Effects of donor age on urinary chemosignals that influence the timing of first oestrus in young female house mice, Mus domesticus

The effects of donor age on the effectiveness of puberty-influencing urinary chemosignals in wild house mice was tested in a series of 3 experiments. The chemosignal from male mice that accelerates puberty was present in the urine from about the time of puberty and throughout the normal lifespan, but declined about 1 year of age. Oestrous females released a substance in their urine that accelerates puberty in young females. This substance remained effective from first oestrus until over 1 year of age, although older females were in oestrus less frequently than younger mice. Females that are pregnant or lactating released a puberty-accelerating substance in their urine regardless of age. Production and release of the puberty-delaying chemosignal by grouped females was initiated before puberty and continued throughout the lifespan of the mouse.     

Acceleration of puberty in female mice by a chemosignal from pregnant and lactating females: circadian rhythm effects

Two experiments were designed to test whether the urinary chemosignal excreted by pregnant and lactating female mice that accelerates puberty in young females is affected by circadian rhythms. The experiments also measured the possible influence of circadian rhythms on the response of the young recipient females. For urine from both pregnant and lactating females there was no difference in the effectiveness for accelerating puberty in urine collected during all 24 h. However, pregnancy urine used for treatment at 1800 and 0000 h, and lactation urine used for treatment at 1800, 0000 and 0600 h, all resulted in significantly earlier mean ages for puberty than pregnancy urine treatment at 0600 or 1200 h, or lactation urine treatment at 1200 h. There was also a significant interaction between the time of urine collection and the time of urine treatment for each urine source; urine was generally more effective in accelerating sexual development when used for treating young females at the same hour at which it had been collected, or at the time interval(s) just before or after the time at which it had been collected.     

Intermittent stimulation and acceleration of puberty by urinary chemosignals in female mice (Mus musculus domesticus)

A sequence of 17 experiments was used to test the effects of intermittent stimulation with urinary chemosignals on the age of puberty in young female mice. The three chemosignals tested all accelerate the age of sexual maturation: urine from adult males, urine from females in estrus, and urine from females that are pregnant or lactating. The basic technique involved presenting the prepubertal females with 'Nestlets' on which the urine was placed. The 'Nestlets' were placed in the cages of the test females for a 15-min period, removed for a variable period, and then replaced in the cage for 15 min. In this manner it was possible to vary the number of exposures, the total length of exposure, and the total time period over which the exposures occurred. Control procedures, involving exposures of young females to cotton squares with water rather than urine placed upon them, resulted in no alterations in puberty relative to untreated females. For mice exposed to the urine-treated cotton squares, acceleration of puberty occurred with less total stimulus-exposure time when the stimulus was presented in short exposures over a number of hours than in previous investigations when the exposure to the urinary chemosignal occurred in a single block of time of one or two hours. For each of the three acceleratory chemosignals, there was a diminution of acceleratory effect when the ratio of total stimulus-exposure time to total exposure time grew smaller. This diminution was more pronounced for urine from pregnant or lactating females than for urine from males or from females in estrus.(ABSTRACT TRUNCATED AT 250 WORDS)     

Male-induced puberty acceleration in young female wild mice: hormonal regulation and source of pheromonal cue

Experiments were designed to examine the influence of adult males on the rate of sexual maturation in young female wild mice. In one experiment, young females were raised in presence of adult males, adult females and in absence of any individual, while in another, they were exposed to urines of: (1) castrated males, (2) spayed females, (3) castrated and TP-treated males, (4) castrated and placebo-injected males. Female maturation as measured by age at vaginal opening and first vaginal oestrus was accelerated by presence of adult males, whereas presence of adult females considerably delayed the vaginal opening and the appearance of first oestrus in young females. In the other set of the experiments, urine from castrated or castrated and placebo-injected males was ineffective in inducing early puberty while urine from spayed females highly delayed the sexual maturation. By contrast, urine from castrated and TP-treated males accelerated the puberty more or less like normal males. The results indicate that male's chemosignal accelerating puberty in young females is present in urine and its production is under the control of androgens. However, the female-originating urinary pheromone which delays the puberty in young females is not regulated by ovarian hormones.     

