Learning improves decoding of odor identity with phase-referenced oscillations in the olfactory bulb

Losacco, Justin; Ramirez-Gordillo, Daniel; Gilmer, Jesse I.; Restrepo, Diego

doi:10.1101/758813

Cited by 8 publications

(28 citation statements)

References 97 publications

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“…This process is accompanied by gamma oscillations [ 121 ], including low (40–70 Hz) and high (70–100 Hz) gamma [ 88 ]. Besides gamma oscillations, phase-amplitude coupling was also reported to be involved in the processing of odor information [ 95 ]. Deficits in both OB gamma network oscillations and phase-amplitude coupling were found in aging and AD mice [ 2 – 4 , 12 ].…”

Section: Ad-related Olfactory Deficits Are Recapitulated In Mouse Modmentioning

confidence: 99%

Olfactory impairment in men and mice related to aging and amyloid-induced pathology

Tzeng

Figarella

Garaschuk

2021

Pflugers Arch - Eur J Physiol

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Olfaction, or the sense of smell, is one of the most ancient senses in men and mice, important for a large variety of innate and acquired behaviors. Clinical data reveal an early impairment of olfaction during normal aging and in the course of neurodegenerative diseases, but the underlying cellular/molecular mechanisms remain obscure. In the current review, we compare different aspects of the aging- and Alzheimer’s disease related impairment of olfaction in men and mice, aiming at the identification of common morbidities and biomarkers, which can be analyzed in detail in the appropriate mouse models. We also identify common, often interdependent (patho)physiological pathways, including but not limited to extracellular amyloid depositions, neuroinflammation, ɛ4 allele of the apolipoprotein E, CNS insulin resistance, and the impairment of adult neurogenesis, to be targeted by basic and clinical research.

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Section: Ad-related Olfactory Deficits Are Recapitulated In Mouse Modmentioning

confidence: 99%

Olfactory impairment in men and mice related to aging and amyloid-induced pathology

Tzeng

Figarella

Garaschuk

2021

Pflugers Arch - Eur J Physiol

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“…33 Oscillations recorded from the OB contain crucial information on chemical properties of the odour and as well as odour identity encoding during olfactory learning. 34,35 Thus, we next compared the LFP signals in awake mice before and after direct application of oxytocin into the OB. The raw LFP signals were divided into theta (2-12 Hz), beta , low gamma (36-65 Hz) and high gamma (66-95 Hz) bands (Figure 4A).…”

Section: Oxytocin Decreases the Amplitude Of Odour-evoked High Gammmentioning

confidence: 99%

Oxytocin modulates neural processing of mitral/tufted cells in the olfactory bulb

Sun

Yin

et al. 2021

Acta Physiologica

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Aim Oxytocin plays an important role in social recognition in rodents, which is mediated predominantly by the olfactory system. Although oxytocin modulates neural activity in the olfactory bulb, the underlying mechanism is largely unknown. Here, we studied how direct infusion of oxytocin into the olfactory bulb affect social interactions in mice and modulate the neural activity of mitral/tufted cells in the olfactory bulb. Methods A three‐chamber social interaction test was used in the behavioural test. For in vivo studies, single unit recordings, local field potential recordings and fibre photometry recordings were used to record the neural activity of olfactory bulb. For in vitro studies, we performed patch clamp recordings in the slice of the olfactory bulb. Results Behaviourally, direct oxytocin infusion in olfactory bulb increased performance in a social interaction task. Moreover, odour‐evoked responses of mitral/tufted cells and neural discrimination of odours were both enhanced by oxytocin, whereas the spontaneous firing rate of mitral/tufted cells was reduced. At the neural network level, oxytocin decreased the amplitude of odour‐evoked high gamma responses. At the cell population level, oxytocin decreased odour‐evoked calcium responses (reflecting neural activity) specifically in granule cells. Moreover, in vitro slice recordings revealed that the inhibitory effect of oxytocin on mitral cell activity is mediated mainly by modulation of ATP‐sensitive potassium channels and involves the oxytocin receptor–Gq–PLC–IP3 signalling pathway. Conclusion Oxytocin modulates social interaction, likely by increasing the signal‐to‐noise ratio of odour responses in mitral cells which is partly through ATP‐sensitive potassium channel.

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“…Different functional roles have been attributed to PAC, including sensory signal detection (Händel and Haarmeier 2009), executive functions (Tort et al 2009), and attentional selection (Schroeder and Lakatos 2009). Specifically for olfaction, it has recently been demonstrated that PAC in the OB shapes early sensory processing in mice (Losacco et al 2020). Given this, we examined PAC between beta and gamma oscillation within the OB and its relation to the processing of the individual's odor valence using RSA.…”

Section: Early Phase Amplitude Coupling Between Beta and Gamma In Obmentioning

confidence: 99%

The human olfactory bulb process odor valence representation and initiate motor avoidance behavior

Iravani

Schaefer

Wilson

et al. 2021

Preprint

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Determining the valence of an odor to provide information to guide rapid approach-avoidance behavior is thought to be one of the core tasks of the olfactory system, yet little is known of its initial neural mechanisms or subsequent behavioral manifestation in humans. In two experiments, we measured the functional processing of odor valence perception in the human olfactory bulb (OB)—the first processing stage of the olfactory system—using a non-invasive method as well as assessed subsequent motor avoidance response. We demonstrate that odor valence perception is associated with both gamma and beta activity in the human OB. Moreover, we show that negative, but not positive, odors initiate an early beta response in the OB, a response that is linked to a preparatory neural motor response in motor cortex. Finally, in a separate experiment we show that negative odors trigger a full-body motor avoidance response, manifested as a rapid leaning away from the odor, in the time period predicted by the OB results. Taken together, these results demonstrate that the human OB processes odor valence in a sequential manner in both the gamma and beta frequency bands and suggest that early processing of unpleasant odors in the OB might underlie rapid approach-avoidance decisions.

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Learning improves decoding of odor identity with phase-referenced oscillations in the olfactory bulb

Cited by 8 publications

References 97 publications

Olfactory impairment in men and mice related to aging and amyloid-induced pathology

Olfactory impairment in men and mice related to aging and amyloid-induced pathology

Oxytocin modulates neural processing of mitral/tufted cells in the olfactory bulb

The human olfactory bulb process odor valence representation and initiate motor avoidance behavior

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