The role of prolactin and testosterone in mediating seasonal differences in the self-grooming behavior of male meadow voles, Microtus pennsylvanicus

Self-grooming in response to the odors of conspecifics is a form of olfactory communication among meadow voles. The amount of time meadow voles spend self-grooming when they encounter the odors of conspecifics varies seasonally, with males targeting the odors of reproductively active females only during the breeding season. Other odor related behaviors in male voles such as odor preferences for conspecifics and the attractiveness of their odors to conspecifics vary seasonally as well. For male meadow voles, these behaviors are mediated by seasonal variations in testosterone (T) and prolactin (PRL) titers. The objective of this study was to determine whether seasonal differences in the amount of time male meadow voles self-groom in response to odors of conspecifics are mediated by seasonal rhythms in their circulating T and PRL titers. We tested the hypothesis that high titers of both T and PRL are necessary for reproductively active (long-photoperiod; LP) males and sufficient for reproductively quiescent (short-photoperiod; SP) male voles to spend more time self-grooming in response to odors of LP females than to those of other conspecifics. Results of this study demonstrate that high titers of PRL and T are necessary for LP male meadow vole to self-groom more in response to odors of LP females as compared to those of other conspecifics, but were not sufficient to induce SP males to preferentially self-groom to odors of LP females. The endocrine control of self-grooming by LP males appears to depend upon high titers of both PRL and T, which matches the endocrine mediation of other odor related behaviors in male voles. In contrast, the endocrine tissues that underlie self-grooming in SP male meadow voles appear to be refractory to the effects of LP-equivalent titers of PRL and T.     

Distribution of androgen receptor and steroid hormone concentrations in ovaries of immature bank voles: effect of photoperiod

Immunolocalisation of androgen receptor (AR) and steroid contents were analyzed in the ovaries of 7- and 14-day-old bank voles, reared in a long (LD) and short (SD) photoperiod. The strongest AR immunoreaction was found in the stromal cells, especially in the ovaries of 7-day-old animals, and in the granulosa cells of all types of ovarian follicles. Oocytes and the cells of surface epithelium were AR positive. The amount of ovarian androgens was relatively high, whereas the level of estradiol was negligible. This finding, and the presence of numerous ARs in various ovarian compartments, suggest that aromatization was very low during development and the primary function of androgens was hormonal action via a receptor-mediated pathway. Age- and photoperiod-related differences in ovarian progesterone (P₄) levels were higher in animals kept in LD than in SD, rising significantly on day 14. Androgen content tended to be lower in LD voles and slightly decreased on day 14. Photoperiod-related differences concerning AR immunolabeling were apparent only in 14-day-old animals. In LD, ovaries already possessed early antral follicles, showing strong AR immunolabeling in the cumulus cells. Immunoreaction of 3β-hydroxysteroid dehydrogenase (3β-HSD) showed that the primary interstitial and theca cells were the first to be active in ovarian steroidogenesis. In conclusion, AR is present in juvenile vole ovaries as early as day 7. The influence of the photoperiod on their number is observed beginning on day 14. Differences in steroid contents due to LD conditions occur in 7-day-old, and progresses in 14-day-old animals.     

Vertical transmission of tick-borne encephalitis virus between generations of adapted reservoir small rodents

Vertical transmission of tick-borne encephalitis virus (TBEV) between generations of the small rodents—red voles Myodes rutilus Pallas (previously known as Clethrionomys rutilus Pallas) was shown for naturally infected reservoir hosts and after experimental infection with different sublethal doses of the viral strains. For wild red voles and for their progeny born in 240–280 days after experimental infection of their parents the TBEV was detected in up to 90% of samples by RT-PCR, ELISA and bioassays. Small amounts of the TBEV RNA found in embryos, placenta and blood cells could serve as evidence of prenatal transmission. Postnatal transfer of the virus might occur through the rodent milk. Analysis of the TBEV E gene nucleotide sequences of RT-PCR products revealed missense mutations resulting in amino acid substitution K280Q in newborn red vole in comparison with its parent female.Taken together, the data confirmed the TBEV vertical transmission among generations of its adapted mammal reservoir hosts. The virus transfer might occur before, during and/or after birth of the small rodents with high frequencies. In the wild it could provide the TBEV long-term persistence in mammal hosts without an (any) involvement of arthropod vectors thus selecting dangerous mammal-adapted variants.     

