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Images in Neuroscience
Published Online: 1 November 2008

Regulation of Synaptic Connectivity With Chronic Cocaine

In animal models of addiction, repeated exposure to drugs of abuse, such as cocaine, amphetamines, and nicotine, increases the number of dendritic spines ( panel A ) in the nucleus accumbens (NAc), a key brain region involved in reward, pleasure, and motivation. Dendritic spines are the primary anatomical sites of excitatory synapses. Many scientists deem that this long-lasting increase in synaptic connectivity in the NAc may underlie the similarly persistent behaviors of drug taking and drug seeking associated with drug addiction and relapse. Although this concept is appealing, the functional relationship between increased synaptic connectivity in the NAc and addiction-related behaviors is poorly understood. Our recent findings shed some important light on this issue.
Figure 1. A stylized image of a nucleus accumbens medium spiny neuron is illustrated (panel A). Chronic cocaine exposure increases the density of dendritic spines, which are structural sites of excitatory synapses. A model for how chronic cocaine and dopamine D1/5 receptor signaling regulate changes in synaptic connectivity in the striatum is also shown (panel B). Chronic cocaine exposure increases cAMP and protein kinase A (PKA) signaling, which in turn causes the regulator of calmodulin signaling (RCS) to inhibit calcium signaling events that activate MEF2. Decreased MEF2 activity is required for cocaine to increase NAc dendritic spine density. However, this appears to be a compensatory mechanism that limits long-lasting maladaptive behavioral effects of cocaine. CaM=Ca 2+ /calmodulin; CaN=calcineurin; Cdk5=cyclin-dependent kinase 5; mPFC=medial prefrontal cortex; VTA=ventral tegmental area; L-type VSCC=L-type voltage-sensitive calcium channel; P=phosphorylated amino acid. Panel A used with permission from Neuron Volume 59, No. 4, 2008. Copyright © Elsevier 2008. Panel A image designed by Genevra Garret. Panel B adapted/modified with permission from Pulipparacharuvil et al., “Cocaine regulates MEF2 to control synaptic and behavioral plasticity” [ Neuron 2008; 59:621–633]. Copyright © Elsevier 2008.
We recently found that cocaine regulates myocyte enhancer factor 2 (MEF2) transcription factors in the NAc to control the observed increase in synaptic connectivity. During development, MEF2 sculpts mature brain circuits by promoting activity-dependent synapse elimination. Excitatory synaptic activity and subsequent calcium signaling events stimulate MEF2 activity. However, after chronic cocaine exposure or activation of dopamine receptor signaling, we observed a decrease in MEF2 activity in the striatum and found that decreasing MEF2 activity in the NAc promoted an increase in dendritic spine density. We also found that chronic cocaine and dopamine signaling reduced MEF2 activity in the striatum through novel signaling pathways involving the regulator of calmodulin signaling (RCS), calcineurin (CaN), and Cdk5 ( panel B ). Reducing MEF2 is required for cocaine-induced dendritic spine plasticity in vivo. On the other hand, we observed that expression of a hyperactive MEF2 in the NAc, the condition that blocked dendritic spine changes, increased behavioral responses to repeated cocaine exposure. This suggests that the increased spine density in the NAc is not required for cocaine-induced behavioral plasticity and that increased synaptic connections during chronic drug use may actually limit behavioral changes associated with drug addiction rather than support them. Together with the previous literature, our findings suggest that the increased density of synapses may be a compensatory response to decreased activity of these brain reward regions. Therefore, a focus on enhancing synaptic contacts and neuronal activity in the NAc may be therapeutic in drug addiction.

Footnote

Address reprint requests to Dr. Tamminga, UT Southwestern Medical Center, Department of Psychiatry, 5323 Harry Hines Blvd., #NE5.110, Dallas, TX 75390-9070; [email protected] (e-mail). Image accepted for publication October 2008 (doi: 10.1176/appi.ajp.2008.08101465).

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Go to American Journal of Psychiatry
Go to American Journal of Psychiatry
American Journal of Psychiatry
Pages: 1393
PubMed: 18981071

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Published online: 1 November 2008
Published in print: November, 2008

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Christopher W. Cowan, Ph.D.
Makoto Taniguchi, Ph.D.

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