{"id":18965,"date":"2018-07-24T11:17:07","date_gmt":"2018-07-24T18:17:07","guid":{"rendered":"https:\/\/vermont.salk.edu\/?post_type=disclosure&p=18965"},"modified":"2024-01-30T15:10:43","modified_gmt":"2024-01-30T23:10:43","slug":"widespread-connections-among-neurons-help-brain-distinguish-smells","status":"publish","type":"disclosure","link":"https:\/\/www.salk.edu\/zh\/news-release\/widespread-connections-among-neurons-help-brain-distinguish-smells\/","title":{"rendered":"Widespread connections among neurons help the brain distinguish smells"},"content":{"rendered":"

LA JOLLA\u2014Can you tell the smell of a rose from the scent of a lilac? If so, you have your brain\u2019s piriform cortex to thank. Compared to many parts of the brain, the piriform cortex\u2014which lets animals and humans process information about smells\u2014looks like a messy jumble of connections between cells called neurons. Now, Salk Institute researchers have illuminated how the randomness of the piriform cortex is actually critical to how the brain distinguishes between similar odors.<\/p>\n

\"Staining
Staining one section of the brain, as shown, reveals layers of the piriform cortex\u2014in green, brownish-red, and white\u2014and other cells of the brain in blue. <\/p>\n

Click here<\/a> for a high-resolution image.<\/p>\n

Credit: Salk Institute<\/figcaption><\/figure>\n

\u201cThe standard paradigm is that information in the brain is encoded by which cells are active, but that\u2019s not true for the olfactory system,\u201d says\u00a0Charles Stevens<\/a>, Distinguished Professor Emeritus in Salk\u2019s Molecular Neurobiology Laboratory and coauthor of the new work. \u201cIn the olfactory system, it turns out it\u2019s not a matter of which cells are active, but how many<\/em> cells are active and how active they are.\u201d<\/p>\n

Aside from better understanding how smells are processed, the new research, published in the Journal of Comparative Neurology<\/em><\/a> on July 17, 2018, could also lead to greater insight into how some parts of the brain organize information.<\/p>\n

When odorant molecules\u2014the signature of any given smell\u2014bind to the receptors in a person\u2019s nose, the signal is transmitted to the olfactory bulb, and from there to the piriform cortex. In other sensory systems\u2014like the visual system\u2014information maintains a strict order as it moves through the brain. Particular parts of the eye, for instance, always transmit information to specific parts of the visual cortex. But researchers have long known that this order is missing in the piriform cortex.<\/p>\n

\u201cWe haven\u2019t been able to discern any order in the piriform cortex connections in any species,\u201d says coauthor Shyam Srinivasan, an assistant project scientist at the University of California San Diego\u2019s Kavli Institute for Brain and Mind. \u201cAny given odor lights up about 10 percent of neurons that seem to be scattered all over the piriform cortex.\u201d<\/p>\n

To start working out the details of how the piriform cortex encodes odor information\u2014and whether its connections are truly random\u2014Stevens and Srinivasan analyzed the piriform cortices of nine mice using a variety of staining and microscopy techniques that let them visualize different cell types in the brain region. Their first goal: to quantify the number and density of cells in the piriform cortex.<\/p>\n

\"Charles<\/a>
From left: Charles F. Stevens and Shyam Srinivasan<\/p>\n

Click here<\/a> for a high-resolution image.<\/p>\n

Credit: Salk Institute<\/figcaption><\/figure>\n

\u201cThis was really like a survey,\u201d explains Srinivasan. \u201cWe counted the cells in different representative areas and averaged them across the whole region.\u201d<\/p>\n

The mouse piriform cortex, they concluded, has around half a million neurons in it, divided equally between the larger, less dense posterior piriform and the smaller, more dense anterior piriform.<\/p>\n

Using this initial information on density and neuron number, as well as knowledge from previous studies on the number of neurons in the olfactory bulb and how many neuronal connections\u2014or synapses\u2014connect the olfactory bulb to the piriform cortex, the pair of researchers was able to draw a surprising finding: each neuron in the olfactory bulb is connected to nearly every single neuron in the piriform cortex.<\/p>\n

\u201cEvery cell in the piriform is getting information from essentially every odor receptor there is,\u201d says Stevens. \u201cThere\u2019s not one \u2018coffee smell\u2019 neuron but a whole bunch of coffee cell neurons all over the place.\u201d Rather than a single receptor detecting one odor and lighting up one cluster of telltale neurons, he explains, each odor has a fingerprint that\u2019s based more on the strength of the connections\u2014while the smell of coffee may activate nearly the same neurons in the piriform cortex as the smell of chocolate, they\u2019ll activate each neuron to a different degree.<\/p>\n

\u201cOne advantage to this system is that it can encode very complex information,\u201d says Srinivasan. \u201cIt also makes it very robust to noise.\u201d If one neuron sends a \u201cnoisy\u201d signal\u2014stronger or weaker activation than it should\u2014the noise gets cancelled out by the many other neurons sending simultaneous, more accurate signals.<\/p>\n

The researchers would like to repeat the work in other animals to see where similarities and differences lie. They also are interested in looking into other areas of the brain that have long been assumed to be dominated by seemingly random connections to see if they\u2019re organized in the same way.<\/p>\n

Stevens and Srinivasan, who also had a paper come out in the Journal of Neuroscience<\/em> on July 13 about using the fruit fly olfactory learning circuit to improve the current crop of deep learning algorithms, were funded by the Kavli Institute for Brain and Mind at UC San Diego and the National Science Foundation.<\/p>","protected":false},"featured_media":18969,"template":"","faculty":[67],"disease-research":[124],"class_list":["post-18965","disclosure","type-disclosure","status-publish","has-post-thumbnail","hentry","faculty-charles-f-stevens","disease-research-neuroscience-and-neurological-disorders"],"acf":[],"yoast_head":"\nWidespread connections among neurons help the brain distinguish smells - Salk Institute for Biological Studies<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/www.salk.edu\/zh\/news-release\/widespread-connections-among-neurons-help-brain-distinguish-smells\/\" \/>\n<meta property=\"og:locale\" content=\"zh_CN\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Widespread connections among neurons help the brain distinguish smells - Salk Institute for Biological Studies\" \/>\n<meta property=\"og:description\" content=\"LA JOLLA\u2014Can you tell the smell of a rose from the scent of a lilac? 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