Chemogenetic Stimulation and Silencing of the Insula, Amygdala, Nucleus Accumbens, and Their Connections Differentially Modulate Alcohol Drinking in Rats

The anterior insular cortex is hypothesized to represent interoceptive effects of drug reward in the service of goal-directed behavior. The insula is richly connected, but the insula circuitry in addiction remains poorly characterized. We examined the involvement of the anterior insula, amygdala, and nucleus accumbens, as well as the projections of the anterior insula to the central amygdala, basolateral amygdala (BLA), and nucleus accumbens core in voluntary alcohol drinking. We trained alcohol-preferring Alko Alcohol (AA) rats to drink alcohol during intermittent 2-h sessions. We then expressed excitatory or inhibitory designer receptors [designer receptors exclusively activated by designer drugs (DREADDs)] in the anterior insula, nucleus accumbens, or amygdala by means of adenovirus-mediated gene transfer and activated the DREADDs with clozapine-N-oxide (CNO) prior to the drinking sessions. Next, to examine the role of specific insula projections, we expressed FLEX-DREADDs in the efferent insula → nucleus accumbens core, insula → central amygdala, and insula → BLA projections by means of a retrograde AAV-Cre vector injected into the insula projection areas. In the anterior insula and amygdala, excitatory Gq-DREADDs significantly attenuated alcohol consumption. In contrast, in the nucleus accumbens, the Gq-DREADD stimulation increased alcohol drinking, and the inhibitory Gi-DREADDs suppressed it. The Gq-DREADDs expressed in the insula → nucleus accumbens core and insula → central amygdala projections increased alcohol intake, whereas inhibition of these projections had no effect. These data demonstrate that the anterior insula, along with the amygdala and nucleus accumbens, has a key role in controlling alcohol drinking by providing excitatory input to the central amygdala and nucleus accumbens to enhance alcohol reward.Peer reviewe

A transport policy tool for reduction of CO2 emissions in Finland – Visions, scenarios and pathways using pluralistic backcasting method

The reduction of greenhouse gas emission was the basis of a Delphi study where expert opinions about future development were asked and used to form visions of the future, and further elaborated to scenarios using a pluralistic backcasting method. A new innovative approach on how to use and combine methods and data from various disciplines in scenario modelling, on transport policy packaging and determining pathways to reach the desired futures, is presented for two of the visions analysed in detail. This paper focuses on the diverse methods and data used while the scientific background of the backcasting method has already been published in Tuominen et al. (2014).</p

Anterior insula stimulation suppresses appetitive behavior while inducing forebrain activation in alcohol-preferring rats

The anterior insular cortex plays a key role in the representation of interoceptive effects of drug and natural rewards and their integration with attention, executive function, and emotions, making it a potential target region for intervention to control appetitive behaviors. Here, we investigated the effects of chemogenetic stimulation or inhibition of the anterior insula on alcohol and sucrose consumption. Excitatory or inhibitory designer receptors (DREADDs) were expressed in the anterior insula of alcohol-preferring rats by means of adenovirus-mediated gene transfer. Rats had access to either alcohol or sucrose solution during intermittent sessions. To characterize the brain network recruited by chemogenetic insula stimulation we measured brain-wide activation patterns using pharmacological magnetic resonance imaging (phMRI) and c-Fos immunohistochemistry. Anterior insula stimulation by the excitatory Gq-DREADDs significantly attenuated both alcohol and sucrose consumption, whereas the inhibitory Gi-DREADDs had no effects. In contrast, anterior insula stimulation failed to alter locomotor activity or deprivation-induced water drinking. phMRI and c-Fos immunohistochemistry revealed downstream activation of the posterior insula and medial prefrontal cortex, as well as of the mediodorsal thalamus and amygdala. Our results show the critical role of the anterior insula in regulating reward-directed behavior and delineate an insula-centered functional network associated with the effects of insula stimulation. From a translational perspective, our data demonstrate the therapeutic potential of circuit-based interventions and suggest that potentiation of insula excitability with neuromodulatory methods, such as repetitive transcranial magnetic stimulation (rTMS), could be useful in the treatment of alcohol use disorders.Peer reviewe