Acceleration and delay of first vaginal oestrus in female mice by urinary chemosignals: Dose levels and mixing urine treatment sources

The effects of varying dose levels and mixing of urine from various types of donor mice on the age of sexual maturation in female mice were tested. Over the range from 0.001 ml/day to 0.01 ml/day, there was no difference in the effectiveness of male urine in producing acceleration of puberty, nor was there any difference over the same dose range for urine from grouped females bringing about a delay of puberty. Urine from pregnant and lactating females brought about earlier puberty when applied in the higher dose amounts but was not effective in altering the age of first oestrus relative to untreated controls at lower doses. These findings concerning dose levels are important for a full understanding of the behavioural consequences of urinary chemosignals. When urine from different sources was mixed, all treatments which involved urine from grouped females produced delays in first oestrus. The second finding has important consequences for a feedback model for population regulation in house mice involving urinary chemosignals that accelerate or delay sexual maturation and thus shorten or lengthen generation time by affecting reproductive behaviour.     

Effect of conspecifics on sexual maturation in female European pine voles (Pitymys subterraneus)

Using the number of large ovarian follicles (Type 8) as an indicator of sexual maturation we found that urinary compounds released by adult males accelerated puberty while urine from females suppressed hormonal activity in juvenile female European pine voles. The release of chemosignals that delayed puberty of juvenile females was not influenced by ovarian hormones; urine from ovariectomized females was as effective as urine from unoperated animals.     

Use of genital inspection and female urine tests to detect oestrus in captive Asian elephants

Captive Asian elephant (Elephas maximus) populations are decreasing due to low birth rates compared to wild elephants. Improving oestrous detection in female elephants is required to ensure successful mating in captive and semi-captive herds. Responsive behaviours of eight semi-captive bull elephants to the uro-genital area (genital inspection test) or urinary pheromones (urine test) of 14 female elephants throughout the oestrous cycle were evaluated. Weekly blood samples were collected for 27 consecutive months (14 months for the genital inspection test and 13 months for the urine test) from female elephants to characterize the patterns of circulating progestagen. Responsive behaviours of bulls were compared between females in the follicular versus the luteal phase of the cycle. The sensitivity and specificity of the genital inspection test were 65% and 68%, while those of the urine test were 52% and 61%, respectively. The bulls showed significantly higher “genital inspection”, “flehmen from genital area” and “trunk on back” behaviours during the genital inspection test, and “flehmen” behaviours during the urine test in oestrous than in non-oestrous females. In sum, this study showed that monitoring sexual behaviours of Asian elephant bulls towards females or their urine can be used to detect the oestrous period. Although the sensitivity and specificity of both tests were not as high as expected, still, these methods appear to be more efficient at detecting oestrous than traditional methods based on mahout estimations of female receptivity. The use of genital inspection and urine tests may lead to more successful matings and thus to creating self-sustaining populations of captive elephants in range countries.     

Long-term effects of accelerated or delayed sexual maturation on reproductive output in wild female house mice (Mus musculus)

The effects of acceleration and delay of puberty in female house mice on survival and reproduction were tested using 6 experimental groups: (1) control females mated at the time of first oestrus, (2) females mated at weaning, (3) females treated with male urine starting at weaning and mated at first oestrus, (4) females housed in groups and mated at first oestrus, (5) females housed alone, treated with urine from grouped females and mated at first oestrus, and (6) females housed alone and mated at 68 days of age. Females caged with males at weaning or treated with male urine and mated at puberty had lower rates of survival to 180 days of age, but did not differ in rates of fertility from mice in the other four treatments. Those females that were housed with males from weaning or treated with male urine also had smaller total numbers of litters, fewer total young, and smaller average litter sizes than did females for which the age of mating was delayed, by grouping or treatment with urine from grouped females, or by being held until age 68 days before mating. Control females mated at first oestrus generally were intermediate or did not differ from the male treatments on these dependent variables. There were no differences in the average number of female young/litter across the 6 treatments. However, females that were delayed in age of first mating had significantly more male young/litter than did females that were accelerated in their sexual development or control females.(ABSTRACT TRUNCATED AT 250 WORDS)     

