B. Dnate’ Baxter scite author profile

BackgroundUnderstanding viral infection of the olfactory epithelium is essential because smell loss can occur with coronavirus disease 2019 (COVID-19), caused by severe acute respiratory syndrome coronavirus clade 2 (SARS-CoV-2), and because the olfactory nerve is an important route of entry for viruses to the central nervous system. Specialized chemosensory epithelial cells that express the transient receptor potential cation channel subfamily M member 5 (TRPM5) are found throughout the airways and intestinal epithelium and are involved in responses to viral infection.ResultsHerein we performed deep transcriptional profiling of olfactory epithelial cells sorted by flow cytometry based on the expression of fluorescent protein markers for olfactory sensory neurons and TRPM5 in the mouse (Mus musculus). We find profuse expression of transcripts involved in inflammation, immunity and viral infection in TRPM5-expressing microvillous cells and olfactory sensory neurons. These cells express the Tmprss2 transcript that encodes for a serine protease that primes the SARS-CoV-2 spike protein before entry into host cells. Intranasal infection with herpes simplex virus type 1 (HSV-1) elicited a decrease in olfactory sensory neurons.ConclusionOur study provides new insights into a potential role for TRPM5-expressing cells in viral infection of the olfactory epithelium. We find that, as found for solitary chemosensory cells (SCCs) and brush cells in the airway epithelium, and for tuft cells in the intestine, the transcriptome of TRPM5-expressing microvillous cells and olfactory sensory neurons indicates that they are likely involved in the inflammatory response elicited by viral infection of the olfactory epithelium.

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Ca2+-Activated Cl− Channels of the ClCa Family Express in the Cilia of a Subset of Rat Olfactory Sensory Neurons

González‐Silva

Vera

Bono

et al. 2013

PLoS ONE

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The Ca2+-activated Cl− channel is considered a key constituent of odor transduction. Odorant binding to a specific receptor in the cilia of olfactory sensory neurons (OSNs) triggers a cAMP cascade that mediates the opening of a cationic cyclic nucleotide-gated channel (CNG), allowing Ca2+ influx. Ca2+ ions activate Cl− channels, generating a significant Cl− efflux, with a large contribution to the receptor potential. The Anoctamin 2 channel (ANO2) is a major constituent of the Cl− conductance, but its knock-out has no impairment of behavior and only slightly reduces field potential odorant responses of the olfactory epithelium. Likely, an additional Ca2+-activated Cl− channel of unknown molecular identity is also involved. In addition to ANO2, we detected two members of the ClCa family of Ca2+-activated Cl− channels in the rat olfactory epithelium, ClCa4l and ClCa2. These channels, also expressed in the central nervous system, may correspond to odorant transduction channels. Whole Sprague Dawley olfactory epithelium nested RT-PCR and single OSNs established that the mRNAs of both channels are expressed in OSNs. Real time RT-PCR and full length sequencing of amplified ClCa expressed in rat olfactory epithelium indicated that ClCa4l is the most abundant. Immunoblotting with an antibody recognizing both channels revealed immunoreactivity in the ciliary membrane. Immunochemistry of olfactory epithelium and OSNs confirmed their ciliary presence in a subset of olfactory sensory neurons. The evidence suggests that ClCa4l and ClCa2 might play a role in odorant transduction in rat olfactory cilia.

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Signatures for viral infection and inflammation in the proximal olfactory system in familial Alzheimer's disease

Bubak

Merle

Niemeyer

et al. 2023

Neurobiology of Aging

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Transcriptional profiling reveals potential involvement of microvillous TRPM5-expressing cells in viral infection of the olfactory epithelium

et al. 2021

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Background Understanding viral infection of the olfactory epithelium is essential because the olfactory nerve is an important route of entry for viruses to the central nervous system. Specialized chemosensory epithelial cells that express the transient receptor potential cation channel subfamily M member 5 (TRPM5) are found throughout the airways and intestinal epithelium and are involved in responses to viral infection. Results Herein we performed deep transcriptional profiling of olfactory epithelial cells sorted by flow cytometry based on the expression of mCherry as a marker for olfactory sensory neurons and for eGFP in OMP-H2B::mCherry/TRPM5-eGFP transgenic mice (Mus musculus). We find profuse expression of transcripts involved in inflammation, immunity and viral infection in TRPM5-expressing microvillous cells compared to olfactory sensory neurons. Conclusion Our study provides new insights into a potential role for TRPM5-expressing microvillous cells in viral infection of the olfactory epithelium. We find that, as found for solitary chemosensory cells (SCCs) and brush cells in the airway epithelium, and for tuft cells in the intestine, the transcriptome of TRPM5-expressing microvillous cells indicates that they are likely involved in the inflammatory response elicited by viral infection of the olfactory epithelium.

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B. Dnate’ Baxter

Transcriptional profiling reveals potential involvement of microvillous TRPM5-expressing cells in viral infection of the olfactory epithelium

Ca2+-Activated Cl− Channels of the ClCa Family Express in the Cilia of a Subset of Rat Olfactory Sensory Neurons

Signatures for viral infection and inflammation in the proximal olfactory system in familial Alzheimer's disease

Transcriptional profiling reveals potential involvement of microvillous TRPM5-expressing cells in viral infection of the olfactory epithelium

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