclinical and human studies acute doses tend to be anxiogenic (Bell and Nutt 1998) but chronic administration has anxiolytic effects, possibly due to downregulation of presynaptic autoreceptors (Blier et al. 1990). There are five SSRIs widely available citalopram, fluoxetine, fluvoxam-ine, paroxetine and sertraline. Escitalopram, the S-enantiomer of citalopram. 

Ranganathan R., E.R. Sawin, C. Trent, and H.R. Horvitz (2001). Mutation in the Caenahab-ditis elegans serotonin reuptake transporter MOD-5 reveal serotonin-dependent and independent activities of fluoxatine. Journal of Neuroscience 21 5871-5884. 

Membrane-bound reuptake transporters pump the released neurotransmitter back into the cell (Amara, 1995 Tester et ah, 1996). 

Atomoxetine is a selective inhibitor of norepinephrine presynaptic reuptake transporters that has been shown to increase extracellular norepinephrine and dopamine concentrations in the prefrontal cortex in rats (Bymaster et al. 2002), which may account for its clinical efficacy in the treatment of ADHD symptomatology. However, atomoxetine does not appear to affect dopamine levels in the striatum or nucleus accumbens and consequently is not thought to carry the abuse potential associated with stimulant medications. 

MDR1, multidrug resistance protein-1 MRP1, multidrug resistance-associated protein 1 NET, norepinephrine transporter SERT, serotonin reuptake transporter VMAT, vesicular monoamine transporter. 

Atomoxetine is a selective inhibitor of the norepinephrine reuptake transporter. Its actions, therefore, are mediated by potentiation of norepinephrine levels in noradrenergic synapses. It is used in the treatment of attention deficit disorders (see below). Atomoxetine has surprisingly little cardiovascular effect because it has a clonidine-like effect in the central nervous system to decrease sympathetic outflow while at the same time potentiating the effects of norepinephrine in the periphery. However, it may increase blood pressure in some patients. Norepinephrine reuptake is particularly important in the heart, particularly during sympathetic stimulation, and this... 

NET, norepinephrine reuptake transporter SERT, serotonin reuptake transporter. ... 

CNS, central nervous system GI, gastrointestinal SERT, serotonin reuptake transporter NET norepinephrine reuptake transporter CB, cannabinoid tid, three times daily qd, daily. 

However, among the many possibilities that present themselves, compounds that directly block the DA reuptake transporter but that have a much slower onset of action and much longer duration of action seem plausible candidates, by analogy to cocaine s action as a DA reuptake transporter or carrier blocker. My colleagues and I hypothesize that slower onset and longer duration of action are critical features of such... 

FIGURE 2—21. The neurotransmitter reuptake transporter can bind neurotransmitter molecules at specific binding sites. Here the neurotransmitter is bound to transporter sites, ready for a trip inside the neuron. It is now binding the neurotransmitter serotonin (SHT) because it has found sodium ions, which have increased its affinity for serotonin, resulting in the tires being pumped up and full of air, ready for transport. 

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