Hormonal regulation of chemosignals of female mice that elicit ultrasonic vocalizations from males

Two experiments examined the properties of vaginal, facial, salivary, and urinary odors from female house mice to elicit ultrasonic vocalizations from male mice. Experiment 1 demonstrated that facial and salivary secretions from hypophysectomized females were significantly less effective in eliciting ultrasonic vocalizations from male mice than were these same secretions from either intact or ovariectomized females. Thus the hormonal control of chemosignals from these two sources paralleled earlier findings of pituitary rather than ovarian regulation of the urinary chemosignal that elicits ultrasounds. In contrast, ovariectomy and hypophysectomy seemed to have similar depressive effects upon the vaginal cue that elicits ultrasounds. Experiment 2 demonstrated that long-term ovariectomy (8 or 9 months) diminished the effectiveness of female saliva, but not urine, to elicit vocalizations. The apparent dissociation of the hormonal regulation of salivary, vaginal, and urinary chemosignals suggests that multiple chemosignals may possess the property of eliciting male vocalizations.     

The production of and sensitivity to cues that delay puberty and prolong subsequent oestrous cycles in female mice are influenced by prior intrauterine position

Four experiments were conducted with CF-1 house mice (Mus domesticus) to examine the relationship between a female's prior intrauterine position (2M = between 2 male fetuses, 1M = next to one male fetus, 0M = not next to a male fetus) and the timing of puberty and length of subsequent oestrous cycles under a variety of housing conditions. The results of Exp. 1 confirmed that the presence of males was required for females to enter puberty and exhibit regular oestrous cycles, regardless of prior intrauterine position. When housed individually after weaning either with a male in the cage or separated by a wire mesh partition, 0M-females ovulated and mated at a younger age and had shorter post-pubertal oestrous cycles than did 2M-females (1M-females were intermediate between 0M- and 2M-females). Other females were also housed after weaning with a male or separated by a wire mesh partition from a male in a variety of social environments (4 0M-females and 1 2M-female, 4 2M-females and 1 0M-female, 5 1M-females, 3 0M-females and 3 2M-females). The objective of these different housing conditions was to determine whether prior intrauterine position influenced the transmission of and/or sensitivity to cues that delay puberty and prolong subsequent oestrous cycles. Relative to 2M-females, 0M-females both produced more potent cues and were more sensitive to the cues (again, 1M-females were intermediate between 0M- and 2M-females). Specifically, in the presence of other females, puberty was delayed and post-pubertal oestrous cycles were prolonged to the greatest extent in 0M-females. Prior intrauterine position is therefore a source of individual variation in the production of and sensitivity to cues that modulate the timing of puberty and the length of subsequent oestrous cycles in female mice. The findings suggest that prenatally-androgenized 2M-females may have a reproductive advantage over other females at high population densities.     

Pregnancy in female house mice exposed to urinary chemosignals from other females.

