Evolution of nasal and olfactory infection characteristics of SARS-CoV-2 variants
Mengfei Chen, Andrew Pekosz, Jason S. Villano, Wenjuan Shen, Ruifeng Zhou, Heather Kulaga, Zhexuan Li, Amy Smith, Asiana Gurung, Sarah E. Beck, Kenneth W. Witwer, Joseph L. Mankowski, Murugappan Ramanathan Jr, Nicholas R. Rowan, Andrew P. Lane
Mengfei Chen, Andrew Pekosz, Jason S. Villano, Wenjuan Shen, Ruifeng Zhou, Heather Kulaga, Zhexuan Li, Amy Smith, Asiana Gurung, Sarah E. Beck, Kenneth W. Witwer, Joseph L. Mankowski, Murugappan Ramanathan Jr, Nicholas R. Rowan, Andrew P. Lane
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Research Article Neuroscience

Evolution of nasal and olfactory infection characteristics of SARS-CoV-2 variants

Abstract

SARS-CoV-2 infection of the upper airway and the subsequent immune response are early, critical factors in COVID-19 pathogenesis. By studying infection of human biopsies in vitro and in a hamster model in vivo, we demonstrated a transition in nasal tropism from olfactory to respiratory epithelium as the virus evolved. Analyzing each variant revealed that SARS-CoV-2 WA1 or Delta infect a proportion of olfactory neurons in addition to the primary target sustentacular cells. The Delta variant possessed broader cellular invasion capacity into the submucosa, while Omicron displayed enhanced nasal respiratory infection and longer retention in the sinonasal epithelium. The olfactory neuronal infection by WA1 and the subsequent olfactory bulb transport via axon were more pronounced in younger hosts. In addition, the observed viral clearance delay and phagocytic dysfunction in aged olfactory mucosa were accompanied by a decline of phagocytosis-related genes. Further, robust basal stem cell activation contributed to neuroepithelial regeneration and restored ACE2 expression postinfection. Together, our study characterized the nasal tropism of SARS-CoV-2 strains, immune clearance, and regeneration after infection. The shifting characteristics of viral infection at the airway portal provide insight into the variability of COVID-19 clinical features, particularly long COVID, and may suggest differing strategies for early local intervention.

Authors

Mengfei Chen, Andrew Pekosz, Jason S. Villano, Wenjuan Shen, Ruifeng Zhou, Heather Kulaga, Zhexuan Li, Amy Smith, Asiana Gurung, Sarah E. Beck, Kenneth W. Witwer, Joseph L. Mankowski, Murugappan Ramanathan Jr, Nicholas R. Rowan, Andrew P. Lane

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Figure 7

Age-associated delay in viral clearance in olfactory mucosa.

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Age-associated delay in viral clearance in olfactory mucosa. (A) Coimmun...
(A) Coimmunostaining shows IBA1+ macrophages engulfing NP+ debris in hamster olfactory mucosa at 4dpi. (B) Representative image of IBA1 and cleaved caspase-3 costaining in hamster at 4 dpi. Arrowheads highlight the IBA1+ macrophages undergoing apoptosis. (C) Representative images showing IBA1 or NP staining in serial sections. Each panel combines 6 40× images acquired under tile scan mode. Young or old hamsters’ olfactory tissues were examined at 6dpi. (D and E) Quantification of IBA1+ (D) or NP+ (E) cells in hamster nasal olfactory lumen at 6dpi. Serial sections (C) from 4 different levels were quantified. (F) Violin plots showing the differentially expressed Clec4n (DECTIN-2) or Fpr2 in young and old macrophage/dendritic lineage. (G) Confocal images of IBA1 and DECTIN-2 costaining in mouse olfactory mucosa. Each data point represents an individual hamster sample (D and E, n = 3) or an individual cell (F). Statistical significance was determined by an unpaired 2-tailed t test. The white dotted line indicates the basement membrane. Scale bars: 20 μm (A, B, and G); 50 μm (C).