November 22, 2024

Scientists May Have Unlocked Function of Mysterious Structure Found on Neurons in the Brain

Uncommon clusters on neurons are calcium-signaling “hotspots” that trigger gene transcription, enabling nerve cells to produce vital proteins.
For 30 years, mystical clusters of proteins found on the cell body of nerve cells in the hippocampus, a part of the brain, both intrigued and baffled James Trimmer.

Now, the distinguished professor of physiology and membrane biology at the UC Davis School of Medicine may finally have a response. In a new research study published in PNAS, Trimmer and his colleagues reveal these protein clusters are calcium signaling “hotspots” in the neuron that play an important role in activating gene transcription.
Transcription enables parts of the nerve cells DNA to be “transcribed” into strands of RNA that are then utilized to produce the proteins required by the cell.
Structures found in lots of animals
Trimmers laboratory research studies the enigmatic clusters in mice, but they exist in invertebrates and all vertebrates– consisting of human beings. Trimmer approximates that there can be 50 to 100 of these big clusters on a single nerve cell.
He and his associates understood that the clusters are formed by a protein that passes potassium ions through membranes (a potassium channel). They also knew these clusters consist of a particular kind of calcium channel. Calcium channels allow calcium to get in cells, where it sets off a variety of physiological responses depending on the kind of cell.
Scientists in the Trimmer Lab at the UC Davis School of Medicine have actually found that mystical clusters of proteins discovered on nerve cells are calcium-signaling “hotspots” that activate gene transcription, allowing neurons to produce crucial proteins. The discovery might help form new research study into the role of the “hotspots” in brain function and potentially lead to brand-new classes of rehabs.
” The existence of these clusters in nerve cells is extremely saved,” Trimmer said. Extremely saved features are relatively the same through evolutionary timescales, suggesting they have an essential functional property in these extremely various types of animals.
The hippocampus, one area of the brain where the clusters are found on neurons, plays a major function in knowing and memory. Scientist understood that disruption to these clusters– for instance, from genetic anomalies in the potassium channel– results in extreme neurological conditions. But it was unclear why.
” We have actually understood the function of other types of ion channel clusters, for example those at synapses, for a long period of time. Nevertheless, there was no known function that these much bigger structures on the cell body played in the physiology of the nerve cell,” Trimmer stated.
” A lot of research study has actually focused on calcium signaling in dendrites. Now we comprehend far more about the significance of signaling at these specific websites on the cell body of the nerve cell.”– Nicholas C. Vierra
Experiment flooded calcium channels with “decoys”.
The experiment that revealed the function of the neuronal clusters was designed by Nicholas C. Vierra, a postdoctoral researcher in Trimmers laboratory and lead author for the study.
” We established an approach that let us uncouple the calcium channel from the potassium channel clusters in nerve cells. A key finding was that this treatment blocked calcium-triggered gene expression. This suggests that the calcium channel-potassium channel collaboration at these clusters is crucial for neuronal function,” Vierra said.
For their experiment, the scientists basically “tricked” the calcium channels at these clusters by flooding the nerve cells with decoy potassium channel pieces. When the calcium channels got onto the decoys rather of the real potassium channels, they fell away from the clusters.
As an outcome, the procedure referred to as excitation-transcription coupling, which connects modifications in neuronal electrical activity to changes in gene expression, was inactivated.
” There are a great deal of different calcium channels, but the particular kind of calcium channel found at these clusters is required for converting modifications in electrical activity to modifications in gene expression,” Trimmer said. “We discovered that if you disrupt the calcium-signaling proteins located at these uncommon clusters, you essentially remove excitation-transcription coupling, which is important for finding out, memory, and other kinds of neuronal plasticity.”.
Trimmer and Vierra hope their findings will open brand-new avenues of research.
” A lot of research study has concentrated on calcium signaling in dendrites– the websites where nerve cells receive signals from other neurons. Calcium signaling in the cell body of neurons has gotten less attention,” said Vierra. “Now we comprehend much more about the significance of signaling at these particular websites on the cell body of the neuron.”.
” We are only at the beginning of comprehending the significance of this signaling, but these new results may provide info that could shape new research into its role in brain function, and possibly ultimately into the advancement of new classes of therapeutics,” said Trimmer.
Referral: “Regulation of neuronal excitation– transcription coupling by Kv2.1-induced clustering of somatic L-type Ca2+ channels at ER-PM junctions” by Nicholas C. Vierra, Samantha C. ODwyer, Collin Matsumoto, L. Fernando Santana and James S. Trimmer, 8 November 2021, Proceedings of the National Academy of Sciences.DOI: 10.1073/ pnas.2110094118.
Extra authors on the study consist of Samantha C. ODwyer, Collin Matsumoto and L. Fernando Santana, Department of Physiology and Membrane Biology, UC Davis School of Medicine.
This research study was funded by awards from the National Institutes of Health.

The hippocampus, one area of the brain where the clusters are discovered on nerve cells, plays a major role in learning and memory.” We developed a method that let us uncouple the calcium channel from the potassium channel clusters in neurons.” A lot of research has actually focused on calcium signaling in dendrites– the websites where neurons receive signals from other neurons. Calcium signaling in the cell body of nerve cells has received less attention,” stated Vierra. “Now we understand much more about the significance of signaling at these specific websites on the cell body of the neuron.”.