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The role of tissue plasminogen activator in methamphetamine‐related reward and sensitization
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AbstractIn the central nervous system, tissue plasminogen activator (tPA) plays a role in synaptic plasticity and remodeling. Our recent study has suggested that tPA participates in the rewarding effects of morphine by regulating dopamine release. In this study, we investigated the role of tPA in methamphetamine (METH)‐related reward and sensitization. Repeated METH treatment dose‐dependently induced tPA mRNA expression in the frontal cortex, nucleus accumbens, striatum and hippocampus, whereas single METH treatment did not affect tPA mRNA expression in these brain areas. The METH‐induced increase in tPA mRNA expression in the nucleus accumbens was completely inhibited by pre‐treatment with R(+)‐SCH23390 and raclopride, dopamine D1 and D2 receptor antagonists, respectively. In addition, repeated METH treatment increased tPA activity in the nucleus accumbens. There was no difference in METH‐induced hyperlocomotion between wild‐type and tPA‐deficient (tPA–/–) mice. On the other hand, METH‐induced conditioned place preference and behavioral sensitization after repeated METH treatment were significantly reduced in tPA–/– mice compared with wild‐type mice. The defect of behavioral sensitization in tPA–/– mice was reversed by microinjections of exogenous tPA into the nucleus accumbens. Our findings suggest that tPA is involved in the rewarding effects as well as the sensitization of the locomotor‐stimulating effect of METH.
Title: The role of tissue plasminogen activator in methamphetamine‐related reward and sensitization
Description:
AbstractIn the central nervous system, tissue plasminogen activator (tPA) plays a role in synaptic plasticity and remodeling.
Our recent study has suggested that tPA participates in the rewarding effects of morphine by regulating dopamine release.
In this study, we investigated the role of tPA in methamphetamine (METH)‐related reward and sensitization.
Repeated METH treatment dose‐dependently induced tPA mRNA expression in the frontal cortex, nucleus accumbens, striatum and hippocampus, whereas single METH treatment did not affect tPA mRNA expression in these brain areas.
The METH‐induced increase in tPA mRNA expression in the nucleus accumbens was completely inhibited by pre‐treatment with R(+)‐SCH23390 and raclopride, dopamine D1 and D2 receptor antagonists, respectively.
In addition, repeated METH treatment increased tPA activity in the nucleus accumbens.
There was no difference in METH‐induced hyperlocomotion between wild‐type and tPA‐deficient (tPA–/–) mice.
On the other hand, METH‐induced conditioned place preference and behavioral sensitization after repeated METH treatment were significantly reduced in tPA–/– mice compared with wild‐type mice.
The defect of behavioral sensitization in tPA–/– mice was reversed by microinjections of exogenous tPA into the nucleus accumbens.
Our findings suggest that tPA is involved in the rewarding effects as well as the sensitization of the locomotor‐stimulating effect of METH.
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