Expression of olfactory receptor genes in non-olfactory tissues in the developing and adult zebrafish

Since the discovery of olfactory receptor (OR) genes, their expression in non-olfactory tissues have been reported in rodents and humans. For example, mouse OR23 (mOR23) is expressed in sperm and muscle cells and has been proposed to play a role in chemotaxis and muscle migration, respectively. In a...

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Bibliographic Details
Published in:Scientific reports 2023-03, Vol.13 (1), p.4651-4651, Article 4651
Main Authors: Jundi, Dania, Coutanceau, Jean-Pierre, Bullier, Erika, Imarraine, Soumaiya, Fajloun, Ziad, Hong, Elim
Format: Article
Language:English
Subjects:
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Animals
Brain
Cancer
Cell migration
Chemotaxis
Danio rerio
Dopamine receptors
G protein-coupled receptors
Gene expression
Genes
Genomes
Habenula
Humanities and Social Sciences
Hybridization
Hypothalamus
Larvae
Life Sciences
Ligands
Male
Mesencephalon - metabolism
multidisciplinary
Odorant receptors
Olfactory Receptor Neurons - metabolism
Pharynx
Proteins
Receptors, Odorant - genetics
Receptors, Odorant - metabolism
Rodents
Science
Science (multidisciplinary)
Semen - metabolism
Sperm
Spermatozoa - metabolism
Tissues
Vertebrates
Zebrafish
Zebrafish - genetics
Zebrafish - metabolism
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Summary:Since the discovery of olfactory receptor (OR) genes, their expression in non-olfactory tissues have been reported in rodents and humans. For example, mouse OR23 (mOR23) is expressed in sperm and muscle cells and has been proposed to play a role in chemotaxis and muscle migration, respectively. In addition, mouse mesencephalic dopaminergic neurons express various ORs, which respond to corresponding ligands. As the OR genes comprise the largest multigene family of G protein-coupled receptors in vertebrates (over 400 genes in human and 1000 in rodents), it has been difficult to categorize the extent of their diverse expression in non-olfactory tissues making it challenging to ascertain their function. The zebrafish genome contains significantly fewer OR genes at around 140 genes, and their expression pattern can be easily analyzed by carrying out whole mount in situ hybridization (ISH) assay in larvae. In this study, we found that 31 out of 36 OR genes, including or104-2, or108-1, or111-1, or125-4, or128-1, or128-5, 133-4, or133-7, or137-3 are expressed in various tissues, including the trunk, pharynx, pancreas and brain in the larvae. In addition, some OR genes are expressed in distinct brain regions such as the hypothalamus and the habenula in a dynamic temporal pattern between larvae, juvenile and adult zebrafish. We further confirmed that OR genes are expressed in non-olfactory tissues by RT-PCR in larvae and adults. These results indicate tight regulation of OR gene expression in the brain in a spatial and temporal manner and that the expression of OR genes in non-olfactory tissues are conserved in vertebrates. This study provides a framework to start investigating the function of ORs in the zebrafish brain.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-30895-3