New study uncovers key mechanism behind learning and memory

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Source : https://www.sciencedaily.com/releases/2025/01/250121180248.htm#google_vignette

New study uncovers key mechanism behind learning and memory

Date:

January 21, 2025

Source:

University of Colorado Anschutz Medical Campus

Summary:

A breakthrough study sheds new light on how brain cells relay critical information from their extremities to their nucleus, leading to the activation of genes essential for learning and memory.

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A breakthrough study published today in the Journal of Neurosciencesheds new light on how brain cells relay critical information from their extremities to their nucleus, leading to the activation of genes essential for learning and memory.

Researchers have identified a key pathway that links how neurons send signals to each other, or synaptic activity, to the expression of genes necessary for long-term changes in the brain, providing crucial insights into the molecular processes underlying memory formation.

"These findings illuminate a critical mechanism that connects local synaptic activity to the broader gene expression changes necessary for learning and memory," said Mark Dell'Acqua, professor of pharmacology at the University of Colorado Anschutz Medical Campus and senior author of the study. "This paper is mainly a basic science finding of a fundamental process of what nerve cells do. Understanding this relay system not only enhances our knowledge of brain function but could also better inform therapeutic treatments for cognitive disorders."

The nucleus where the genes that modify neuron function are controlled is a long distance away from where neurons receive input from their synapses, which are located in distant dendrites that extend like branches from the trunk of a tree. This research focuses on the cAMP-response element binding protein (CREB), a transcription factor known to regulate genes vital for dynamic changes at synapses which is essential for neuronal communication. Despite CREB's well-documented role in supporting learning and memory, the exact mechanisms leading to CREB activation during neuronal activity remain unclear.

Using advanced microscopy techniques, graduate student Katlin Zent in Dr. Dell'Acqua's research group revealed a crucial relay mechanism involving the activation of receptors and ion channels generating calcium signals that rapidly communicates from synapses in remote dendrite branches to the nucleus in the neuron cell body.

"Going forward, this research will enable us to better examine the way these pathways are utilized in different disease states," said Dell'Acqua. "We could see exactly what parts of this new mechanism are interfered with and where, giving us a better idea of how this pathway affecting learning and memory is impacted. This research highlights potential targets for interventions aimed at conditions like Alzheimer's disease and other memory-related disorders."

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Story Source:

Materials provided by University of Colorado Anschutz Medical Campus. Original written by Kelsea Pieters. Note: Content may be edited for style and length.

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Journal Reference:

1. Katlin H. Zent, Mark L. Dell’Acqua. Synapse-to-nucleus ERK-CREB transcriptional signaling requires dendrite-to-soma Ca2+propagation mediated by L-type voltage-gated Ca2 channels. The Journal of Neuroscience, 2024; e1216242024 DOI: 10.1523/JNEUROSCI.1216-24.2024