Effect of photoperiod on the distribution patterns of androgen receptors and steroid hormone concentrations in ovaries of bank voles

Cellular distribution patterns of the androgen receptor in ovaries of female bank voles, born and reared in long (18:6; LD) or short (6:18; SD) photoperiods, have been studied to understand effects of androgens in female gonads. The photoperiod is one of the most important factors in bank voles, which are seasonal breeders, that regulates both morphology and hormonal function of the ovary. Androgen receptors were visualized immunocytochemically, using a specific monoclonal antibody against androgen receptor protein. LD ovaries contained more follicles and showed a different androgen receptor distribution pattern than SD ovaries. In LD ovaries, androgen receptors were strongly expressed in granulosa cells of primordial, primary, and preantral follicles as well as in theca and stromal cells. Positivity was moderate and limited to antral and cumulus regions in large follicles of LD ovaries. In contrast, androgen receptor immunopositivity was intense in the granulosa layer, theca and interstitial cells of large follicles of SD ovaries. A novel observation was the very intense immunostaining of oocyte cytoplasm in primordial and primary unilaminar follicles of LD ovaries. It can be concluded that the androgen receptor is involved in the maturation of oocytes.     

Developmental consequences of oxytocin

This paper examines the developmental effects of the mammalian neuropeptide, oxytocin (OT). In adults, OT is the most abundant neuropeptide in the hypothalamus and serves integrative functions, coordinating behavioral and physiological processes. For example, OT has been implicated in parturition, lactation, maternal behavior and pair bond formation. In addition, OT is capable of moderating behavioral responses to various stressors as well as the reactivity of the hypothalamic-pituitary-adrenal (HPA) axis. Neonates may be exposed to hormones of maternal origin, possibly including peptides administered to the mother in the perinatal period to hasten or delay birth and in milk; however, whether peptide hormones from the mother influence the developing infant remains to be determined. In rodents, endogenous OT is first synthesized during the early postnatal period, although its functions at this time are not well known. Experiments in neonatal prairie voles have documented the capacity of OT and OT receptor antagonists to have immediate and lifelong consequences for social behaviors, including adult pair bonding and parental behaviors, as well as the reactivity of the HPA axis; most of these effects are sexually dimorphic. Possible mechanisms for such effects, including long-lasting changes in OT and vasopressin, are summarized.     

Photoperiodic and temporal influences on chemosensory induction of brain fos expression in female prairie voles

Prairie voles (Microtus ochrogaster) typically stop breeding during winter. Male prairie voles respond to winter day lengths with gonadal regression, whereas female voles are relatively unresponsive to photoperiod. Unlike commonly studied laboratory rodents, female prairie voles do not exhibit spontaneous oestrous cycles. Instead, females are induced into oestrus by chemosensory cues from conspecific male urine. The present study investigated the interaction among day length, chemosensory cues and the initial brain responses during oestrus induction in female voles. A single drop of male conspecific urine, saline or skimmed milk was applied to the nares of female prairie voles housed for 9 weeks in either long (LD 16 : 8 h) or short (LD 8 : 16 h) days. Animals were killed 0.5, 1, 2 or 24 h after chemosensory treatment and their brains were processed for Fos immunocytochemistry. Body mass and ovarian fat pad mass were higher, but uterine and ovarian mass were lower, in short-day compared to long-day females. Regardless of photoperiod, Fos- immunoreactivity increased in the granule layer of the accessory olfactory bulb (AOB), the supraoptic nucleus and bed nucleus of the stria terminalis (BNST) (anterior medial) in females treated with male urine compared to the two control groups. Fos staining intensified in the AOB, medial and posterocortical medial amygdala and BNST (posterior ventral), 1 h and 2 h after urine treatment. In the medial preoptic area, anterior and lateral hypothalamus, and ventromedial nucleus of the hypothalamus, Fos-immunoreactivity was elevated in females 2 h after receiving urine. Overall, long-day females displayed higher Fos expression in response to urine than females maintained in short days. These results identify a putative neural circuitry of oestrus induction in this species, and provide an approximate time line of activation in the brain circuit responsible for oestrus induction in prairie voles.     

