Activation of Astrocytes in the Dorsomedial Striatum Facilitates Transition from Habitual to Goal‐Directed Reward‐Seeking Behavior

Abstract

Habitual reward‐seeking behavior is a hallmark of addictive behaviors. Although habitual behavior could be reversed to goal‐directed behavior, this shifting is not well studied. Here, we identify a role of astrocyte activation in the dorsomedial striatum (DMS) on transition from habitual to goal‐directed reward‐seeking behavior. Utilizing the Inscopix endomicroscopy/fiber photometry in vivo calcium imaging and the cell‐type specific activation of designer receptors exclusively activated by designer drugs (DREADDs), we confirmed that GFAP‐driven activation of hM3Dq DREADDs increases intensity and frequency of calcium signaling in the DMS astrocytes of ALDH1L1‐GCaMP6s expressing mice. We found that this chemogenetic activation of the DMS astrocytes increase and decrease neuronal excitability of direct pathway Medium Spiny Neurons (dMSNs) and indirect pathway Medium Spiny Neurons (iMSNs), respectively. Specifically, it reduced the frequency of spontaneous excitatory postsynaptic currents (sEPSCs) in the dMSNs, whereas it increased the amplitude of the sEPSCs and decreased the frequency of spontaneous inhibitory postsynaptic currents (sIPSCs) in the iMSNs. The changes in synaptic events induced by astrocytic activation were significantly inhibited by either of the pretreatments of DPCPX (Adenosine A1R antagonist, 1 μM), PSB12379 (Inhibitor of ectonucleotidase, CD73, 10 μM), NBTI [Inhibitor of the astrocytic adenosine transporter, equilibrative nucleoside transporter 1 (ENT1, slc29a1), 10 μM], and genetic deletion of ENT1. These data suggest that astrocytic activation‐induced synaptic activities are, in part, adenosine‐dependent. In the evaluation tests of goal‐directed and habitual reward‐seeking, the chemogenetic activation of the DMS astrocytes shifted the habitual behavior to goal‐directed action in sucrose reward‐seeking for WT, but not ENT1 KO mice. The astrocytic activation‐induced shifting was rescued when ENT1 expression was normalized in the DMS astrocytes of the ENT1 KO mice. On the other hand, when mice were trained to have goal‐directed behavior, the astrocytic activation in the DMS did not change the reward‐seeking behavioral pattern. Together, our results indicate that astrocyte‐regulated adenosine signaling in the DMS determines goal‐directed and habitual behaviors by selectively regulating synapses in the MSNs. The interaction between astrocytes and neurons via adenosine signaling could be a potential therapeutic target for maladaptive reward‐seeking behaviors.Support or Funding InformationThis work was supported by the Samuel C. Johnson for Genomics of Addiction Program at Mayo Clinic, the Ulm Foundation, and National Institute on Alcohol Abuse and Alcoholism (K01 AA027773 to SK, R01 AA018779 to DSC).