medium spiny neurons

GluN2B-mediated regulation of silent synapses for receptor specification and addiction memory

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Researchers studied how a specific brain protein called GluN2B affects addiction memories from cocaine use. They found that removing this protein reduced the formation of ‘silent synapses’ – immature brain connections created by cocaine – and weakened drug-related memories. However, this also unexpectedly made mice more active, suggesting that GluN2B normally helps control both addiction memory and activity levels. The findings provide new insights into how addiction memories form and suggest potential ways to treat addiction.

The Role of Acid-Sensing Ion Channel 1A (ASIC1A) in the Behavioral and Synaptic Effects of Oxycodone and Other Opioids

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This study examines how a specific type of brain channel called ASIC1A affects how the brain responds to opioid drugs like oxycodone and morphine. Researchers found that mice without this channel showed stronger attraction to opioid-paired locations and had unusual changes in brain connections related to opioid use. The findings suggest that targeting ASIC1A could potentially be a new way to treat opioid addiction by reducing the brain’s sensitivity to these drugs.

Research Keyword: medium spiny neurons

GluN2B-mediated regulation of silent synapses for receptor specification and addiction memory

The Role of Acid-Sensing Ion Channel 1A (ASIC1A) in the Behavioral and Synaptic Effects of Oxycodone and Other Opioids