Dendritic spine morphology

Cell adhesion presence during adolescence controls the architecture of projection-defined prefrontal cortical neurons and reward-related action strategies later in life

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During teenage years, the brain undergoes important structural changes that set the stage for adult decision-making abilities. This study found that a cell adhesion protein called β1-integrin plays a critical role during adolescence in stabilizing connections between brain cells in the prefrontal cortex. When this protein was missing during the teenage years, adult mice struggled to make good decisions about rewards and could not adjust their behavior when circumstances changed. The research suggests that proper brain development during adolescence requires these cellular adhesion molecules to build the neural circuits needed for intelligent decision-making later in life.

Conditional deletion of ROCK2 induces anxiety-like behaviors and alters dendritic spine density and morphology on CA1 pyramidal neurons

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Researchers created mice with reduced ROCK2 protein in brain cells to understand how this protein affects behavior and brain structure. These mice showed anxiety-like behavior, avoiding open spaces and preferring darkness. The study found that ROCK2 affects the structure of dendritic spines, which are tiny branches on nerve cells that allow communication between neurons, particularly in the hippocampus region involved in learning and memory.

Research Keyword: Dendritic spine morphology

Cell adhesion presence during adolescence controls the architecture of projection-defined prefrontal cortical neurons and reward-related action strategies later in life

Conditional deletion of ROCK2 induces anxiety-like behaviors and alters dendritic spine density and morphology on CA1 pyramidal neurons