Vomeronasal signal deficiency enhances parental behavior in socially isolated male mice.

We previously reported that social isolation promotes parental care in sexually naïve male mice. This effect was blocked by exposure to chemosensory and auditory social signals derived from males in an adjacent compartment. In the present study, we examined whether the chemosensory signals detected in the vomeronasal organ (VNO) are involved in parental behavior by using mice deficient for a VNO-specific ion channel (Trpc2-/-) and thus impaired in VNO-input signaling. We housed virgin homozygous Trpc2-/- and heterozygous Trpc2± males for 3weeks during puberty (5-8weeks old) alone or in groups of 3-5 males. At 8weeks of age, the mice were placed with three pups in an observation cage and tested for parental behavior. The Trpc2-/- males housed under isolated conditions spent significantly longer in the vicinity of pups than did the Trpc2-/- males than had been group housed, whereas no isolation effect was observed in heterozygous Trpc2± males. Both Trpc2 knockout and isolation housing significantly increased the time males spent licking pups and crouching (arched back posture over pups to enable nursing), whereas only isolation housing increased the incidence of retrieval behavior. These results demonstrated that social signals transmitted not only through the VNO but also from other modalities, independent of each other, suppress the expression of parental behavior during puberty in sexually naïve males.

Vomeronasal organ lesion disrupts social odor recognition, behaviors and fitness in golden hamsters.

Most studies support the viewpoint that the vomeronasal organ has a profound effect on conspecific odor recognition, scent marking and mating behavior in the golden hamster (Mesocricetus auratus). However, the role of the vomeronasal organ in social odor recognition, social interaction and fitness is not well understood. Therefore, we conducted a series of behavioral and physiological tests to examine the referred points in golden hamster. We found that male hamsters with vomeronasal organ lesion showed no preference between a predator odor (the anal gland secretion of the Siberian weasels (Mustela sibirica) and putative female pheromone components (myristic acid and palmitic acid), but were still able to discriminate between these 2 kinds of odors. In behavioral tests of anxiety, we found that vomeronasal organ removal causes female hamsters to spend much less time in center grids and to cross fewer center grids and males to make fewer crossings between light and dark boxes than sham-operated controls. This indicates that a chronic vomeronasal organ lesion induced anxious responses in females. In aggressive behavioral tests, we found that a chronic vomeronasal organ lesion decreased agonistic behavior in female hamsters but not in males. The pup growth and litter size show no differences between the 2 groups. All together, our data suggested that vomeronasal organ ablation disrupted the olfactory recognition of social chemosignals in males, and induced anxiety-like and aggressive behavior changes in females. However, a vomeronasal organ lesion did not affect the reproductive capacity and fitness of hamsters. Our studies may have important implications concerning the role of the vomeronasal organ in golden hamsters and also in rodents.

Chemosensory cues affect amygdaloid neurogenesis and alter behaviors in the socially monogamous prairie vole.

The current study examined the effects of pheromonal exposure on adult neurogenesis and revealed the role of the olfactory pathways on adult neurogenesis and behavior in the socially monogamous prairie vole (Microtus ochrogaster). Subjects were injected with a cell proliferation marker [5-bromo-2'-deoxyuridine (BrdU)] and then exposed to their own soiled bedding or bedding soiled by a same- or opposite-sex conspecific. Exposure to opposite-sex bedding increased BrdU labeling in the amygdala (AMY), but not the dentate gyrus (DG), of female, but not male, voles, indicating a sex-, stimulus-, and brain region-specific effect. The removal of the main olfactory bulbs or lesioning of the vomeronasal organ (VNOX) in females reduced BrdU labeling in the AMY and DG, and inhibited the male bedding-induced BrdU labeling in the AMY, revealing the importance of an intact olfactory pathway for amygdaloid neurogenesis. VNOX increased anxiety-like behavior and altered social preference, but it did not affect social recognition memory in female voles. VNOX also reduced the percentage of BrdU-labeled cells that co-expressed the neuronal marker TuJ1 in the AMY, but not the DG. Together, our data indicate the importance of the olfactory pathway in mediating brain plasticity in the limbic system as well as its role in behavior.

Trpc2 gene impacts on maternal aggression, accessory olfactory bulb anatomy and brain activity.

The Trpc2 gene codes for an ion channel found in the vomeronasal organ (VNO). Studies using the Trpc2(-/-) (KO) mouse have exploited the gene's role in signal transduction to explore the VNO's role in pheromonally mediated behaviors. To date, no study has evaluated the impact of the Trpc2 gene on activity within the brain. In this study, we examine the gene's effect on brain regions governing maternal aggression. We intruder-tested lactating dams and then quantified Fos immunoreactivity (Fos-IR) in the vomeronasal amygdala, hypothalamus, olfactory regions and accessory olfactory bulb (AOB). Our data confirm previous reports that loss of the Trpc2 gene severely diminishes maternal aggression. We also show that deletion of the gene results in differential hypotrophy of the glomerular layer (GlA) of the AOB, with the anterior portion the GlA resembling that of wild-type mice, and the posterior portion reduced or absent. This anatomy is suggestive of residual functioning in the apical VNO of these animals. Our Fos study describes an impact of the deletion on a network of 21 brain regions involved in emotion, aggression and olfaction, suggesting that signals from the VNO mediate activity throughout the brain. Home-cage observations of KO dams show specific deficits in nest-building, suggesting a role for pup pheromones in inducing and maintaining pup-directed maternal behaviors as well as maternal aggression.

Loss of short dystrophin isoform Dp71 in olfactory ensheathing cells causes vomeronasal nerve defasciculation in mouse olfactory system.

The Duchenne muscular dystrophy (DMD) gene encodes dystrophin, which is a protein defective in DMD patients, as well as a number of shorter isoforms, which have been shown to be expressed in various non-muscle, primarily neural, tissues. As of yet, the physiological function of the various dystrophin isoforms is not fully understood. In the present study, we investigated the neurological phenotype that arises in the DMD-null mice, where expression of all dystrophin isoforms had been disrupted. We demonstrate that vomeronasal axons in the DMD-null mice are defasciculated, and some of the defasciculated vomeronasal axons aberrantly entered into the main olfactory bulb, which indicates that the product(s) of the DMD gene plays an important role in vomeronasal nerve organization. Through western blot and immunofluorescence analyses, we determined that the dystrophin isoform Dp71 was exclusively expressed in the mouse olfactory system: mainly in the olfactory ensheathing cells (OECs), an olfactory system-specific glia cell that ensheaths fascicles of the olfactory nerve. In the OECs, Dp71 was co-localized with beta-dystroglycan, utrophin, laminin, and perlecan. Since beta-dystroglycan and perlecan expression was decreased in the OECs of DMD-null mice, we hypothesize that Dp71 expressed in the OECs participates in fasciculation of the vomeronasal nerve, most likely through interactions with extracellular matrix.

[Human and animal vomeronasal systems in health and disease]. / Vomeronazal'naia sistema zhivotnykh i cheloveka v norme i patologii.

The vomeronasal organ (VO) or the second olfactory organ has the form of paired epithelial pockets at the base of the nasal septum. In animals it has various functions including reception of pheromones mediating sexual, parental and social behavior. Human VO was considered to be rudimental until the last decade of the XXth century. Since then it was found to be present almost in every adult individual and was proved to be functional. The paper provides new facts on the occurrence of VO in man and animals, analyzes possible consequences of plastic surgery of the nose and considers some vomeronasal abnormalities, their diagnosis and treatment.