2011
DOI: 10.1073/pnas.1107770108
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G protein Gαo is essential for vomeronasal function and aggressive behavior in mice

Abstract: The rodent vomeronasal organ (VNO) mediates the regulation of species-specific and interspecies social behaviors. We have used gene targeting to examine the role of the G protein Gαo, encoded by the gene Gnao1, in vomeronasal function. We used the Cre-loxP system to delete Gαo in those cells that express olfactory marker protein, which includes all vomeronasal sensory neurons of the basal layer of the VNO sensory epithelium. Using electrophysiology and calcium imaging, we show that the conditional null mice ex… Show more

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Cited by 176 publications
(235 citation statements)
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“…We used acute VNO tissue slices of B6 mice and high-resolution confocal microscopy to image cellular Ca 2 þ responses to peptide or urine stimulation 21,23,48 . Our previous findings have already established that synthetic MHC peptides are powerful ligands for V2R-expressing VSNs located in the Gao-expressing layer of the VNO 21,23,24 , that a given peptide is detected by more than one V2R receptor 23 and that single amino-acid exchanges within peptides can be distinguished by VSNs 23 . Here, we asked whether individual VSNs are capable of detecting SIINFEKL at relevant concentrations.…”
Section: Article Nature Communications | Doi: 101038/ncomms2610mentioning
confidence: 95%
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“…We used acute VNO tissue slices of B6 mice and high-resolution confocal microscopy to image cellular Ca 2 þ responses to peptide or urine stimulation 21,23,48 . Our previous findings have already established that synthetic MHC peptides are powerful ligands for V2R-expressing VSNs located in the Gao-expressing layer of the VNO 21,23,24 , that a given peptide is detected by more than one V2R receptor 23 and that single amino-acid exchanges within peptides can be distinguished by VSNs 23 . Here, we asked whether individual VSNs are capable of detecting SIINFEKL at relevant concentrations.…”
Section: Article Nature Communications | Doi: 101038/ncomms2610mentioning
confidence: 95%
“…This immunological signature must be interpreted by the olfactory system. It is now well established that, in freely behaving mice, nonvolatile peptides gain access to sensory neurons of both the main olfactory system and the VNO during behavioural situations involving direct physical contact 21,22 , that such peptides are powerful ligands for subsets of vomeronasal and olfactory sensory neurons [21][22][23][24][25] (VSNs and OSNs, respectively), that they induce brain activity downstream from the sensory neurons in vivo 26 , and that synthetic MHC peptide ligands can be discriminated in social preference tests 22 and influence social learning and reproductive function in the context of the Bruce effect test 21 . However, it is important to note that there is also considerable evidence for the use of MHC-independent, individual identity signatures in mice in specific behavioural contexts 27,28 (but see the discussion in Ruff et al 29 ).…”
mentioning
confidence: 99%
“…This is further supported by behavioural analysis of specific mutants for the G proteins associated to these receptors, namely Gi2 for V1R and Go for V2R (see Fortes-Marco et al, 2013), which differ in their  subunit. In relation to V2R-mediated chemoreception, Go mutants (Chamero et al, 2011) show reduced intermale and maternal aggression. In addition, Loconto et al (2003) analysed a mouse mutant line knockout for β2-microglobulin (generated by Zijlstra et al, 1990), a protein expressed in vomeronasal neurons where it contributes to escort V2R to the cell surface.…”
Section: Role Of the Vomeronasal And Olfactory Epithelia On Aggressionmentioning
confidence: 99%
“…This suggests that, simultaneous signalling through both V1R and V2R receptors is required for the expression of aggression. When one or the other vomeronasal subsystems fails, no aggression is expressed (Chamero et al, 2011). Importantly, AC3 -/-dams do not show maternal aggression (Wang and Storm, 2011).…”
Section: Accepted M Manuscriptmentioning
confidence: 99%
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