Selective Breeding for an Infant Phenotype: Rat Pup Ultrasonic Vocalization (USV)

To examine processes underlying generational and developmental influences on anxiety, this laboratory produced two lines of (N:NIH strain) rats, selectively bred on the basis extreme rates of ultrasonic vocalization in 2 minutes of isolation at Postnatal Day 10. The research reviewed in this article focuses on: (1) establishment of the selectively bred lines; (2) defining infant behavioral and physiological phenotypes and (3) determining whether infantile USV phenotypes endure over development. The High and Low lines have diverged widely in their USV rates from each other and from the Random control line, which has maintained N:NIH strain rates overall from generation to generation. Beginning in the 11th generation, High USV pups have shown significantly higher frequencies of defecation and urination during isolation screening than the Low USV and random control line. Both lines show altered autonomic regulation of heart rates (HR) in response to stressors as juveniles and adults. These differences in HR responses in High and Low lines appear to be mediated by changes in the balance of sympathetic versus parasympathetic mechanisms. Other behavioral characteristics of the High line are consistent with an anxious/ depressive phenotype, such as vocalizations to touch in a novel environment, and performance in the Porsolt Swim, whereas Low line shows few differences in anxiety behavior. Future work will resolve the similarities and differences in the High and Low phenotypes and provide a developmental perspective to the growing body of information about affective regulation in humans and animals provided by selectively bred animal models.     

Development and evolution of hidden regulators: selective breeding for an infantile phenotype

Mother-infant separation in the rat has been used as an analytical tool to reveal biosocial processes underlying infant physiology and behavior. The same strategy has guided a project in which selective breeding for an infantile behavior has provided insights into how biological systems become recruited and integrated as expressions of temperamental affective responses. Two lines of rats (High and Low USV lines) were selectively bred based on rates of USV emission to maternal separation and isolation at postnatal day (P) 10. After many generations of breeding, the High and Low lines show widespread and distinctly different profiles of physiology and behavior in the first 3 weeks of life. Insights gained from longitudinal studies suggest that selection may work by reorganizing developmental processes, not just a given trait, over the postnatal period. As animal models, the lines have the potential to provide valuable tools for understanding developmental mechanisms underlying genetic and developmental risk for depression/anxiety syndromes in children and adults.     

Selective breeding for infant vocal response: A role for postnatal maternal effects?

N:NIH rats were selectively bred on the basis of high or low rates of ultrasonic vocalization (USV) response to isolation at 10 days of age (Brunelli et al., 1997: Dev Psychobiol 31:255-265). To examine the possibility of postnatal maternal effects in the generational transmission of divergent traits, pups were cross-fostered shortly after birth between dams of the two lines (Low- and High-USV). Controls were fostered to dams of the same line (in-fostered). Additional (population) control data were obtained from the entire 13th generation of the selectively bred lines. USV rates of cross-fostered pups in each line were not significantly different from rates of in-fostered pups of the same line. High USV line pups cross-fostered to Low USV line dams weighed significantly less than in-fostered pups, on the day of testing. The results provide no evidence for a postnatal maternal contribution to the USV phenotype. Prenatal and/or perinatal maternal effects have not been ruled out.     

Five generations of selective breeding for ultrasonic vocalization (USV) responses in N:NIH strain rats

This article reports on early results from an ongoing selective breeding study in which rats were selected for different rates of ultrasonic vocalization (USV) in response to isolation. Using the N:NIH strain, all litters were screened at 10 (±1) days of age in a 2-min isolation test, and those males and females with the highest (or lowest) rates in each litter were selected for later breeding with like breeders from unrelated litters. A Random line (unselected control) was also bred. In the first selected generation (S1), the Low line diverged from Random line controls, and has maintained significantly lower rates over all generations since. In the S3 generation, the High line diverged significantly from Random line controls, and has shown significantly higher USV rates in each succeeding generation. No line differences were found in other behaviors measured in isolation. Data from a small sample of S5 pups tested at postnatal Days 3, 10, 14, and 18 days showed that individual pups' rates of USV from Day 10 predicted those at Day 14, consistent with findings from an unselected generation. Ambient temperature, modulated by body weight, controlled USV at Day 3, whereas at Days 10 and 14 line accounted for most of the variance in USV. This is the first instance of laboratory selection occurring on the basis of an infantile trait. © 1997 John Wiley & Sons, Inc. Dev Psychobiol 31: 255–265, 1997     

Effects of selective breeding for infant rat ultrasonic vocalization on cardiac responses to isolation

