J.E. Olijslagers scite author profile

Corticosterone (100 nm) rapidly increases the frequency of miniature excitatory postsynaptic currents in mouse CA1 pyramidal neurons via membrane-located mineralocorticoid receptors (MRs). We now show that a presynaptic ERK1/2 signalling pathway mediates the nongenomic effect, as it was blocked by the MEK inhibitors U0126 (10 microm) and PD098059 (40 microm) and occluded in H-Ras(G12V)-mutant mice with constitutive activation of the ERK1/2 presynaptic pathway. Notably, the increase in mEPSC frequency was not mediated by retrograde signalling through endocannabinoids or nitric oxide, supporting presynaptic localization of the signalling pathway. Unexpectedly, corticosterone was also found to have a direct postsynaptic effect, rapidly decreasing the peak amplitude of I(A) currents. This effect takes place via postsynaptic membrane MRs coupled to a G protein-mediated pathway, as the effect of corticosterone on I(A) was effectively blocked by 0.5 mm GDP-beta-S administered via the recording pipette into the postsynaptic cell. Taken together, these results indicate that membrane MRs mediate rapid, nongenomic effects via pre- as well as postsynaptic pathways. Through these dual pathways, high corticosterone concentrations such as occur after stress could contribute to enhanced CA1 pyramidal excitability.

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Modulation of Midbrain Dopamine Neurotransmission by Serotonin, a Versatile Interaction Between Neurotransmitters and Significance for Antipsychotic Drug Action

Olijslagers

Werkman²,

Mccreary³

et al. 2006

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Schizophrenia has been associated with a dysfunction of brain dopamine (DA). This, so called, DA hypothesis has been refined as new insights into the pathophysiology of schizophrenia have emerged. Currently, dysfunction of prefrontocortical glutamatergic and GABAergic projections and dysfunction of serotonin (5-HT) systems are also thought to play a role in the pathophysiology of schizophrenia. Refinements of the DA hypothesis have lead to the emergence of new pharmacological targets for antipsychotic drug development. It was shown that effective antipsychotic drugs with a low liability for inducing extra-pyramidal side-effects have affinities for a range of neurotransmitter receptors in addition to DA receptors, suggesting that a combination of neurotransmitter receptor affinities may be favorable for treatment outcome.This review focuses on the interaction between DA and 5-HT, as most antipsychotics display affinity for 5-HT receptors. We will discuss DA/5-HT interactions at the level of receptors and G protein-coupled potassium channels and consequences for induction of depolarization blockade with specific attention to DA neurons in the ventral tegmental area (VTA) and the substantia nigra zona compacta (SN), neurons implicated in treatment efficacy and the side-effects of schizophrenia, respectively. Moreover, it has been reported that electrophysiological interactions between DA and 5-HT show subtle, but important, differences between the SN and the VTA which could explain (in part) the effectiveness and lower propensity to induce side-effects of the newer atypical antipsychotic drugs. In that respect the functional implications of DA/5-HT interactions for schizophrenia will be discussed.Key Words: Schizophrenia, antipsychotic drug, substantia nigra, ventral tegmental area. DOPAMINE AND SCHIZOPHRENIAThe mesocortical pathway, the mesolimbic pathway, the nigrostriatal pathway and the tuberoinfundibular pathway have all been postulated to be involved in the pathophysiology of schizophrenia and the propensity of antipsychotic drugs to induce side-effects [144]. Hypofunction of the mesocortical pathway and hyperfunction of the mesolimbic pathway [44,55,144] are thought to be responsible for the symptoms that can be observed (see also Sesack and Carr, 2002 [138])) and points to one of the many difficulties for effective treatment: increasing dopamine (DA) activity in the mesocortical pathway, while concomitantly decreasing DA activity in the mesolimbic pathway. The nigrostriatal and tuberoinfundibular pathways are involved in side-effects of antipsychotic drug treatment, such as extra-pyramidal side effects and hyperprolactinemia, respectively [10, 30] which are related to changes in firing activity of neurons in these pathways, especially the DA neurons. What lies at the root of this mesocortical mesolimbic dysfunction is unclear but loss of cholinergic interneurons in the striatum, hypoglutamatergia or "miswiring" of glutamatergic and _-amino butyric acid (GABA)-ergic projections from the prefrontal...

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5-HT2 receptors differentially modulate dopamine-mediated auto-inhibition in A9 and A10 midbrain areas of the rat

et al. 2004

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J.E. Olijslagers

Rapid changes in hippocampal CA1 pyramidal cell function via pre‐ as well as postsynaptic membrane mineralocorticoid receptors

Modulation of Midbrain Dopamine Neurotransmission by Serotonin, a Versatile Interaction Between Neurotransmitters and Significance for Antipsychotic Drug Action

5-HT2 receptors differentially modulate dopamine-mediated auto-inhibition in A9 and A10 midbrain areas of the rat

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