Histological and Immunohistochemical Characterization of Vomeronasal Organ Aging in Mice

Mechin, Violaine; Pageat, Patrick; Teruel, Eva; Asproni, Pietro

doi:10.3390/ani11051211

Cited by 11 publications

(19 citation statements)

References 43 publications

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“…1 ). Our findings are consistent with two previous studies (Brann and Firestein, 2010, Mechin et al, 2021), which reported an overall thinning of the vomeronasal sensory epithelium (Mechin et al, 2021) and reduced VSE neurogenesis in the marginal zone of 2-year-old animals (Brann and Firestein, 2010). Here, we expand the current knowledge with novel information from a commonly used AD animal model (APP/PS1 Het ), revealing an unexpected preservation of the VSE proliferative capabilities in middle age APP/PS1 Het mice.…”

Section: Discussionsupporting

confidence: 93%

“…Whereas the VSE of APP/PS1 Het mice maintained fairly stable neurogenic capabilities, senescent wild type animals showed a significant reduction in proliferative and stem cells (PCNA + and Sox2 + VSE cells) (Figure 2) which may explain the reduction of mature OMP + neurons, sustentacular Sox2 + cells and VSE volume (Figure 1 and Supplementary Figure 1). Our findings are consistent with two previous studies directly exploring the effects of natural aging in the VSE (Brann and Firestein, 2010;Mechin et al, 2021), which reported an overall thinning of the vomeronasal sensory epithelium (Mechin et al, 2021) and reduced VSE neurogenesis in 2-year-old animals (Brann and Firestein, 2010). Here, we expand this current knowledge by providing novel information on the properties of the VSE in a commonly used animal model of AD (APP/PS1 Het ), revealing an unexpected preservation of the organ and its proliferative capabilities in middle age APP/PS1 Het mice.…”

Section: Discussionsupporting

confidence: 93%

“…An elegant study by Brann and Firestein (2010) showed that the proliferative capacity of the VSE of 2-year-old animals was attenuated in comparison to young animals. More recently, Mechin et al, (2021) explored the effects of natural aging on VSE cell proliferation, finding a significant reduction in mature Olfactory Marker Protein (OMP)-expressing cells (OMP + ), indicating structural modifications of the aged VNO. However, whether these alterations in the aged VSE have any impact in odor detection and subsequent display of social behaviors, particularly in animal models of neurodegeneration, is currently unclear.…”

Section: Introductionmentioning

confidence: 99%

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Natural and pathological aging distinctively impact the vomeronasal detection system and social behavior

Portalés

Chamero

Jurado

2022

Preprint

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Normal aging and many age-related diseases such as Alzheimer disease cause deficits in olfaction, however it is currently unknown how natural and pathological aging impact the detection of social odors which might contribute to the impoverishment of social behavior at old age further worsening overall health. Here, we investigated the effect of aging in the recognition of social cues and the display of social behavior. Our findings indicate that aging distinctively disrupts the processing of social olfactory cues decreasing social odor exploration, discrimination and habituation in both wild type senescent (2-year-old) mice and in 1-year-old double mutant model of Alzheimer disease (APP/PS1). Furthermore, social novelty was diminished in 1-year-old APP/PS1 mice, indicating that alterations in the processing of social cues are accelerated during pathological aging. Analysis of the vomeronasal organ, the main gateway to pheromone-encoded information, indicated that natural and pathological aging distinctively reduce the neurogenic ability of the vomeronasal sensory epithelium. Cell proliferation remained majorly preserved in 1-year model of Alzheimer disease (APP/PS1), whereas naturally aged animals exhibited significant deficiencies in the number of mature, proliferative and progenitor cells. This study reveals fundamental differences in the cellular processes by which natural and pathological aging disrupt the exploration of social cues and social behavior.

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Section: Discussionsupporting

confidence: 93%

Section: Discussionsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Natural and pathological aging distinctively impact the vomeronasal detection system and social behavior

Portalés

Chamero

Jurado

2022

Preprint

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“…1). Our findings are consistent with two previous studies (Brann andFirestein, 2010, Mechin et al, 2021), which reported an overall thinning of the vomeronasal sensory epithelium (Mechin et al, 2021) and reduced VSE neurogenesis in the marginal zone of 2-year-old animals (Brann and Firestein, 2010). Here, we provide novel information from a commonly used AD animal model (APP/PS1 Het ), revealing an unexpected preservation of the VSE proliferative capabilities in middle age APP/PS1 Het mice.…”

