Browsing by Subject "Insular cortex"

Now showing 1 - 3 of 3
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    Converging Effects of Chronic Pain and Binge Alcohol Consumption on Corticostriatal Neurons and the Effects of Acute Alcohol Exposure on the Medial Prefrontal Cortex
    (2024-07) Yin, Yuexi; Atwood, Brady K.; Baucum, AJ; Hopf, Woody; McKinzie, David L.; Sheets, Patrick L.
    Chronic pain and alcohol use disorder (AUD) are highly comorbid, but whether the two conditions share common brain pathways is unclear. Prior work shows that the anterior insular cortex (AIC) is involved in both chronic pain and alcohol use disorder. However, circuit-specific changes elicited by the combination of pain and alcohol use remain understudied. The goal of this work was to elucidate the converging effects of binge alcohol consumption and chronic pain on AIC neurons that send projections to the dorsolateral striatum (DLS). Here, we used the Drinking-in-the-Dark paradigm to model binge-like alcohol drinking in mice that underwent spared nerve injury (SNI). We found that SNI male mice with no prior alcohol exposure consumed less alcohol compared to sham mice. Electrophysiological analyses showed that AIC-DLS neurons from SNI-alcohol male mice displayed increased neuronal excitability and increased frequency of miniature excitatory postsynaptic currents. However, mice exposed to alcohol prior to SNI consumed similar amounts of alcohol compared to sham mice following SNI. Together, our data suggest that the pain and alcohol interaction can sensitize the AIC-DLS circuit in mice, which may be critical in understanding how chronic pain alters motivated behaviors associated with alcohol. My second goal was to assess the acute pharmacological effects of alcohol on prodynorphin-expressing neurons in the prelimbic cortex (PLPdyn+), a subregion of the medial prefrontal cortex (mPFC). Kappa opioid receptor (KOR) system dysregulation contributes to alcohol addiction. Prodynorphin (Pdyn) is the precursor peptide to the endogenous opioid ligand for KORs. Early studies demonstrated that acute alcohol exposure elevates Pdyn mRNA expression in the mPFC. However, its functional effects on Pdyn-expressing neurons are not known. Here, we used whole-cell patch-clamp electrophysiology in acute brain slices and glutamate-uncaging via laser scanning photo to map local excitatory and inhibitory inputs onto PL neurons. We found that acute alcohol increases local inhibitory inputs to both layer 2/3 PLPdyn+ and PLPdyn- neurons but has no effect on excitatory inputs. Under untreated conditions, PLPdyn+ neurons show stronger local excitatory inputs compared to PLPdyn- neurons. Overall, these data suggest that acute alcohol intoxication inhibits intracortical circuit of PL neurons regardless of neuronal subtypes.
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    Differential Alterations of Insular Cortex Excitability after Adolescent or Adult Chronic Intermittent Ethanol Administration in Male Rats
    (Wiley, 2021-02) Luo, Yi-Xiao; Galaj, Ewa; Ma, Yao-Ying; Pharmacology and Toxicology, School of Medicine
    Adolescent alcohol drinking, primarily in the form of binge-drinking episodes, is a serious public health concern. Binge drinking in laboratory animals has been modeled by a procedure involving chronic intermittent ethanol (CIE) administration, as compared with chronic intermittent water (CIW). The prolonged effects of adolescent binge alcohol exposure in adults, such as high risk of developing alcohol use disorder, are severe but available treatments in the clinic are limited. One reason is the lack of sufficient understanding about the associated neuronal alterations. The involvement of the insular cortex, particularly the anterior agranular insula (AAI), has emerged as a critical region to explain neuronal mechanisms of substance abuse. This study was designed to evaluate the functional output of the AAI by measuring the intrinsic excitability of pyramidal neurons from male rats 2 or 21 days after adolescent or adult CIE treatment. Decreases in intrinsic excitability in AAI pyramidal neurons were detected 21 days, relative to 2 days, after adolescent CIE. Interestingly, the decreased intrinsic excitability in the AAI pyramidal neurons was observed 2 days after adult CIE, compared to adult CIW, but no difference was found between 2 versus 21 days after adult CIE. These data indicate that, although the AAI is influenced within a limited period after adult but not adolescent CIE, neuronal alterations in AAI are affected during the prolonged period of withdrawal from adolescent but not adult CIE. This may explain the prolonged vulnerability to mental disorders of subjects with an alcohol binge history during their adolescent stage.
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    HCN1 channels mediate mu opioid receptor long-term depression at insular cortex inputs to the dorsal striatum
    (Wiley, 2022) Munoz, Braulio; Fritz, Brandon M.; Yin, Fuqin; Atwood, Brady K.; Pharmacology and Toxicology, School of Medicine
    Mu opioid receptors (MORs) are expressed in the dorsal striatum, a brain region that mediates goal-directed (via the dorsomedial striatum) and habitual (via the dorsolateral striatum, DLS) behaviours. Our previous work indicates that glutamate transmission is depressed when MORs are activated in the dorsal striatum, inducing MOR-mediated long-term synaptic depression (MOR-LTD) or short-term depression (MOR-STD), depending on the input. In the DLS, MOR-LTD is produced by MORs on anterior insular cortex (AIC) inputs and MOR-STD occurs at thalamic inputs, suggesting input-specific MOR plasticity mechanisms. Here, we evaluated the mechanisms of induction of MOR-LTD and MOR-STD in the DLS using pharmacology and optogenetics combined with patch-clamp electrophysiology. We found that cAMP/PKA signalling and protein synthesis are necessary for MOR-LTD expression, similar to previous studies of cannabinoid-mediated LTD in DLS. MOR-STD does not utilize these same mechanisms. We also demonstrated that cannabinoid-LTD occurs at AIC inputs to DLS. However, while cannabinoid-LTD requires mTOR signalling in DLS, MOR-LTD does not. We characterized the role of presynaptic HCN1 channels in MOR-LTD induction as HCN1 channels expressed in AIC are necessary for MOR-LTD expression in the DLS. These results suggest a mechanism in which MOR activation requires HCN1 to induce MOR-LTD, suggesting a new target for pharmacological modulation of synaptic plasticity, providing new opportunities to develop novel drugs to treat alcohol and opioid use disorders. KEY POINTS: Mu opioid receptor-mediated long-term depression at anterior insular cortex inputs to dorsolateral striatum involves presynaptic cAMP/PKA signalling and protein translation, similar to known mechanisms of cannabinoid long-term depression. Dorsal striatal cannabinoid long-term depression also occurs at anterior insular cortex inputs to the dorsolateral striatum. Dorsal striatal cannabinoid long-term depression requires mTOR signalling, similar to hippocampal cannabinoid long-term depression, but dorsal striatal mu opioid long-term depression does not require mTOR signalling. Mu opioid long-term depression requires presynaptic HCN1 channels at anterior insular cortex inputs to dorsolateral striatum.