Seven experiments were performed to investigate pregnancy termination, urinary chemosignals, and litter sex ratio variation in female house mice. Experiments tested the effects of urine from adult and prepubertal females, housed individually or in groups, on successful insemination and litter production by females treated at different times and for different periods during the 3 weeks before mating and during gestation. Treatment of females with urine from adult females housed eight per cage or with urine pooled from eight adult females housed individually for 2 or 3 weeks before mating resulted in fewer successful pregnancies and significantly more female-biased litters. Treatment with urine from adult or prepubertal females housed eight per cage or with urine pooled from eight mice housed individually for the first 6 days of gestation or throughout pregnancy resulted in a significant increase in the rate of pregnancy termination. These treatments resulted in lower body weights at birth and slower growth rates in all males and in some females. Puberty was delayed in female progeny from urine-treated dams in five of seven experiments, and these young females attained first oestrus at greater mean body weights than mice in other treatments. These findings indicate that, in mice, at high population density, communication via a urinary chemosignal can alter reproduction in recipient females. Availability of, and competition for, resources such as food would be greater at higher densities, possibly lowering the probability of reproductive success. Pregnancy termination and delays in reproduction and attainment of sexual maturity might lead to greater successful reproduction at a later time.     

Urinary sex steroids during sexual development in female mice and in proximate novel males.

The experiments described here were designed to determine whether males' capacity to accelerate female pubertal development is reflected in females' urinary steroid levels in mice, and whether steroids in males' urine are influenced by exposure to developing females. In the first experiment, measures from urine collected daily from female mice aged 31-59 days showed a gradual rise in 17beta-estradiol levels and a distinct linear rise in progesterone levels. In a second experiment, daily steroids were measured in females aged 30-42 days while they were either housed alone or underneath two novel outbred males. Females exposed to males showed accelerated development at day 43 in uterine weight, and to a lesser extent in ovarian and whole-body weights. Average steroid levels did not significantly differ between conditions, but intra-individual variance in estradiol measures was greater in male-exposed than in isolated females. Creatinine levels were higher in isolated females. Males exposed to developing females excreted higher levels of estradiol in their urine compared to isolated males. These data suggest that excreted steroids can reflect general pubertal development, but may not fully reflect substantial morphological impacts of exposure to novel males. Elevations of estrogen levels in males exposed to developing females could help to account for precocious puberty in such females.     

Intermittent stimulation and delay of puberty by urinary chemosignals and social contact in wild stock female house mice (Mus Domesticus)

A sequence of six experiments using wild stock house mouse (Mus domesticus) tested the effects of intermittent stimulation with either the urinary chemosignal released by grouped female mice or social contact from grouped females on the age of first vaginal oestrus in young females. Weanling female mice were exposed to bedding soiled by grouped females or cages containing grouped females for 15 min periods, then removed for a prescribed period, and placed again in a cage with soiled bedding or grouped females. The nature of the exposure to the puberty delaying effect, the number of total exposures each day, the total length of exposure to the stimulus, and the total time period over which the exposures occurred were varied. None of the treatment regimes employed here with soiled bedding from grouped females resulted in delays in the onset of first oestrus in test females. Young females exposed to grouped females for 6 or 8 exposures in a 4 h period, 6 or 8 exposures in an 8 h period, or 8 exposures in a 12 h period were significantly delayed in attaining puberty relative to control females that were exposed to cages containing clean bedding. These results are in contrast to earlier findings involving chemosignals that accelerate first oestrus wherein young females exhibited the capacity to accumulate the exposures to the urinary chemosignals from males, females in oestrus and pregnant or lactating females. Direct exposure to the grouped females on an intermittent basis can provide stimulation that is cummulative and results in delays in the onset of first oestrus.     

Male influence on oestrous cycles in female woolly opossum (Caluromys philander)

