Mechanism Revealed Behind Loss of Smell with COVID-19 – NYU Langone Health

Researchers have discovered a mechanism that may explain why people with COVID-19 lose their sense of smell.

Published online February 1 in the journal Cell, the new study finds that infection with the pandemic virus, SARS-CoV-2, indirectly dials down the action of olfactory receptors, proteins on the surfaces of nerve cells in the nose that detect the molecules associated with odors.

Led by researchers from NYU Grossman School of Medicine and Columbia University, the new study may also shed light on the effects of COVID-19 on other types of brain cells and other lingering neurological effects of COVID-19 such as brain fog, headaches, and depression.

Experiments showed that the presence of the virus near nerve cells (neurons) in olfactory tissue brought an inrushing of immune cells, microglia, and T cells that sense and counter infection. Such cells release proteins called cytokines that changed the genetic activity of olfactory nerve cells, even though the virus cannot infect them, say the study authors. Where immune cell activity would dissipate quickly in other scenarios, in the brain, according to the teams theory, immune signaling persists in a way that reduces the activity of genes needed for the building of olfactory receptors.

Our findings provide the first mechanistic explanation of smell loss in COVID-19 and how this may underlie long COVID-19 biology, says co-corresponding author Benjamin tenOever, PhD, professor in the Departments of Medicine and Microbiology at NYU Langone Health. The work, in addition to another study from the tenOever group, also suggests how the pandemic virus, which infects less than 1 percent of cells in the human body, can cause such severe damage in so many organs.

One unique symptom of COVID-19 infection is loss of smell without the stuffy nose seen with other infections like the common cold, researchers say. In most cases, the smell loss lasts only a few weeks, but for more than 12 percent of people with COVID-19, olfactory dysfunction persists in the form of ongoing reduction in the ability to smell (hyposmia) or changes in how a person perceives the same smell (parosmia).

To gain insight into COVID-19induced smell loss, the current authors explored the molecular consequences of SARS-CoV-2 infection in golden hamsters and in olfactory tissue taken from 23 human autopsies. Hamsters represent a good model, being mammals that both depend more on the sense of smell than humans, and that are more susceptible to nasal cavity infection.

The study results build on the discovery over many years that the process that turns on genes involves complex 3D relationships, where DNA sections become more or less accessible to the cells gene-reading machinery based on key signals, and where some DNA chains loop around to form long-range interactions that enable the stable reading of genes. Some genes operate in chromatin compartmentsprotein complexes that house the genesthat are open and active, while others are compacted and closed, as part of the nuclear architecture.

In the current study, experiments confirmed that SARS-CoV-2 infection, and the immune reaction to it, decreases the ability of DNA chains in chromosomes that influence the formation of olfactory receptor building to be open and active, and to loop around to activate gene expression. In both hamster and human olfactory neuronal tissue, the research team detected persistent and widespread downregulation of olfactory receptor building. Other work posted by these authors suggests that olfactory neurons are wired into sensitive brain regions, and that ongoing immune cell reactions in the nasal cavity could influence emotions, and the ability to think clearly (cognition), consistent with long COVID.

Experiments in hamsters recorded over time revealed that downregulation of olfactory neuron receptors persisted after short-term changes that might affect the sense of smell had naturally recovered. The authors say this suggests that COVID-19 causes longer-lasting disruption in chromosomal regulation of gene expression, representing a form of nuclear memory that could prevent the restoration of olfactory receptor transcription even after SARS-CoV-2 is cleared.

The realization that the sense of smell relies on fragile genomic interactions between chromosomes has important implications, says Dr. tenOever. If olfactory gene expression ceases every time the immune system responds in certain ways that disrupts inter-chromosomal contacts, then the lost sense of smell may act as the canary in the coal mine, providing early signals that the COVID-19 virus is damaging brain tissue before other symptoms present, and suggesting new ways to treat it.

In a next step, the team is presently seeing whether treating hamsters with long COVID with steroids can restore restrain damaging immune reactions (inflammation) to protect nuclear architecture.

Along with Dr. tenOever, authors of the current study from the Department of Microbiology at NYU Langone Health were Justin Frere, Rasmus Moeller, Skyler Uhl, and Daisy Hoagland. Also leading the study were corresponding authors Jonathan Overdevest and Stavros Lomvardas from the Mortimer B. Zuckerman Mind Brain Behavior Institute at Columbia University. Additional contributors included Marianna Zazhytska, Albana Kodra, Hani Shayya, Stuart Firestein, Peter Canoll, and James Goldman. Also making important contributions were study authors John Fullard and Panos Roussos of the Icahn School of Medicine at Mt. Sinai; Arina Omer of Baylor Genetics in Houston; and Qizhi Gong of the Department of Cell Biology and Human Anatomy, School of Medicine, University of California at Davis.

Funding for the study was provided by National Institutes of Health grants NIDCD 3R01DC018744-01S1 and U01DA052783, as well as a Howard Hughes Medical Institute Faculty Scholars award and the Zegar Family Foundation.

Greg WilliamsPhone: 212-404-3500gregory.williams@nyulangone.org

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Mechanism Revealed Behind Loss of Smell with COVID-19 - NYU Langone Health

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