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Enhancing depression mechanisms in midbrain dopamine neurons achieves homeostatic resilience.


ABSTRACT: Typical therapies try to reverse pathogenic mechanisms. Here, we describe treatment effects achieved by enhancing depression-causing mechanisms in ventral tegmental area (VTA) dopamine (DA) neurons. In a social defeat stress model of depression, depressed (susceptible) mice display hyperactivity of VTA DA neurons, caused by an up-regulated hyperpolarization-activated current (I(h)). Mice resilient to social defeat stress, however, exhibit stable normal firing of these neurons. Unexpectedly, resilient mice had an even larger I(h), which was observed in parallel with increased potassium (K(+)) channel currents. Experimentally further enhancing Ih or optogenetically increasing the hyperactivity of VTA DA neurons in susceptible mice completely reversed depression-related behaviors, an antidepressant effect achieved through resilience-like, projection-specific homeostatic plasticity. These results indicate a potential therapeutic path of promoting natural resilience for depression treatment.

SUBMITTER: Friedman AK 

PROVIDER: S-EPMC4334447 | biostudies-literature | 2014 Apr

REPOSITORIES: biostudies-literature

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Enhancing depression mechanisms in midbrain dopamine neurons achieves homeostatic resilience.

Friedman Allyson K AK   Walsh Jessica J JJ   Juarez Barbara B   Ku Stacy M SM   Chaudhury Dipesh D   Wang Jing J   Li Xianting X   Dietz David M DM   Pan Nina N   Vialou Vincent F VF   Neve Rachael L RL   Yue Zhenyu Z   Han Ming-Hu MH  

Science (New York, N.Y.) 20140401 6181


Typical therapies try to reverse pathogenic mechanisms. Here, we describe treatment effects achieved by enhancing depression-causing mechanisms in ventral tegmental area (VTA) dopamine (DA) neurons. In a social defeat stress model of depression, depressed (susceptible) mice display hyperactivity of VTA DA neurons, caused by an up-regulated hyperpolarization-activated current (I(h)). Mice resilient to social defeat stress, however, exhibit stable normal firing of these neurons. Unexpectedly, resi  ...[more]

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