Plasma progesterone concentrations and the occurrence of oestrous cycles were studied in isolated woolly opossums subsequently subjected to male influences during a 40-day period. Pairing (N = 48) or exposure to male urine (N = 15) resulted in all females exhibiting oestrous during the stimulation phase, providing evidence that the activation of ovarian activity in the woolly opossum involves pheromonal cues from males. The latency of occurrence of oestrous in stimulated females depended upon their sexual state before male stimulation. In anoestrous females, the mean latency was 20.7 +/- 0.9 days (N = 35), a value which agrees with the duration of the follicular phase. In females which first entered oestrous before male stimulation, the latency of induced oestrous was inversely correlated to the date of occurrence of the previous oestrous. The inter-oestrous interval was normal (38.1 +/- 1 days, N = 5) when females were in oestrous at the beginning of male stimulation. In contrast, the inter-oestrous interval was significantly shortened (28.7 +/- 2 days, N = 7) or lengthened (51.1 +/- 1.7 days, N = 16) depending on whether females were in the luteal or follicular phases at the beginning of male stimulation. During pairing several females became pregnant and gave birth 24 +/- 0.9 days (N = 13) after copulation. In the woolly opossum, the response to male influences involves mechanisms similar to those observed in eutherians and results in enhancement and synchronization of oestrous cycles in females. Pheromonal interactions could play an important role in synchronizing oestrous cycles in wild females during the dry season, a period when animals regroup to feed on spatially localized food resources.     

Urinary Lipocalin Protein in a Female Rodent with Correlation to Phases in the Estrous Cycle: An Experimental Study Accompanied by In Silico Analysis

Male urinary lipocalin family proteins, practically odorant-binding proteins but also could be pheromones by themselves, in rodents act as a shuttle for chemosignal communication and facilitate delivery of the signals for access to congeners. However, presence of this protein in urine of female rodents has not yet been reported. Therefore, the present investigation was carried out to find if lipocalin family protein is present in the urine of female house rat and, if so, to find whether its expression differs between the phases in the estrous cycle. The rat urinary protein was separated in single dimensional gel electrophoresis. A 14.5 kDa lipocalin protein appeared in the urine prominently during the estrus and metestrus phases compared to proestrus and diestrus phases. The expression of this protein in the urine was very low in ovariectomized rats. MALDI-TOF/MS analysis affirmed the 14.5 kDa protein as a lipocalin family protein. Analysis adopting bio-informatics tools further proved the protein as a lipocalin family member. Thus, this study for the first time demonstrated the presence of a lipocalin family protein in the urine of a female rodent and it was highly expressed during estrus phase. This lipocalin protein in female rat urine may facilitate a chemosignal function independently of a pheromone or in association with a specific pheromone.     

Cues that Elicit Ultrasounds from Adult Male Mice

Adult male mice (Mus musculus) which have a prior history ofexperience with other adult male and adult female mice readilyproduce 70 kHz ultrasonic vocalizations in the presence of urinefrom adult females but not in the presence of urine from adultmales. Urine from immatures of either sex does not elicit ultrasoundsfrom socially experienced adult males. The ultrasound elicitingpotency of adult male urine was not improved substantially followingcastration of adult males, injection of testosterone propionateto castrated adult males, administration of estradiol benzoateto castrated adult males, or neonatal castration. Ovarian hormonesdo not appear to be necessary for either the appearance at puberty,or the maintenance during adulthood, of the ultrasound elicitingcues of female urine. Stage of estrus did not have a major modulatingeffect on urinary cues eliciling male ultrasounds. Treatmentsthat did not substantially reduce the signal value of adultfemale urine include ovariectomy before or after puberty, ovariectomywith adrenalectomy, and neonatal administration of testosterone.The administration of testosterone to ovariectomized adult females,and hypophyseclomy, virtually eliminated the ability of urinefrom adult females to elicit ultrasounds from socially experiencedadult males. The implication of pituitary hormones in the modulationof female urinary cues thai elicit ultrasounds is particularlyinteresting since pituitary factors are also implicated in theproximal causation of postparturient maternal aggression, whichadult male ultrasounds may function to moderate.     

Suppression of reproductive maturation in male-stimulated virgin female microtus by a female urinary chemosignal

Urine from female $\text{Microtus ochrogaster}$ possesses a chemosignal that suppresses reproductive maturation in other females. Uterine enlargement in virgin females stimulated by a male was suppressed by subsequent association with another female or by application of female urine on the nose. Females so suppressed are not able to achieve estrus. Urine from virgin sibling and non-sibling females and from pregnant females possesses the suppressing effect.     

