Tanja Vihavainen scite author profile

Glial cell line-derived neurotrophic factor (GDNF) regulates striatal dopaminergic neurons. To study whether reduced endogenous GDNF affect morphine's effects on striatal dopamine transmission, we estimated extracellular concentrations of dopamine and its metabolites by microdialysis in vivo and tissue concentrations post mortem in mice lacking one GDNF allele (GDNF+/- mice). In the wild-type mice, acute morphine (5 and 10 mg/kg s.c.) increased accumbal dopamine output dose-dependently (maximally by 30 and 80%, respectively). In the GDNF+/- mice, 5 mg/kg of morphine enhanced the accumbal dopamine output maximally by 110%, and significantly more than morphine 10 mg/kg (maximally by 60%). Also, the response of extracellular accumbal DOPAC to acute morphine was significantly altered in the GDNF+/- mice. In mice of both genotypes, the responses to morphine in the caudate putamen were similar to but much less intense than those in the nucleus accumbens. Morphine at the doses 5, 10, and 30 mg/kg dose-dependently elevated the striatal tissue concentrations of DOPAC and HVA, but the effect of 30 mg/kg was significantly smaller in the GDNF+/- mice than in their wild-type littermates. The binding of [(3)H]DAMGO to striatal membrane homogenates was similar between the genotypes. However, morphine induced antinociception in the GDNF+/- mice at a smaller dose than in the controls. The finding that reduced GDNF level alters the effects of morphine on striatal dopamine and our previous findings of elevated extracellular striatal dopamine concentrations and FosB/DeltaFosB expression in the GDNF+/- mice show the importance of GDNF in the regulation of striatal dopaminergic system.

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Morphine–nicotine interaction in conditioned place preference in mice after chronic nicotine exposure

Vihavainen

Piltonen

Tuominen

et al. 2008

European Journal of Pharmacology

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Chronic nicotine modifies the effects of morphine on extracellular striatal dopamine and ventral tegmental GABA

Vihavainen

Relander

Leiviskä

et al. 2008

Journal of Neurochemistry

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Previously, we have shown that 7‐week oral nicotine treatment enhances morphine‐induced behaviors and dopaminergic activity in the mouse brain. In this study, we further characterized the nicotine‐morphine interaction in the mesolimbic and nigrostriatal dopaminergic systems, as well as in the GABAergic control of these systems. In nicotine‐pretreated mice, morphine‐induced dopamine release in the caudate putamen and nucleus accumbens was significantly augmented, as measured by microdialysis. Chronic nicotine treatment did not change basal extracellular concentrations of dopamine and its metabolites in the caudate putamen and nucleus accumbens, nor did it affect the rate of dopamine synthesis, as assessed by 3‐hydroxybenzylhydrazine dihydrochloride‐induced DOPA accumulation. GABAergic control of dopaminergic activity was studied by measuring extracellular GABA in the presence of nipecotic acid, an inhibitor of GABA uptake. Acute (0.3 mg/kg or 0.5 mg/kg i.p.) and chronic nicotine, as well as morphine (15 mg/kg s.c.) in control mice decreased nipecotic acid–induced increase in extracellular GABA in the ventral tegmental area/substantia nigra (VTA/SN). In contrast, in nicotine‐treated mice, morphine increased GABA levels in the presence of nipecotic acid. We did not find any alterations in GABAB‐receptor function after chronic nicotine treatment. Thus, our data show that chronic nicotine treatment sensitizes dopaminergic systems to morphine and affects GABAergic systems in the VTA/SN.

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Effect of morphine on locomotor activity and striatal monoamine metabolism in nicotine-withdrawn mice

Vihavainen¹,

Mijatovic²,

Piepponen³

et al. 2006

Behavioural Brain Research

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A115 Effects of Morphine and Cocaine on Locomotor Activity in Nicotine-Withdrawn Mice

Vihavainen

Tuominen

Ahtee

2005

Behavioural Pharmacology

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