Heart rates (HR) and autonomic control of heart period (HP) during maternal separation and isolation were measured at postnatal days (P) 10 and 18 in rat pups selectively bred for high, low, and random rates of infant ultrasonic vocalization. P10 pups displayed no significant line differences in HRs, strong tonic basal sympathetic control of HP and little sympathetic reactivity to isolation, and no evidence of tonic baseline or phasic parasympathetic responses to isolation. At P18, during isolation and recovery, Low HRs were significantly higher compared with Random and High pups. High HRs were significantly higher compared with the Random line in the last third of isolation and through recovery. The higher HRs of Low pups during stress were due to greater parasympathetic withdrawal, but greater sympathetic activation could not be ruled out. Higher HRs in High pups were due to increased sympathetic activation. Thus, increases in HR responses in the selected lines are due to different underlying autonomic processes.     

Breeding for 50-kHz Positive Affective Vocalization in Rats

Adolescent and adult rats exhibit at least two distinct ultrasonic vocalizations that reflect distinct emotional states. Rats exhibit 22-kHz calls during social defeat, drug withdrawal, as well as in anticipation of aversive events. In contrast, 50-kHz calls are exhibited in high rates during play behavior, mating, as well as in anticipation of rewarding events. The neurochemistry of 22-kHz and 50-kHz calls closely matches that of negative and positive emotional systems in humans, respectively. The aim of this study was to replicate and further evaluate selective breeding for 50-kHz vocalization, in preparation for the analysis of the genetic underpinnings of the 50-kHz ultrasonic vocalization (USV). Isolate housed adolescent rats (23–26 days old) received experimenter administered tactile stimulation (dubbed tickling), which mimicked the rat rough-and-tumble play behavior. This stimulation has previously been shown to elicit high levels of 50-kHz USVs and to be highly rewarding in isolate-housed animals. Each tickling session consisted of 4 cycles of 15 seconds stimulation followed by 15 seconds no stimulation for a total of 2 min, and was repeated once per day across 4 successive days. Rats were then selected for either High or Low levels of sonographically verified 50-kHz USVs in response to the stimulation, and a randomly selected line served as a control (Random group). Animals emitted both 22-kHz and 50-kHz types of calls. After 5 generations, animals in the High Line exhibited significantly more 50-kHz and fewer 22-kHz USVs than animals in the Low Line. Animals selected for low levels of 50-kHz calls showed marginally more 22-kHz USVs then randomly selected animals but did not differ in the rate of 50-kHz calls. These results extend our previous findings that laboratory rats could be bred for differential rates of sonographically verified 50-kHz USVs.     

Developmental effects of selective breeding for an infantile trait: the rat pup ultrasonic isolation call.

This article describes how continued selection for divergent levels of the 10-day-old infant rat's ultrasonic vocal (USV) response to isolation affects the time course of development of that and other possible co-selected traits from 3 to 21 days postnatally. Since selective breeding for an infantile trait has not been reported before, we collected from colleagues a number of predicted outcomes that reflect the wide range of current opinion on the relationship between microevolutionary and developmental processes. After 15 generations of selective breeding, we found widely divergent USV responses between 10-day-old High USV line (300 USV/2 min) and low USV line (15 USV/2 min) pups. The developmental trajectory of USV responses at 3 and 7 days of age also was markedly altered in both these lines in comparison to the randomly bred controls, but was much less affected in 14-, 18-, or 21-day-old pups, contrary to all predictions. The development of other behavioral responses to isolation generally remained unaffected by the continued selection as did physical traits, measures of temperature regulation and classic developmental milestones. Only two traits showed evidence of co-selection: High line pups showed more urination/defecation in response to isolation from 10 days on, and more rapid ear canal opening at 10 days. These and other findings are presented and discussed in relation to the developmental and evolutionary concepts on which the different predictions were based.     

Rats selectively bred for low levels of 50 kHz ultrasonic vocalizations exhibit alterations in early social motivation

In rats, the rates of 50 kHz ultrasonic vocalizations (USVs) can be used as a selective breeding phenotype and variations in this phenotype can be an indicator of affective states. The 50 kHz USV is elicited by rewarding stimuli (e.g., food, sexual behavior) and therefore can express a positive affective state. Conversely, the 22 kHz USV is elicited by aversive stimuli (e.g., presence of a predator, social defeat) indicating a negative affective state. In the present study, we tested the effect of selectively breeding for 50 kHz USVs on a variety of maternal social/emotional behaviors in young rat pups (PND 10-12). These measures consisted of an assessment of isolation calls and conditioned odor preference paradigm. Results indicate that animals selected for low levels of 50 kHz USVs show the greatest alterations in social behaviors compared to the control animals. The low line animals had an increase in isolation calls tested during place preference conditioning and a decrease in 50 kHz ultrasonic calls in all conditions. These same low line animals failed to show a typical preference for a maternally-associated odor during the place preference test. The different social behaviors of the high line animals did not consistently vary from those of the control group. These results have important implications for the study of genetic and epigenetic mechanisms underlying emotional states, and possibly contribute to the research underlying the emotional changes in developmental disorders such as autistic spectrum disorder by providing a novel animal model that displays communication deficits that are interdependent with significant social behavioral impairments.     

