Pair-bonding and social experience modulate new neurons survival in adult male and female prairie voles (Microtus ochrogaster).

Prairie voles are a socially monogamous species that, after cohabitation with mating, form enduring pair bonds. The plastic mechanisms involved in this social behavior are not well-understood. Neurogenesis in adult rodents is a plastic neural process induced in specific brain areas like the olfactory bulbs (OB) and dentate gyrus (DG) of the hippocampus. However, it is unknown how cell survival is modulated by social or sexual experience in prairie voles. This study aimed to evaluate if cohabitation with mating and/or social exposure to a vole of the opposite sex increased the survival of the new cells in the main and accessory OB and DG. To identify the new cells and evaluate their survival, voles were injected with the DNA synthesis marker 5-bromo-2'-deoxyuridine (BrdU) and were randomly distributed into one of the following groups: (A) Control (C), voles that did not receive any sexual stimulation and were placed alone during the behavioral test. (B) Social exposure (SE), voles were individually placed in a cage equally divided into two compartments by an acrylic screen with small holes. One male and one female were placed in opposite compartments. (C) Social cohabitation with mating (SCM), animals mated freely. Our findings demonstrated that SCM females had increases in the number of new cells (BrdU-positive cells) in the main olfactory bulb and new mature neurons (BrdU/NeuN-positive cells) in the glomerular layer (GlL). In contrast, these new cells decrease in males in the SE and SCM conditions. In the granular cell layer (GrL), SCM females had more new cells and neurons than the SE group. In the accessory olfactory bulb, in the anterior GlL, SCM decreased the number of new cells and neurons in females. On the other hand, in the DG, SCM and SE increase the number of new cells in the suprapyramidal blade in female voles. Males from SCM express more new cells and neurons in the infrapyramidal blade compared with SE group. Comparison between male and females showed that new cells/neurons survival was sex dependent. These results suggest that social interaction and sexual behavior modulate cell survival and influence the neuronal fate in a sex-dependent manner, in the OB and DG. This study will contribute to understand neural mechanisms of complex social and pair bond behaviors in the prairie voles; supporting adult neurogenesis as a plastic mechanism potentially involved in social monogamous strategy.

Sexual experience in female mice involves synaptophysin-related plasticity in the accessory olfactory bulb.

Sexually naïve female mice do not display high levels of sexual receptivity in their first sexual experience; they require around 4-5 sexual encounters to display the full receptive response, assessed by the lordosis reflex. In this study, we evaluated if repeated sexual stimulation with the same male is associated with changes in synaptic remodeling evaluated by synaptophysin (SYP) in brain structures involved in the control of sexual behavior such as the main and accessory olfactory bulbs (MOB and AOB, respectively), medial preoptic area (MPOA), ventromedial hypothalamus (VMH), and amygdala (AMG). Female mice were ovariectomized and hormonally primed to induce sexual receptivity. They were randomly distributed into three groups: a) sexually naïve (SN), with no prior sexual stimulation; b) sexually inexperienced (SI), with one prior mating session; and c) sexually experienced (SE), with six mating sessions. The SI group showed a significant decrease in SYP in the glomerular, mitral and granular layers of the AOB in comparison to SN and SE females. SYP expression increased in the SE group in comparison to SN and SI females in the glomerular and mitral cell layers of the AOB. No significant differences between groups were found in the other brain regions (MOB, MPOA, VMH or AMG). These changes in SYP expression in the AOB suggest that plastic modifications in this brain region can be associated with receptivity increase in sexual experience in female mice.

Sexual Behavior Increases Cell Proliferation in the Rostral Migratory Stream and Promotes the Differentiation of the New Cells into Neurons in the Accessory Olfactory Bulb of Female Rats.

