Long COVID: From olfactory dysfunctions to viral Parkinsonism

Pandey, Sanyukta; Bapat, Vibha; Abraham, Jancy Nixon; Abraham, Nixon M.

doi:10.1002/wjo2.175

World j. otorhinolaryngol.-head neck surg.

2024

DOI: 10.1002/wjo2.175

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Long COVID: From olfactory dysfunctions to viral Parkinsonism

Sanyukta Pandey,

Vibha Bapat,

Jancy Nixon Abraham

et al.

Abstract: Neurological and psychiatric complications continue to be a public health concern in long coronavirus disease 2019 (COVID‐19). This varies from olfactory dysfunctions such as parosmia to cognitive and emotional challenges. Historically, the surge of neurological disorders followed the viral pandemics, for example, the emergence of Encephalitis Lethargica after the outbreak of Spanish Influenza. During and after COVID‐19 infection, the problems associated with the sense of smell and the reports of affected olfa… Show more

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2024

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Cited by 2 publications

References 144 publications

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Mouse olfactory system acts as anemo-detector and -discriminator

Mahajan,

Tamboli,

Das

et al. 2024

Preprint

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Airflow detection while smelling is a fundamental requirement for olfaction, yet the mechanisms underlying such multimodal processing in the olfactory system remain unknown. We report here that mice can learn to accurately discriminate airflow with parallel processing of both mechanical and chemical stimuli revealed by modulated sniffing and refined calcium signaling in the olfactory bulb inhibitory network. Genetic perturbation of AMPAR function and optogenetic control bidirectionally shifted airflow discrimination learning pace, with contrasting phenotypes observed for odor learning, engagement of inhibitory circuits, and setting the optimal inhibition level for stimulus refinement. Multimodal odor-airflow stimuli at subthreshold levels enhanced learning, demonstrating that mechanical stimuli heighten olfactory perception. Our results, thus explain the multimodality of olfaction, and reveal an unexplored dimensionality of odor perception.

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Mouse olfactory system acts as anemo-detector and -discriminator

Mahajan,

Tamboli,

Das

et al. 2024

Preprint

View full text Add to dashboard Cite

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Synaptic inhibition in the accessory olfactory bulb regulates pheromone location learning and memory

Marathe,

Abraham

2024

Preprint

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Pheromone signaling is pivotal in driving social and reproductive behaviors of rodents. Learning and memorizing the pheromone locations involve olfactory subsystems. To study the neural basis of this behavior, we trained female heterozygous knockouts of GluA2 (AMPAR subunit) and NR1 (NMDAR subunit), targeting GAD65 interneuron population, in a pheromone place preference learning assay. We observed memory loss of pheromone locations on early and late recall periods, pointing towards the possible role of ionotropic glutamate receptors (iGluRs), and thereby the synaptic inhibition in pheromone location learning. Correlated changes were observed in the expression levels of activity-regulated cytoskeletal (Arc) protein, which is critical for memory consolidation, in the associated brain areas. Further, to probe the involvement of main olfactory bulb (MOB) and accessory olfactory bulb (AOB) in pheromone location learning, we knocked out NR1 and GluA2 from MOB and/or AOB neuronal circuits by stereotaxic injection of Cre-dependent AAV5 viral particles. Perturbing the inhibitory circuits of MOB and AOB & AOB-alone resulted in the loss of pheromone location memory. These results confirm the role of iGluRs and the synaptic inhibition exerted by the interneuron network of AOB in regulating learning and memory of pheromone locations.

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Long COVID: From olfactory dysfunctions to viral Parkinsonism

Cited by 2 publications

References 144 publications

Mouse olfactory system acts as anemo-detector and -discriminator

Mouse olfactory system acts as anemo-detector and -discriminator

Synaptic inhibition in the accessory olfactory bulb regulates pheromone location learning and memory

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