Mysterious protein clusters found on neurons are calcium-signaling “hotspots”, study reveals

For 30 years, mysterious clusters of proteins found on the cell body of neurons in the hippocampus, a part of the brain, both intrigued and baffled James Trimmer.

Mysterious protein clusters found on neurons are calcium-signaling “hotspots”, study reveals
Image Credit: UC Davis Health

Now, the distinguished professor of physiology and membrane biology at the UC Davis School of Medicine may finally have an answer. In a new study published in PNAS, Trimmer and his colleagues reveal these protein clusters are calcium signaling “hotspots” in the neuron that play a crucial role in activating gene transcription.

Transcription allows portions of the neuron’s DNA to be “transcribed” into strands of RNA that are then used to create the proteins needed by the cell.

Structures found in many animals

Trimmer’s lab studies the enigmatic clusters in mice, but they exist in invertebrates and all vertebrates — including humans. Trimmer estimates that there can be 50 to 100 of these large clusters on a single neuron.

He and his colleagues knew that the clusters are formed by a protein that passes potassium ions through membranes (a potassium channel). They also knew these clusters contain a particular type of calcium channel. Calcium channels allow calcium to enter cells, where it triggers a variety of physiological responses depending on the type of cell.

“The presence of these clusters in neurons is highly conserved,” Trimmer said. Highly conserved features are relatively unchanged through evolutionary timescales, suggesting they have an important functional property in these very different types of animals.

The hippocampus, one region of the brain where the clusters are found on neurons, plays a major role in learning and memory. Researchers knew that disruption to these clusters — for example, from genetic mutations in the potassium channel — results in severe neurological disorders. But it was not clear why.

“We have known the function of other types of ion channel clusters, for example those at synapses, for a long time. However, there was no known role that these much larger structures on the cell body played in the physiology of the neuron,” Trimmer said.

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 Trimmer’s lab and lead author for the study.

“We developed an approach that let us uncouple the calcium channel from the potassium channel clusters in neurons. A key finding was that this treatment blocked calcium-triggered gene expression. This suggests that the calcium channel-potassium channel partnership at these clusters is important for neuronal function,” Vierra said.

For their experiment, the researchers essentially “tricked” the calcium channels at these clusters by flooding the neurons with decoy potassium channel fragments. When the calcium channels grabbed onto the decoys instead of the real potassium channels, they fell away from the clusters.

As a result, the process known as excitation-transcription coupling, which links changes in neuronal electrical activity to changes in gene expression, was inactivated.

“There are a lot of different calcium channels, but the particular type of calcium channel found at these clusters is necessary for converting changes in electrical activity to changes in gene expression,” Trimmer said. “We found that if you interfere with the calcium-signaling proteins located at these unusual clusters, you basically eliminate excitation-transcription coupling, which is critical for learning, memory, and other forms of neuronal plasticity.”

Trimmer and Vierra hope their findings will open new avenues of research.

A lot of research has focused on calcium signaling in dendrites – the sites where neurons receive signals from other neurons. Calcium signaling in the cell body of neurons has received less attention. Now we understand much more about the significance of signaling at these specific sites on the cell body of the neuron."

Nicholas C. Vierra, Postdoctoral Researcher, Trimmer’s Lab

“We are only at the beginning of understanding the significance of this signaling, but these new results may provide information that could shape new research into its role in brain function, and perhaps eventually into the development of new classes of therapeutics,” said Trimmer.

Additional authors on the study include Samantha C. O’Dwyer, Collin Matsumoto and L. Fernando Santana, Department of Physiology and Membrane Biology, UC Davis School of Medicine.

This research was funded by awards from the National Institutes of Health.

Calcium-signaling “hotspots” found on neurons

Warning: This video contains flashes of lights, which may be inappropriate for people who are photosensitive. Researchers in the Trimmer Lab at the UC Davis School of Medicine have discovered that mysterious clusters of proteins found on neurons are calcium-signaling “hotspots” that activate gene transcription, allowing neurons to produce crucial proteins. The discovery may help shape new research into the role of the “hotspots” in brain function and potentially lead to new classes of therapeutics. Video Credit: UC Davis Health

Journal reference:

Vierra, N.C., et al. (2021) Regulation of neuronal excitation–transcription coupling by Kv2.1-induced clustering of somatic L-type Ca2+ channels at ER-PM junctions. PNAS.


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