布氏田鼠种群动态预测初报

本文对布氏田鼠种群数量的年际动态和季节动态作了初步分析,并根据雌鼠怀孕率、雌鼠亚成比和性比三项种群特征,提出预测布氏田鼠种群动态的三个短期(2～4个月)方程式。     

Use of Comet and Micronucleus Assays to Measure Genotoxicity in Meadow Voles (<Emphasis Type="BoldItalic">Microtus pennsylvanicus</Emphasis>) Living in Golf Course Ecosystems Exposed to Pesticides

The purpose of this study was to conduct a biomonitoring study to measure the effects of pesticide exposure in meadow voles (Microtus pennsylvanicus) living in golf courses of the Ottawa/Gatineau region of Canada. In this article we present the results from the comet and micronucleus assay. Voles were captured in 2001 and 2002 at five golf courses and two reference sites. Blood was collected from sedated voles. Three animals from each course were euthanized to determine body burdens of historically used organochlorine (OC) and metal-based pesticides. Exposure to in-use pesticides was determined from detailed golf course pesticide use records. Comet tail length and tail moment were not related to body burdens of OC pesticides and metals historically used on these golf courses. In generally, tail length and moment significantly decreased in relation to days since last application of a pesticide, and to days since the last application of a specific fungicide (Daconil^®) containing a potentially genotoxic active ingredient (chlorothalonil). The slopes of these curves in 2002 were not significantly different than the half-life decay curve of chlorothalonil on vegetation. Both comet assay parameters appeared to increase in a dose-dependent manner with the amount of the last application Daconil^®. The number of micronucleated polychromatic erythrocytes was not related to any pesticide application parameter.     

Effects of neonatal oxytocin treatment on aggression and neural activities in mandarin voles

Neonatal manipulation of oxytocin (OT) has long-term effects on behavior and physiology. Here we test the hypothesis that neonatal OT treatment can affect the subsequent expression of intrasexual aggression partly by reprogramming the neural activities of relevant brain regions. To test this hypothesis, mandarin voles (Lasiopodomys mandarinus) received OT or isotonic saline treatment within 24 h of birth. At about 75 days of age, aggressive behaviors and Fos expression in different brain regions were tested. The results indicate that the (1) level of intrasexual aggression was higher and other social contact was lower in SAL-treated sexually na?ve males than in females and; (2) OT-treated females showed a greater increase in aggressive behaviors and Fos expression only after exposure to a male than SAL-treated females, but there were no significant changes in aggressive behaviors in males. These results demonstrate a sexual difference in aggression, and that neonatal exposure to OT may increase aggression in female mandarin voles. These effects may be based on changes in neural activities of relevant brain regions including the bed nucleus of the stria terminalis (BNST), lateral septal nucleus (LS), medial preoptic area (MPOA), the paraventricular nucleus of the hypothalamus (PVN), supraoptic nucleus (SON), mediodorsal thalamic nucleus (MD), ventromedial nucleus of hypothalamic (VMH), the medial amygdala (MeA) and central amygdala (CeA).     

Voluntary physical exercise protects against behavioral and endocrine reactivity to social and environmental stressors in the prairie vole

Physical activity can combat detrimental effects of stress. The current study examined the potential protective effects of exercise against a combination of social isolation and chronic mild stress (CMS) in a prairie vole model. Female voles were isolated for 4 weeks, with the addition of CMS during the final 2 weeks. Half of the voles were allowed access to a running wheel during this final 2 weeks, while the other half remained sedentary. Animals underwent behavioral tests to assess depressive- and anxiety-behaviors. In a subset of animals, plasma was collected 10 minutes after behavioral testing for corticosterone analysis. In a separate subset, brains were collected 2 hours after behavioral testing for cFos analysis in the paraventricular nucleus (PVN). Voles in the exercise group displayed significantly lower depressive- and anxiety-behaviors, and displayed significantly lower corticosterone levels, compared to animals in the sedentary group. There was no difference in PVN cFos activity between groups. Interestingly, animals that moderately exercised displayed lower levels of depressive-behavior and attenuated corticosterone reactivity compared to animals in the low and high activity subgroups. These findings suggest that physical activity can protect against a combination of social and environmental stressors.