We have previously demonstrated, that 15 days after female rats pace the sexual interaction, there is an increase in the number of new cells that reach the granular cell layer (GrL) of the accessory olfactory bulb (AOB). The aim of the present study was to evaluate, if the first sexual experience in the female rat increases cell proliferation in the subventricular zone (SVZ) and the rostral migratory stream (RMS). We also tested if this behavior promotes the survival of the new cells that integrate into the main olfactory bulb (MOB) and AOB 45 days after the behavioral test. Sexually, naive female rats were injected with the DNA synthesis marker 5'-bromo-2'-deoxyuridine (BrdU) on the day of the behavioral test. They were randomly divided into the following groups: Female rats placed alone in the mating cage (1); Females exposed to amyl acetate odor [banana scent, (2)]; Females that could see, hear, and smell the male but physical contact was not possible [exposed to male, (3)]; Female rats that could pace the sexual interaction (4); and females that mated without the possibility of pacing the sexual interaction (5). Animals were sacrificed 2 days after the behavioral test (proliferation) or 45 days later (survival). Our results show that 2 days after females were exposed to banana scent or to the male, they had a higher number of cells in the SVZ. Females, that mated in pace and no-paced conditions had more new cells in the RMS. At 45 days, no significant differences were found in the number of new cells that survived in the MOB or in the AOB. However, mating increased the percentage of new cells, that differentiated into neurons in the GrL of the AOB. These new cells expressed c-Fos after a second sexual encounter just before the females were sacrificed. No significant differences in plasma levels of estradiol and progesterone were observed between groups. Our results indicate that the first sexual experience increases cell proliferation in the RMS and mating 45 days later enhances the number of new cells that differentiate into neurons in the AOB. These new neurons are activated by sexual stimulation.

Ablação cirúrgica dos bulbos olfatórios em coelhos: modelo para estudos de patogenia de infecções por vírus neurotrópicos

Rabbits have been used as animal models to study the pathogenesis of neurological infection by bovine herpesvirus type 5 (BHV-5), an important agent of meningoencephalitis in cattle. The olfactory system has been implicated as the main pathway for the virus to reach the brain after replication in the nasal mucosa. To investigate the role of the olfactory route in the pathogenesis of neurological infection, a technique of transfrontal craniotomy for ablation of the main olfactory bulbs (MOBs), using the eyes as the anatomic reference was developed and evaluated. Using this technique, twenty three 30 days-old rabbits were submitted to surgical ablation of the MOBs and subsequently inoculated with BHV-5. After skin, subcutaneous tissue and periosteum incisions, the craniotomy was performed in a point equidistant to the medial corner of the eyes, with a 3 mm drill coupled to a low intensity elyptic drilling machine. The removal of the MOB's tissue was performed by using a number 6 uretral probe coupled to a surgical vaccum pump. The anatomic references used were appropriate in allowing an adequate and easy access to the MOBs. Necropsy performed in three animals after the surgery demonstrated that the surgical procedure was efficient in completely removing the MOB tissue. This was also demonstrated by the interruption of the access of the virus to the brain after intranasal inoculation: only one animal (1/11) in the bulbectomized group developed neurological infection and disease, against 100% (10/10) of the control group. The transfrontal craniotomy using the eyes as the anatomical reference allowed for an adequate access for localization and removal of the MOBs in rabbits. This techique may be used in studies of viral pathogenesis requiring the complete interruption of the olfactory connection to the brain.

Coelhos têm sido utilizados como modelo para o estudo da neuropatogenia da infecção pelo herpesvírus bovino tipo 5 (BHV-5), um importante agente de doença neurológica em bovinos. O sistema olfatório tem sido apontado como a principal via de acesso do vírus ao cérebro após replicação na cavidade nasal. Para investigar a importância da via olfatória na patogenia da infecção neurológica pelo BHV-5, foi elaborada e avaliada uma técnica operatória de craniotomia transfrontal para remoção dos bulbos olfatórios (BOs), definindo-se as órbitas como referência anatômica. Foram utilizados 45 coelhos com 30 dias de idade, sendo 23 submetidos à ablação cirúrgica dos BOs e posteriormente inoculados pela via intranasal (IN) ou no saco conjuntival (IC) com o BHV-5. Após incisões de pele, tecido subcutâneo e periósteo, a craniotomia foi realizada em um ponto eqüidistante entre os cantos mediais dos olhos, com uma broca sulcada de 3mm acoplada a uma perfuratriz elétrica de baixa rotação. A remoção dos BOs foi realizada com uma sonda uretral n°6 acoplada a um aspirador. O estudo macroscópico de três animais após a cirurgia comprovou que o procedimento foi eficiente na remoção total dos BOs. Isso também foi comprovado pela interrupção do acesso do vírus ao córtex cerebral: apenas um animal (1/11 ou 9,1%) no grupo submetido à ablação dos BOs com inoculação IN desenvolveu enfermidade neurológica, contra 100% (10/10) dos coelhos controle. Conclui-se que a técnica de craniotomia transfrontal utilizando a órbita como referência anatômica permite o acesso adequado para localização e remoção dos BOs e pode ser utilizada em estudos de patogenia de infecções por vírus neurotrópicos que exijam a interrupção completa da via olfatória.

