Publications by authors named "Sebastian A Wellford"
The olfactory mucosa is important for both the sense of smell and as a mucosal immune barrier to the upper airway and brain. However, little is known about how the immune system mediates the conflicting goals of neuronal maintenance and inflammation in this tissue. A number of immune cell populations reside within the olfactory mucosa and yet we have little understanding of how these resident olfactory immune cells functionally interact with the chemosensory environment.
View Article and Find Full Text PDFEffective high-affinity, long-term humoral immunity requires T cell help provided by a subset of differentiated CD4 T cells known as T follicular helper (Tfh) cells. Classically, Tfh cells provide contact-dependent help for the generation of germinal centers (GCs) in secondary lymphoid organs (SLOs). Recent studies have expanded the conventional definition of Tfh cells, revealing new functions, new descriptions of Tfh subsets, new factors regulating Tfh differentiation, and new roles outside of SLO GCs.
View Article and Find Full Text PDFNumerous pathogens can infect the olfactory tract, yet the pandemic caused by SARS-CoV-2 has strongly emphasized the importance of the olfactory mucosa as an immune barrier. Situated in the nasal passages, the olfactory mucosa is directly exposed to the environment to sense airborne odorants; however, this also means it can serve as a direct route of entry from the outside world into the brain. As a result, olfactotropic infections can have serious consequences, including dysfunction of the olfactory system, CNS invasion, dissemination to the lower respiratory tract, and transmission between individuals.
View Article and Find Full Text PDFThe olfactory mucosa is a component of the nasal airway that mediates the sense of smell. Recent studies point to an important role for the olfactory mucosa as a barrier to both respiratory pathogens and to neuroinvasive pathogens that hijack the olfactory nerve and invade the CNS. In particular, the COVID-19 pandemic has demonstrated that the olfactory mucosa is an integral part of a heterogeneous nasal mucosal barrier critical to upper airway immunity.
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- - Olfactory immunology studies the immune responses in the olfactory system, especially in relation to infectious diseases and neuroimmunology, but specific data on immune cells in mouse olfactory mucosa is limited.
- - To overcome challenges in differentiating olfactory-resident immune cells from others, researchers have developed methods using intranasal antibody labeling, flow cytometry, and immunofluorescent confocal microscopy.
- - The protocol outlines best practices for these techniques, describes how intravenous antibody labeling can help investigate the blood-olfactory barrier, and provides validated markers to identify key olfactory immune populations.
Article Synopsis
- * In a study of olfactory tissue from patients with long-lasting smell loss, researchers found a persistent inflammatory response characterized by T cell infiltration and changes in myeloid cell populations.
- * The findings suggest that even after the virus is cleared, inflammation in the olfactory epithelium may cause ongoing dysfunction of smell receptors, potentially explaining why some patients continue to struggle with olfactory issues post-COVID-19.
While blood antibodies mediate protective immunity in most organs, whether they protect nasal surfaces in the upper airway is unclear. Using multiple viral infection models in mice, we found that blood-borne antibodies could not defend the olfactory epithelium. Despite high serum antibody titers, pathogens infected nasal turbinates, and neurotropic microbes invaded the brain.
View Article and Find Full Text PDFMost human subjects infected by SARS-CoV-2 report an acute alteration in their sense of smell, and more than 25% of COVID patients report lasting olfactory dysfunction. While animal studies and human autopsy tissues have suggested mechanisms underlying acute loss of smell, the pathophysiology that underlies persistent smell loss remains unclear. Here we combine objective measurements of smell loss in patients suffering from post-acute sequelae of SARS-CoV-2 infection (PASC) with single cell sequencing and histology of the olfactory epithelium (OE).
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- Presbyosmia, or age-related loss of smell, impacts many individuals over 65 and is linked to damage in the olfactory epithelium, though its mechanisms remain unclear and lack treatment options.
- The study utilized various methods, including biopsies and single-cell RNA sequencing, to investigate cellular changes in the olfactory epithelium of older adults, revealing inflammation-related alterations in stem cells that affect their ability to function properly.
- Findings suggest that these inflammatory changes in olfactory epithelium stem cells could be a key factor in the development of presbyosmia, indicating they may serve as a potential target for therapeutic interventions to restore sense of smell.
Influenza viruses initiate infection in the upper respiratory tract (URT), but early viral tropism and the importance of cell-type-specific antiviral responses in this tissue remain incompletely understood. By infecting transgenic lox-stop-lox reporter mice with a Cre-recombinase-expressing influenza B virus, we identify olfactory sensory neurons (OSNs) as a major viral cell target in the URT. These cells become infected, then eliminate the virus and survive in the host post-resolution of infection.
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