AI Article Synopsis
- The gene encodes a G-protein-coupled olfactory receptor, Olfr78, which is expressed in carotid body glomus cells that help regulate breathing in response to low oxygen levels.
- Despite proposals suggesting that Olfr78 acts as a lactate receptor involved in the hypoxic ventilatory response, research indicates it may not be physiologically relevant, as knockout mice exhibit normal breathing responses.
- Conditional knockout studies reveal that while Olfr78 is not essential for oxygen sensing, it plays a crucial role in the maturation and function of glomus cells, affecting their molecular and neurosecretory activity.
Article Abstract
The gene encodes a G-protein-coupled olfactory receptor that is expressed in several ectopic sites. is one of the most abundant mRNA species in carotid body (CB) glomus cells. These cells are the prototypical oxygen (O) sensitive arterial chemoreceptors, which, in response to lowered O tension (hypoxia), activate the respiratory centers to induce hyperventilation. It has been proposed that Olfr78 is a lactate receptor and that glomus cell activation by the increase in blood lactate mediates the hypoxic ventilatory response (HVR). However, this proposal has been challenged by several groups showing that Olfr78 is not a physiologically relevant lactate receptor and that the O-based regulation of breathing is not affected in constitutive Olfr78 knockout mice. In another study, constitutive Olfr78 knockout mice were reported to have altered systemic and CB responses to mild hypoxia. To further characterize the functional role of Olfr78 in CB glomus cells, we here generated a conditional knockout mouse strain and then restricted the knockout to glomus cells and other catecholaminergic cells by crossing with a tyrosine hydroxylase-specific Cre driver strain (TH-Olfr78 KO mice). We find that TH-Olfr78 KO mice have a normal HVR. Interestingly, glomus cells of TH-Olfr78 KO mice exhibit molecular and electrophysiological alterations as well as a reduced dopamine content in secretory vesicles and neurosecretory activity. These functional characteristics resemble those of CB neuroblasts in wild-type mice. We suggest that, although Olfr78 is not essential for CB O sensing, activation of Olfr78-dependent pathways is required for maturation of glomus cells.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11065104 | PMC |
| http://dx.doi.org/10.1093/function/zqae010 | DOI Listing |
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