Ablação cirúrgica dos bulbos olfatórios em coelhos: modelo para estudos de patogenia de infecções por vírus neurotrópicos

Rabbits have been used as animal models to study the pathogenesis of neurological infection by bovine herpesvirus type 5 (BHV-5), an important agent of meningoencephalitis in cattle. The olfactory system has been implicated as the main pathway for the virus to reach the brain after replication in the nasal mucosa. To investigate the role of the olfactory route in the pathogenesis of neurological infection, a technique of transfrontal craniotomy for ablation of the main olfactory bulbs (MOBs), using the eyes as the anatomic reference was developed and evaluated. Using this technique, twenty three 30 days-old rabbits were submitted to surgical ablation of the MOBs and subsequently inoculated with BHV-5. After skin, subcutaneous tissue and periosteum incisions, the craniotomy was performed in a point equidistant to the medial corner of the eyes, with a 3 mm drill coupled to a low intensity elyptic drilling machine. The removal of the MOB's tissue was performed by using a number 6 uretral probe coupled to a surgical vaccum pump. The anatomic references used were appropriate in allowing an adequate and easy access to the MOBs. Necropsy performed in three animals after the surgery demonstrated that the surgical procedure was efficient in completely removing the MOB tissue. This was also demonstrated by the interruption of the access of the virus to the brain after intranasal inoculation: only one animal (1/11) in the bulbectomized group developed neurological infection and disease, against 100% (10/10) of the control group. The transfrontal craniotomy using the eyes as the anatomical reference allowed for an adequate access for localization and removal of the MOBs in rabbits. This techique may be used in studies of viral pathogenesis requiring the complete interruption of the olfactory connection to the brain.

Coelhos têm sido utilizados como modelo para o estudo da neuropatogenia da infecção pelo herpesvírus bovino tipo 5 (BHV-5), um importante agente de doença neurológica em bovinos. O sistema olfatório tem sido apontado como a principal via de acesso do vírus ao cérebro após replicação na cavidade nasal. Para investigar a importância da via olfatória na patogenia da infecção neurológica pelo BHV-5, foi elaborada e avaliada uma técnica operatória de craniotomia transfrontal para remoção dos bulbos olfatórios (BOs), definindo-se as órbitas como referência anatômica. Foram utilizados 45 coelhos com 30 dias de idade, sendo 23 submetidos à ablação cirúrgica dos BOs e posteriormente inoculados pela via intranasal (IN) ou no saco conjuntival (IC) com o BHV-5. Após incisões de pele, tecido subcutâneo e periósteo, a craniotomia foi realizada em um ponto eqüidistante entre os cantos mediais dos olhos, com uma broca sulcada de 3mm acoplada a uma perfuratriz elétrica de baixa rotação. A remoção dos BOs foi realizada com uma sonda uretral n°6 acoplada a um aspirador. O estudo macroscópico de três animais após a cirurgia comprovou que o procedimento foi eficiente na remoção total dos BOs. Isso também foi comprovado pela interrupção do acesso do vírus ao córtex cerebral: apenas um animal (1/11 ou 9,1%) no grupo submetido à ablação dos BOs com inoculação IN desenvolveu enfermidade neurológica, contra 100% (10/10) dos coelhos controle. Conclui-se que a técnica de craniotomia transfrontal utilizando a órbita como referência anatômica permite o acesso adequado para localização e remoção dos BOs e pode ser utilizada em estudos de patogenia de infecções por vírus neurotrópicos que exijam a interrupção completa da via olfatória.