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Glial Cell Line-Derived Neurotrophic Factor Mediates the Desirable Actions of the Anti-Addiction Drug Ibogaine against Alcohol Consumption

Dao‐yao He, Nancy N. H. Mcgough, Ajay Ravindranathan, Jérôme Jeanblanc, Marian L. Logrip, Khanhky Phamluong, Patricia H. Janak, Dorit Ron

Journal of Neuroscience January 19, 2005 Peer reviewed DOI: 10.1523/jneurosci.3959-04.2005 via OpenAlex

Summary

Ibogaine decreases ethanol intake in rats, suggesting potential for treating alcohol addiction. In experiments, ibogaine reduced self-administration of ethanol in both two-bottle choice and relapse models. The effect was linked to increased expression of glial cell line-derived neurotrophic factor (GDNF) in the ventral tegmental area (VTA). Targeting GDNF may offer a new avenue for alcoholism treatment while minimizing side effects associated with ibogaine.

Study at a glance

Population rodents
Key finding Ibogaine decreased ethanol self-administration in rats and its effects were mediated by increased GDNF expression in the VTA.

Abstract

Alcohol addiction manifests as uncontrolled drinking despite negative consequences. Few medications are available to treat the disorder. Anecdotal reports suggest that ibogaine, a natural alkaloid, reverses behaviors associated with addiction including alcoholism; however, because of side effects, ibogaine is not used clinically. In this study, we first characterized the actions of ibogaine on ethanol self-administration in rodents. Ibogaine decreased ethanol intake by rats in two-bottle choice and operant self-administration paradigms. Ibogaine also reduced operant self-administration of ethanol in a relapse model. Next, we identified a molecular mechanism that mediates the desirable activities of ibogaine on ethanol intake. Microinjection of ibogaine into the ventral tegmental area (VTA), but not the substantia nigra, reduced self-administration of ethanol, and systemic administration of ibogaine increased the expression of glial cell line-derived neurotrophic factor (GDNF) in a midbrain region that includes the VTA. In dopaminergic neuron-like SHSY5Y cells, ibogaine treatment upregulated the GDNF pathway as indicated by increases in phosphorylation of the GDNF receptor, Ret, and the downstream kinase, ERK1 (extracellular signal-regulated kinase 1). Finally, the ibogaine-mediated decrease in ethanol self-administration was mimicked by intra-VTA microinjection of GDNF and was reduced by intra-VTA delivery of anti-GDNF neutralizing antibodies. Together, these results suggest that GDNF in the VTA mediates the action of ibogaine on ethanol consumption. These findings highlight the importance of GDNF as a new target for drug development for alcoholism that may mimic the effect of ibogaine against alcohol consumption but avoid the negative side effects.

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