Early separation of young rats from the mother and the development of play fighting

Play fighting was studied in rats which were either normally reared (separated from the mother on day 30) or prematurely separated from the mother on day 15. The animals were tested in pairs on days 33, 36 and 39 of age and play fights were recorded. Play fighting behavior increased markedly after three days of social isolation. In all pairs of normally reared animals (controls, 30S) the rats with the higher pinning scores on the first day also had the higher frequency of pinning on the second and third day of the test. The same trend in the distribution of pinning was found in pairs where the normally weaned animals (30S) played with the early weaned ones (15S). The latter, however, were always pinned by the former (30S) and had significantly lower pinning scores. Such a stable distribution of pinnings did not develop during play fights in pairs of early weaned animals (Group 15S).     

Derivation and Characterization of Replicate High- and Low-Alcohol Preferring Lines of Mice and a High-Drinking Crossed HAP Line

Selectively breeding lines of mice and rats to differ in alcohol intake has proven useful for defining which traits correlate with high alcohol drinking behavior, as well as for creating animal models of alcoholism. This study reports the derivation of two novel sets of selected lines, High Alcohol Preferring (HAP) and Low Alcohol Preferring (LAP) replicate 2 and 3 lines. Mice were mass-selected using the same procedure as in the replicate 1 lines: using HS/Ibg as a progenitor, mice were selected for differences in 2-bottle choice intake of 10% alcohol during a 4-week testing period. In addition, another high-drinking line, the crossed HAP (cHAP) line was selectively bred from a progenitors that were a cross of replicate 1 (S27) × replicate 2 (S21) HAP lines. All lines were characterized for saccharin intake. Overall, the response to selection of the HAP and LAP replicate 2 and 3 lines was quite similar. As anticipated, following selection, the cHAP line drank more than either parent HAP line (consuming 26.0 g/kg per day of alcohol by S11), suggesting that this method of crossing replicate lines and selecting from that cross captures more alleles than any single selected line, as well as producing a line with exceptionally high voluntary alcohol intake. As expected, saccharin consumption was highly associated with alcohol consumption; data from 7 lines (HAP 1, 2, and 3, LAP 1, 2, and 3, and cHAP) indicated a genetic correlation between 10% alcohol and 0.32% saccharin intake of 0.91. Overall, these findings show the practicality of developing replicate lines divergent in alcohol preference, and validate a novel procedure for generating very high-drinking mouse populations.     

A further characterization of alpha-2 adrenoceptor involvement in the rough-and-tumble play of juvenile rats

In order to further understand the extent to which alpha-2 adrenoceptors are involved in play behavior, a more detailed behavioral assessment was made of the effects of the alpha-2 agonist clonidine and the alpha-2 antagonist RX821002 on the rough-and-tumble play of juvenile rats. Clonidine reduced overall levels of playfulness, as indicated by fewer attacks directed to the nape, a lower probability of rotating completely to supine in response to nape attacks and fewer pins. In contrast, RX821002 increased playfulness, as indicated by more attacks directed to the nape, a higher probability of rotating completely to supine in response to nape attacks and more pins. Testing rats in an unfamiliar environment did not affect the ability of RX821002 to increase play. Abruptly turning on a bright light during an ongoing play session also did not affect the ability of RX821002 to increase play or the ability of clonidine to reduce play. These data suggest that alpha-2 noradrenergic compounds do not affect play by altering levels of distractibility. However, the extent to which RX821002 and clonidine influenced overall activity during a play bout was compromised by turning on a bright light. While this pattern of results is consistent with a presynaptic site of action for alpha-2 involvement in modulating overall activity during a play bout, the same cannot be concluded about any putative explanatory mechanism for alpha-2 involvement in play behavior     

Ultrasonic vocalization by rat pups during recovery from deep hypothermia.