Section: Discussionsupporting

confidence: 93%

Natural and pathological aging distinctively impact the pheromone detection system and social behavior

Montes

Chamero

Jurado

2022

Preprint

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Background: Normal aging and many age-related disorders such as Alzheimer´s disease cause deficits in olfaction, however it is currently unknown how natural and pathological aging impact the detection of social odors which might contribute to the impoverishment of social behavior at old age further worsening overall health. Here, we investigated the effect of aging in the recognition of social cues and the display of social behavior. Methods: Social and non-social scents were employed to discern the specific impact of aging and neurodegeneration in social odor perception. Odor-evoked sniffing tests were employed to estimate the exploration time in response to social and non-social odors in naturally aged animals (up to 2-year-old senescent mice) and an animal model of Alzheimer´s disease (APP/PS1). Social habituation-dishabituation tests were adapted to determine short- and long-term social discrimination, the effect of previous experience in social recognition and potential disruptions of self-awareness. Sociability and social novelty were analyzed by a three chamber test. Mature (OMP) and proliferating (Sox2, PCNA) neurons in the vomeronasal organ were analyzed by immunostaining and stereology during healthy and pathological aging. Results: Our findings indicate that aging distinctively disrupts the processing of social olfactory cues decreasing social odor exploration, discrimination and habituation in both wild type senescent (2-year-old) mice and in 1-year-old double mutant model of Alzheimer´s disease (APP/PS1). Furthermore, social novelty was diminished in 1-year-old APP/PS1 mice, indicating that alterations in the processing of social cues are accelerated during pathological aging. Analysis of the vomeronasal organ, the main gateway to pheromone-encoded information, indicated that natural and pathological aging distinctively affect the neurogenic ability of the vomeronasal sensory epithelium. Whereas cell proliferation remained majorly preserved in 1-year-old APP/PS1 mice, naturally aged animals exhibited significant deficiencies in the number of mature, proliferative and progenitor cells. Conclusions: This study reveals fundamental differences in the cellular processes by which natural and pathological aging disrupt the exploration of social information and social behavior.

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“…In mice, the VNO cells were shown as the Pseudorabies virus infection after experimental intranasal inoculation [14]. More recently, always in mice, the degenerative changes induced by the ageing process were characterized [15]. Finally, the relationship between vomeronasalitis and intraspecific aggressive disorders in domestic cats has been described [16], and it is the only report that links VNO spontaneous alterations to animal behavioural changes.…”

Section: Introductionmentioning

confidence: 99%

Is There a Link between Vomeronasalitis and Aggression in Stable Social Groups of Female Pigs?

Asproni

Mainau

Cozzi

et al. 2022

Animals

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The vomeronasal organ (VNO) is a bilateral chemosensory structure strongly involved in animal behaviour, thanks to its sensory epithelium (VNSE) that detects pheromones. Experimental VNO lesions can impair social, reproductive and maternal behaviour, while feline spontaneous vomeronasalitis has been associated with aggression. This study aimed to describe vomeronasalitis in farm pigs and explore its association with intraspecific behavioural alterations. Using 38 six-month-old pigs, the skin lesion score based on Welfare Quality® protocols was obtained during the fattening period. The seventy-six VNOs from these pigs were stained in haematoxylin-eosin for histological examinations. VNSE inflammation was classified considering its intensity. Skin lesions data were compared to vomeronasalitis. There were 34% of pigs that showed unilateral VNSE inflammation, while 66% were bilaterally affected. The mean ± SD number of skin lesions/animal was 4.4 ± 2.82, and 34% of pigs scored 1 (moderately wounded animals) at least once during the fattening period. Statistical analysis showed an association between bilateral vomeronasalitis and skin lesion score (p < 0.05) and between bilateral moderate vomeronasalitis and skin lesions number (p < 0.01). This is the first report linking vomeronasalitis to social life in farm animals. Considering the role of social life in animal welfare, our data opens a research field linking pathology to animal behaviour.

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Histological and Immunohistochemical Characterization of Vomeronasal Organ Aging in Mice

Cited by 11 publications

References 43 publications

Natural and pathological aging distinctively impact the vomeronasal detection system and social behavior

Natural and pathological aging distinctively impact the vomeronasal detection system and social behavior

Natural and pathological aging distinctively impact the pheromone detection system and social behavior

Is There a Link between Vomeronasalitis and Aggression in Stable Social Groups of Female Pigs?

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