Scientists have discovered a new kind of synapse in the tiny hairs on the surface of neurons.
The commonly overlooked protrusions called primary cilia contain special junctions that act as a shortcut for sending signals quickly and directly to the cell’s nucleus, inducing changes to the cell’s chromatin that forms chromosomes.
“This special synapse represents a way to change what is being transcribed or made in the nucleus, and that changes whole programs,” says the senior author of the paper published in Cell. The effects in the cell are not just short-term, the author adds – some can be long-term. “It is like a new dock on a cell that gives express access to chromatin changes, and that is very important because chromatin changes so many aspects of the cell.”
Synapses are well-known to occur between the axon of one neuron and the dendrites of other neurons, but had never been observed between the neuron’s axon and the primary cilium. The high-resolution microscopes and innovative tools enabled the researchers to peer deep into the cell and cilia to observe the synapse, the signaling cascade inside the cell, and the changes in the nucleus.
The discovery of the ciliary synapse could help scientists better understand how long-term changes in cells are communicated. The cilia, which extend from the cell’s interior, near the nucleus, to the exterior, could provide a faster and more selective way for cells to carry out these long-term changes, the senior author says.
Nearly every cell in our body has a single primary cilium, which is likely a vestige from our unicellular ancestors. Sporting signal-detecting receptors, cilia play an important role in cell division during development. Some cilia, such as those in our lungs or the tail on a sperm, also serve important functions later in life.
However, it was unclear why other cells in our bodies, including neurons, retained this hair-like, bacterium-sized protrusion into maturity. Scientists had largely ignored these cilia because they were difficult to see with traditional imaging techniques. But recently, better imaging tools have sparked an interest in these tiny appendages.
The first author used the expertise in focused ion beam-scanning electron microscopy, or FIB-SEM, to get a good look at the cilia. The high-powered microscope allowed the team to see that there was a connection, or synapse, between the neuron’s axon and the cilium protruding outside the cell body. The structural features of these connections resemble those found in known synapses, leading them to call these connections the “axon-cilium” synapse or “axo-ciliary” synapse.
Next, the team developed new biosensors and chemical tools to study the function of this newly discovered structure. The researchers also used an emerging imaging modality – fluorescence lifetime imaging (FLIM) – to make better measurements of biochemical events inside the cilia.
With these tools, the team was able to show step-by-step how the neurotransmitter serotonin is released from the axon onto receptors on the cilia. This triggers a signaling cascade that opens the chromatin structure and allows changes to genomic material in the cell’s nucleus. “Function is what makes static structures come alive,” the author says. “Once we were confident about the structural finding, we looked deeply into its functional properties.”
Because the signals passed across the ciliary synapse enable changes to genomic material in the nucleus, they are likely responsible for longer-term changes in neurons than signals passed from axons to dendrites, say the researchers. These changes could last anywhere from hours to days to years, depending on the proteins the chromatin encodes.
The new research specifically looked at receptors for serotonin, a neurotransmitter widespread in the brain that plays an important role in alertness, memory, and fear. There are at least seven to 10 other receptors on cilia for different neurotransmitters that will now need to be examined. Cilia on other cells beyond the brain, like the liver and kidney, also deserve a closer look.
The authors show that these cilia are enriched in a ciliary-restricted serotonin receptor, the 5-hydroxytryptamine receptor 6 (5-HTR6). They also show that ciliary 5-HTR6 stimulation activates a non-canonical Gαq/11-RhoA pathway, which modulates nuclear actin and increases histone acetylation and chromatin accessibility. Ablation of this pathway reduces chromatin accessibility in CA1 pyramidal neurons. As a signaling apparatus with proximity to the nucleus, axo-ciliary synapses short circuit neurotransmission to alter the postsynaptic neuron’s epigenetic state.
Down the line, a better understanding of the role of these ciliary synapses and receptors could help scientists develop more selective medications. Drugs that target serotonin transporters are used to treat depression, while serotonin is also linked to our sleep-wake cycle.
“Everything we learn about biology may be useful for people to lead better lives,” the senior author says. “If you can figure out how biology works, you can fix things.”
https://www.cell.com/cell/fulltext/S0092-8674(22)00979-5
http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Fa-serotonergic-axon&filter=22
New kind of synapse in neurons' tiny hairs
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