茄子直播 researchers uncover new connection between smell and memory
Neurobiologists at the University of Toronto have identified a mechanism that allows the brain to recreate vivid sensory experiences from memory, shedding light on how sensory-rich memories are created and stored in our brains.
Using smell as a model, the findings offer a novel perspective on how the senses are represented in memory, and could explain why the loss of the ability to smell has become recognized as an early symptom of Alzheimer鈥檚 disease.
鈥淥ur findings demonstrate for the first time how smells we鈥檝e encountered in our lives are recreated in memory,鈥 said Afif Aqrabawi, a PhD candidate in the department of cell and systems biology in the Faculty of Arts & Science at 茄子直播, and lead author of .
鈥淚n other words, we鈥檝e discovered how you are able to remember the smell of your grandma鈥檚 apple pie when walking into her kitchen.鈥
There is a strong connection between memory and olfaction 鈥 the process of smelling and recognizing odours 鈥 owing to their common evolutionary history. Examining this connection in mice, Aqrabawi and graduate supervisor Junchul Kim, an assistant professor in the department of psychology at 茄子直播, found that information about space and time integrate within a region of the brain important for the sense of smell 鈥 yet poorly understood 鈥 known as the anterior olfactory nucleus (AON).
鈥淲hen these elements combine, a what-when-where memory is formed,鈥 said Aqrabawi. This is why, for example, you might have the ability to remember the smell of a lover鈥檚 perfume (the what) when you reminisce about your first kiss (the when and where).
Curious about the function of the anterior olfactory nucleus, Aqrabawi and Kim designed a series of tests to exploit the preference of mice to sniff new odours.
鈥淭hey prefer to spend more time smelling a new odour than one that鈥檚 familiar to them,鈥 said Aqrabawi. 鈥淲hen they lose this preference, it鈥檚 implied they no longer remember the smell even though they have sniffed it before, so they continue to smell something as if for the first time.鈥
In the course of examining the structure and function of the AON, the researchers uncovered a previously unknown neural pathway between it and the hippocampus 鈥 a structure critical for memory and contextual representation, and highly implicated in Alzheimer鈥檚 disease. They found they could mimic the odour memory problems seen in Alzheimer鈥檚 patients by disconnecting communication between the hippocampus and the AON.
Whereas the mice whose hippocampus-AON connection was left intact refrained from returning to familiar locations to sniff odours that were no longer novel, those with a disconnected pathway returned to sniff previously smelled odours for longer periods of time. Replicating early degeneration of the AON demonstrated the inability of the when-where context to complete the function and provide the what of the odour memory.
鈥淚t demonstrates that we now understand which circuits in the brain govern the episodic memory for smell. The circuit can now be used as a model to study fundamental aspects of human episodic memory and the odour memory deficits seen in neurodegenerative conditions,鈥 said Aqrabawi.
There is a vast body of work that reports olfactory dysfunction 鈥 particularly olfactory memory loss 鈥 as symptoms of the onset of Alzheimer鈥檚 disease. Such deficits in the ability to recognize odours precede the cognitive decline and are correlated with the degree of illness.
The AON has a well-documented involvement in Alzheimer鈥檚 disease but not much else is known about its function. It has consistently been reported to be among the earliest sites of neurodegeneration including the formation of neurofibrillary tangles, which are abnormal proteins found in Alzheimer鈥檚 patients.
Because of this, smell tests are now used in the hopes of detecting the early onset of Alzheimer鈥檚, yet they are imperfectly designed since the underlying cause of the olfactory problems remains unknown.
鈥淕iven the early degeneration of the AON in Alzheimer鈥檚 disease, our study suggests that the odour deficits experienced by patients involve difficulties remembering the 鈥榳hen鈥 and 鈥榳here鈥 odours were encountered,鈥 said Kim.
The researchers say that with a better understanding of the neural circuits underlying odour memory, tests that directly and effectively examine the proper functioning of these circuits can be developed.
鈥淪uch tests might be more sensitive to detecting problems than if patients were prompted to remember an odour itself,鈥 said Kim. 鈥淭he motivation to develop them is high due to their quick, cheap, and easy administration.鈥
The findings are described in the study 鈥淗ippocampal projections to the anterior olfactory nucleus differentially convey spatiotemporal information during episodic odour memory,鈥 published this month in Nature Communications. Support for the research was provided by the Canadian Institutes for Health Research and the Natural Sciences and Engineering Research Council of Canada.