AI Article Synopsis
- The study investigated frontloading, an alcohol drinking pattern where consumption occurs primarily at the beginning of access, using whole brain imaging in mice.
- Mice underwent binge drinking sessions, with their alcohol intake measured, and after a designated period, their brains were extracted and analyzed for Fos protein expression to identify active brain regions.
- Results showed that alcohol access altered the connectivity of brain regions differently in males and females, indicating significant differences in how frontloading affects brain networks based on sex.
Article Abstract
Frontloading is an alcohol drinking pattern where intake is skewed towards the onset of access. This study aimed to identify brain regions involved in frontloading. Whole brain imaging was performed in 63 C57Bl/6J (32 female, 31 male) mice that underwent 8 days of binge drinking using drinking-in-the-dark (DID). On Days 1-7 mice received 20% (v/v) alcohol or water for 2 h. Intake was measured in 1-min bins using volumetric sippers. On Day 8 mice were perfused 80 min into the DID session and brains were extracted. Brains were processed to stain for Fos protein using iDISCO+. Following light sheet imaging, ClearMap2.1 was used to register brains to the Allen Brain Atlas and detect Fos+ cells. For network analyses, Day 8 drinking patterns were used to characterize mice as frontloaders or non-frontloaders using a change-point analysis. Functional correlation matrices were calculated for each group from log Fos values. Euclidean distances were calculated from these R values and clustering was used to determine modules (highly connected groups of brain regions). In males, alcohol access decreased modularity (three modules in both frontloaders and non-frontloaders) as compared to water (seven modules). In females, an opposite effect was observed. Alcohol access (nine modules for frontloaders) increased modularity as compared to water (five modules). Further, different brain regions served as hubs in frontloaders as compared to control groups. In conclusion, alcohol consumption led to fewer, but more densely connected, groups of brain regions in males but not females and we identify several brain-wide signatures of frontloading.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11387202 | PMC |
| http://dx.doi.org/10.1111/adb.13434 | DOI Listing |
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