Research Keyword: hippocampus

Neuroprotective properties of anti-apoptotic BCL-2 proteins in 5xFAD mouse model of Alzheimer’s disease

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Scientists studied how Bcl-2 proteins might protect the brain from Alzheimer’s disease by controlling calcium levels in nerve cells. They injected modified Bcl-2 proteins into the brains of mice engineered to develop Alzheimer’s symptoms and found that these proteins helped preserve the connections between nerve cells and reduced harmful amyloid plaque buildup. A special version of Bcl-2 that worked primarily on one type of calcium channel was surprisingly most effective at reducing amyloid plaques, suggesting this specific mechanism could be important for treating Alzheimer’s disease.

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Primary cilia in the mature brain: emerging roles in Alzheimer’s disease pathogenesis

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Primary cilia are small hair-like structures on brain cells that act like sensory antennas, helping regulate memory and thinking ability. In Alzheimer’s disease, these structures become abnormally shaped and function poorly, contributing to memory loss and cognitive decline. The shape and function of primary cilia change as the brain ages and when amyloid plaques develop, suggesting they could be targeted with new treatments to slow Alzheimer’s progression.

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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.

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