Examining the role of the anterior insular cortex and its efferent connections in regulating voluntary ethanol consumption

The insular cortex has been implicated in the neurocircuitry underlying alcohol addiction. The role of the insular cortex and its projections in regulating ethanol intake in AA (Alko-Alcohol) rats has been studied using chemogenetic tools. Chemogenetic activation of the anterior agranular insula (aAI) in AA rats through excitatory DREADDs expressed in the aAI has been found to decrease ethanol consumption. The aAI projects to the central nucleus of the amygdala (CeA), another brain region involved in the development of addiction, particularly in the withdrawal/negative affect stage. In the current study, we sought to further investigate the role of the aAI and the CeA in regulating voluntary ethanol consumption in AA rats. First, we characterized the efferent projections of the aAI in AA rats by chemogenetically activating the aAI with DREADDs and then measuring c-Fos expression in various regions of interest throughout the brain. Next, we investigated the role of the aAI --> CeA projection in ethanol intake by chemogenetically activating or inhibiting the aAI --> CeA projection using the dual viral Cre-dependent DREADD approach. We examined the effects of this manipulation on voluntary ethanol consumption in AA rats in a two-bottle choice paradigm. Finally, we examined the roles of CeA D1Rs (dopamine receptors) and 5-HT2ARs (serotonin receptors) in regulating ethanol intake by examining the effects of pharmacological agonism or antagonism of these receptors on voluntary ethanol consumption in AA rats. Our results from the first experiment reveal significant activation of brain regions including the posterior agranular insula, the mediodorsal nucleus of the thalamus, and the posterior piriform cortex following chemogenetic activation of the aAI. The projections from the aAI to these regions are potentially important in the aAI circuitry in AA rats and are therefore of interest in future studies on the role of aAI circuitry in ethanol intake. In the second experiment, we found no significant effects of aAI --> CeA projection activation or inhibition on ethanol consumption in AA rats, indicating that this projection may not be a key component in regulating ethanol intake in these rats. Finally, we found no significant effects of pharmacological D1R antagonism, 5-HT2AR antagonism, or 5-HT2AR agonism in the CeA on ethanol intake in AA rats, although there was a non-significant trend towards a dose-dependent decrease in ethanol consumption with increasing dose of the D1R antagonist. Our results reveal new neural projections that should be investigated in future research on the role of the aAI in regulating ethanol intake. Studies on the neurobiology underlying alcoholism may reveal new pharmacological or anatomical targets for treatments of alcoholism in humans

A Transport Policy Tool for Reduction of Co2 Emissions in Finland:Visions, Scenarios and Pathways using Pluralistic Backcasting Method

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Pluralistic backcasting : integrating multiple visions with policy packages for transport climate policy

Traditionally backcasting studies in the field transport are based on a single normative vision (often with clearly stated targets) and alternative pathways are then developed to reach that vision. This paper expands the discussion on the role and importance of backcasting towards using multiple visions as a part of strategic transport planning process. This is done by presenting a method for pluralistic backcasting, which is defined as a process where multiple visions of the future are developed in a participatory, interdisciplinary process using the Delphi method. Further, the pathways to the alternative visions are constructed with a set of policy packages in a collaborative process with key stakeholders. The pluralistic backcasting approach outlined in the paper presents a set of practical tools to support development and implementation of climate strategies and policy programmes for transport. It presents a novel, policy relevant application in the field of backcasting. The approach is tested with a case study of multiple visions of the future on CO2 emissions for transport in Finland up to the year 2050, including the identification of required policy packages to achieve the visions

Pluralistic backcasting : integrating multiple visions with policy packages for transport climate policy

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