Vocalization in the ultrasonic range (USV) has been reported to occur in young rodents in response to isolation, novelty, handling, and cold. Heretofore these calls have been known to occur only in alert, attentive, or emotionally aroused animals. These studies describe the emission of USV by comatose 9- to 10-day-old rat pups during recovery from deep hypothermia. Calling began at 15-18 degrees C core temperature while pups were virtually unresponsive to stimulation. Experimental results describe the patterns of call production in relation to respiration, cardiac function, colonic temperature, and brown adipose tissue thermogenesis. These vocalizations were 32-42 kHz in frequency, reached peak rates of 50/min at 23 degrees C, and were eliminated by laryngeal denervation, thus resembling isolation-induced vocalizations. However, contact with their dams failed to reduce call rates until pups had warmed above 25 degrees C. Newborn and weanling pups also emitted USV in deep hypothermia, but no USV were observed in pups recovering from general anesthesia. The possible functions and evolution of this behavior are discussed.     

Place conditioning reveals the rewarding aspect of social interaction in juvenile rats.

Rewards, as diverse as food, sweetened solutions, copulation, electrical brain stimulation, and drugs abused by humans, have been shown to condition place preferences in rats. Juvenile rats will readily learn to traverse a T-maze for the opportunity to interact with another similar-aged rat. This suggests that play behavior is rewarding. Experiment 1 examined whether play (as quantified by rough-and-tumble pinning) would act as a sufficient reward to condition a place preference (CPP). Experiment 2 examined whether pairings with a nonplaying partner would decrease the time spent in the preferred side and thus suggest a conditioned place aversion (CPA). In Experiment 1, dominant juvenile rats were given free access to a CPP apparatus and a side preference for one of the two physically distinct sides was determined. Dominant rats were then conditioned twice daily over four days in the CPP apparatus. They spent their first session confined in their preferred side with a scopolamine-treated partner (that rendered the partner unable to respond to play solicitations) and during the second session, dominant rats were confined to their less preferred side with a submissive play partner. The number of dorsal contacts, as well as frequency and duration of pinning, were recorded. Following conditioning, side preference was redetermined. A similar procedure was used in Experiment 2 except that the subjects underwent conditioning on their less-preferred side without a play partner. Results of Experiment 1 demonstrated that the dominant rats significantly increased (198.6%) the time spent on the originally less-preferred side after play conditioning.(ABSTRACT TRUNCATED AT 250 WORDS)     

An environmental antiandrogen,vinclozolin, alters the organization of play behavior

During mammalian sexual differentiation, the androgens, testosterone and dihydrotestosterone are critical for the organization of the male phenotype. In rats, play behavior is sexually dimorphic. Administration of exogenous androgens during the perinatal period results in masculine-like play behavior of juveniles. Recently, there has been increasing concern about the potential for environmental endocrine-disrupting chemicals (EDCs) to alter sexual differentiation in mammals. One such EDC is the fungicide and androgen receptor (AR) antagonist, vinclozolin. We tested whether developmental exposure to an EDC could alter androgen-dependent behaviors such as play. To examine this possibility, neonatal male rats were injected from Postnatal Days (PND) 2 to 3 with corn oil, pharmacological antiandrogen flutamide (50 mg/kg/day) or vinclozolin (200 mg/kg/day); whereas neonatal females were treated either with corn oil or testosterone propionate (TP, 250 microg/kg/day). At PNDs 36-37, animals were observed for social play. Behaviors associated with general social activity, such as sniffing and dorsal contact, were unaffected by treatment or sex. However, play behavior in males treated with flutamide or vinclozolin was significantly reduced to near-female levels when compared to control males. Play behavior in females exposed to TP during the neonatal period was significantly increased when compared with control females. Hence, this study suggests that perinatal exposure to vinclozolin, an environmental antiandrogen, can alter androgen-dependent behavior, such as play, in the male rat.     

Opiates and play dominance in juvenile rats

Social play between pairs of individually housed juvenile rats was studied by measuring pinning frequencies occurring during rough-and-tumble play. Low doses of morphine increased play, and opioid blockade with naloxone reduced play. Dominance, as measured by which pinned which most, was markedly reduced by naloxone and slightly increased by morphine. These effects were most apparent when animals were treated with these drugs continuously from the beginning of play testing. Although the respective drugs tended to reverse established dominance patterns (i.e., naloxone made dominant animals more submissive, and morphine made submissive animals more dominant), it was apparent that previously established social learning limited the effectiveness of these manipulations. In general, the results are consistent with the proposition that brain opioids are important in controlling the vigor of social relations.     