Retardation of pubertal development by prenatal long days in goat kids born in autumn.

Goat kids born in spring attain sexual maturity during the first autumn after birth in temperate regions, at about 30 weeks of age. This study observed sexual development in autumn-born kids and the influence of late-summer, prenatal light treatment on onset of puberty. The breeding season of 14 female British Saanen dairy goats was artificially advanced by 4 months, using a treatment of long days during the winter followed by melatonin treatment in spring. Five goats were treated with a photoperiod of 20 h light:4 h dark (lights on 04.00 h) for 62.1 +/- 1.4 days (mean +/- SEM, n = 5) prepartum (14 August to 15 October). The remaining nine goats were kept under a natural photoperiod: 20 kids from these mothers were followed, five males and five females from each group. Testicular development was assessed by means of weekly measurement of scrotal circumference. Blood samples were taken once a week from all kids from 4 weeks of age for 5 months. Plasma was assayed for progesterone in females and testosterone in males. Autumn-born female kids initiated oestrous cyclicity in January, at a mean age of 12.8 +/- 0.8 weeks. Puberty onset was significantly delayed (P less than 0.03, unpaired Student's t test) in females exposed to 20 h light:4 h dark in utero and occurred at a mean age of 16.5 +/- 1.4 weeks. Testicular development was significantly delayed and plasma testosterone concentrations were lower in autumn-born male kids that experienced 20 h light:4 h dark in utero than in kids from mothers in a natural photoperiod.(ABSTRACT TRUNCATED AT 250 WORDS)     

Monitoring ovarian function and pregnancy by evaluating excretion of urinary oestrogen conjugates in semi-free-ranging Przewalski's horses (Equus przewalskii).

Immunoreactive urinary oestrogen conjugates were assessed in daily urine samples (approximately 5 samples/week) collected from 8 Przewalski's mares maintained under semi-free-ranging pasture conditions. The relative percentage contributions of immunoreactive urinary oestrogens during different reproductive stages (oestrus, luteal phase, early, mid- and late gestation) were determined using high-pressure liquid chromatography. In general, conjugated forms of oestrone (oestrone sulphate and oestrone glucuronide) were the major excreted immunoreactive oestrogens in nonpregnant and pregnant Przewalski's mares. Variations in urinary oestrogen conjugates indicated that the onset of oestrous cyclicity coincided with increasing daylengths, and the non-conception oestrous cycle was 24.1 +/- 0.7 days (n = 17) in duration. Most copulations (29/35, 82.9%) were observed between Day -4 and Day +1 from the preovulatory oestrogen conjugates peak (Day 0). Based on known copulation dates, the mean gestation length was 48.6 +/- 0.4 weeks (range 47.3-50.3 weeks). During pregnancy, urinary excretion of oestrogen conjugates increased approximately 300-fold over levels in non-pregnant mares, reaching peak concentrations by Week +24 (51% of gestation). These results demonstrate that longitudinal reproductive events, including oestrous cyclicity and pregnancy, can be monitored precisely by evaluating urinary oestrogen conjugates in samples from Przewalski's mares maintained under semi-free-ranging conditions.     

Entrainment of rhythmic melatonin secretion in man to a 12-hour phase shift in the light/dark cycle

Daily rhythms in melatonin secretion were monitored in four healthy adult males by measuring the melatonin contents of sequential 4-hour urine specimens and of plasma samples collected at 12-hour intervals, or, in one subject, continuously for 24 hours. All subjects exhibited similar diurnal rhythms, with peak urinary melatonin excretion rates and blood melatonin levels occurring during the daily period of darkness and sleep. When the daily light/dark regimen was phase-shifted by 180°, the plasma and urinary melatonin rhythms required 5–7 days (depending on the subject) to re-entrain to the new schedule. Simultaneous measurements of plasma melatonin levels and melatonin excretion rates indicate that urinary melatonin reflects, with remarkable fidelity, circulating melatonin levels.