Stefan W. Fleps scite author profile

BACKGROUND: Excess dopamine release in the dorsal striatum (DS) is linked to psychosis. Antipsychotics are thought to work for positive symptoms by blocking striatal D2 dopamine receptors, but they lack efficacy for the negative and cognitive symptoms. Further, broadly increasing dopamine release improves cognitive function. These observations fueled the dogma that excess dopamine is not involved in negative and cognitive symptoms, but this has never been tested with dopamine pathway specificity. METHODS: We selectively re-expressed excitatory TRPV1 receptors in DS-projecting dopamine neurons of male and female Trpv1 knockout mice. We treated these mice with capsaicin (TRPV1 agonist) to selectively ac-tivate these neurons, validated this approach with fiber photometry, and assessed its effects on social and cogni-tive function. We combined this manipulation with antipsychotic treatment (haloperidol) and compared the path-way-specific manipulation to treatment with the non-selective dopamine releaser amphetamine. RESULTS: Selectively activating DS-projecting dopamine neurons increased DS (but not cortical) dopamine release and increased locomotor activity. Surprisingly, this manipulation also impaired behavioral processes linked to negative and cognitive symptoms (social drive and working memory). Haloperidol normalized locomo-tion, only partially rescued working memory, and had no effect on social interaction. By contrast, amphetamine increased locomotion but did not impair social interaction or working memory. CONCLUSIONS: Excess dopamine release, when restricted to the DS, causes behavioral deficits linked to negative and cognitive symptoms. Previous studies using non-selective approaches to release dopamine likely overlooked these contributions of excess dopamine to psychosis. Future therapies should address this disre-garded role for excess striatal dopamine in the treatment-resistant symptoms of psychosis.

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Sucrose overconsumption impairs feeding circuit dynamics and promotes palatable food intake

Beutler¹,

Lorch²,

Hayes³

et al. 2023

Preprint

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Rapid gut-brain communication is critical to maintain energy balance and is disrupted in diet-induced obesity through mechanisms that remain obscure. Specifically, the role of carbohydrate overconsumption in the regulation of interoceptive circuits has been minimally examined in vivo. Here we report that an obesogenic high-sucrose diet (HSD) selectively blunts silencing of hunger-promoting AgRP neurons following intragastric delivery of glucose, whereas we previously showed that overconsumption of a high-fat diet (HFD) selectively attenuates lipid-induced neural silencing. By contrast, both HSD and HFD reversibly dampen rapid AgRP neuron sensory inhibition following chow presentation and promote intake of more palatable foods. Our findings reveal that excess sugar and fat pathologically modulate feeding circuit activity in both macronutrient-dependent and -independent ways, and thus may additively exacerbate obesity.

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Stefan W. Fleps

Antipsychotic drug efficacy correlates with the modulation of D1 rather than D2 receptor-expressing striatal projection neurons

The effect of selective nigrostriatal dopamine excess on behaviors linked to the cognitive and negative symptoms of schizophrenia

Selective Nigrostriatal Dopamine Excess Impairs Behaviors Linked to the Cognitive and Negative Symptoms of Psychosis

Sucrose overconsumption impairs feeding circuit dynamics and promotes palatable food intake

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