Juvenile play in the rat: thalamic and brain stem involvement

Discrete electrolytic lesions of the parafascicular area of the thalamus (PFA) or posterior thalamic area (TP) reduced the frequency of pinning, an indicator variable for rough-and-tumble play in juvenile rats, while largely sparing motivation to play. Similar sized lesions placed within the ventrobasal thalamic area (VBT) had minimal effects on both pinning and measures of play solicitation. Lesions placed within the ventrolateral aspect of the brain stem also markedly reduced pinning, while having no effect on indices of play motivation. Although tests designed to assess the extent to which the observed play deficits may be attributable to a loss of somatic acuity proved inconclusive, the overall pattern of results were not inconsistent with positing a role for these neural areas in relaying somatic stimuli relating to playful intent.     

Impedances of thin and layered systems: Cells with even or odd numbers of interfaces

Impedance data, e.g., system responses, from perturbing small amplitude applied sinusoid signals of near DC to high kilohertz frequencies, give chemical information. Analysis of frequency-dependent imaginary and real impedance proceeds from equivalent analog circuit elements to chemical and physical significance determined from many model systems. Already, it is possible to interpret bulk transport processes, surface kinetic effects, diffusion phenomena, and dependencies on the type of contacts: symmetric ion contact, symmetric metal contact or asymmetric metal-ion interfaces, and cell design; even (battery or sensor) and odd numbered (constrained junction or immiscible liquid) interfaces in a system. These analyses cover the chemical origins, locations and meanings of the lumped resistances, capacitances and transmission lines that are introduced by engineers in their strict analog interpretations of the impedance data. Examples cover simple ohmic, simple diffusive behavior, complex behavior with surface interfacial kinetics or surface resistances, and with finite (nonblocking) or infinite (blocking) DC impedance. High and low frequency responses may show socalled constant phase element character that suggests fractal behavior. Low frequency data occasionally appear in the second quadrant of impedance plane plots. These results are caused by negative capacitances and resistances. In this paper, chemical interpretations of analog circuit elements are mainly based on theory and observations of thin cells of electrolytes and solid and liquid films (membranes) that are ionic or mixed ionic/electronic conductors. The information should carry over into thickened, gelled, and tissue electrolyte phases and serve as a basis for medically-oriented, perhaps diagnostic impedance measurement applications already pioneered by Herman Schwan.     

Effects of acute hypergravity exposure and parity on maternal behavior in CD-1 mice

We assessed the behavioral response to acute hypergravity exposure in lactating mother mice, Mus musculus of the outbred CD-1 strain. Primiparous or terziparous dams were exposed with their litters to a centrifugal force equivalent to 2G hypergravity for 1 h daily from postnatal day 2 (P2) to P9. We made detailed behavioral observations before, during and after the rotation on selected days to identify elements of the maternal behavioral repertoire vulnerable to 2G challenge. Licking and nest building were reduced during rotation while mothers sniffed and snouted their pups more. Nursing and total time in physical contact with pups were relatively stable. The effects of rotation were most pronounced on P2, dams appearing to habituate to the treatment with repeated exposure. Dam parity had a limited effect on the behavioral response to rotation, primiparous mothers tending to spend longer nursing their pups during the rotation and showing a greater tendency to lick and nest-build in post-rotation. Differences between parity groups diminished over days. Body weight was decreased in rotated primiparous dams and their pups gained less weight than stationary controls. Ultrasonic vocalization (USV) rates recorded on P2, P5 and P9 seemed to indicate delayed behavioral development in rotated pups.     

The influence of olfaction on potentiation and inhibition of ultrasonic vocalization of rat pups

Twelve-day-old isolated rat pups reduce their rates of ultrasonic vocalization (USV) when an anesthetized adult is placed into the test cage, whether the adult is their dam or an unfamiliar male. USV rates remain very low even after removal of the male (inhibition). However, after removal of the dam, pups greatly increase their rates of USV over their first isolation period (potentiation). USV potentiation can be induced by either an awake, normally behaving dam or by one that is anesthetized. To test the role of olfaction in inhibition and potentiation, PND12 pups were rendered anosmic via intranasal infusion of 5% zinc sulphate (ZnSO4). Control pups were infused with normal saline. After overnight separation from the dam, the USV and other behaviors of pups were recorded during a 6-min test. Each pup was tested during an initial isolation period and a final isolation period. In the first experiment, an anesthetized adult (dam or unfamiliar male) or no companion was placed in contact with the pup during the middle minute. Anosmia prevented both potentiation and inhibition of USV by passive adult contact. Thus, it seems likely that pups use olfactory discrimination as the basis for these two highly differentiated vocal responses to social stimuli. Results from two additional experiments demonstrate that anosmia does not prevent potentiation when the adult dam is active and interacting with the pup on either postnatal day 12 or 8.