Lorey K TakahashiUniversity of Hawaiʻi at Mānoa | UH Manoa · Department of Psychology
Lorey K Takahashi
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Publications (81)
When prey animals detect the odor of a predator a constellation of fear-related autonomic, endocrine, and behavioral responses rapidly occur to facilitate survival. How olfactory sensory systems process predator odor and channel that information to specific brain circuits is a fundamental issue that is not clearly understood. However, research in t...
A film analysis of fighting and nonfighting episodes in a shock-elicited fighting task indicated an almost total absence of behaviors typical of the attack pattern of dominant colony rats on intruders. The most frequent “fighting” response seen was striking, a forelimb movement oriented toward the opponent. However, forelimb movements identical exc...
The central nucleus of the amygdala (CeA) is traditionally portrayed in fear conditioning as the key neural output that relays conditioned information established in the basolateral amygdala complex to extra-amygdalar brain structures that generate emotional responses. However, several recent studies have questioned this serial processing view of t...
The central nucleus of the amygdala (CeA) has been traditionally viewed in fear conditioning to serve as an output neural center that transfers conditioned information formed in the basolateral amygdala to brain structures that generate emotional responses. Recent studies suggest that the CeA may also be involved in fear memory consolidation. In ad...
Predator odor fear conditioning involves the use of a natural unconditioned stimulus, as opposed to aversive electric foot-shock, to obtain novel information on the neural circuitry associated with emotional learning and memory. Researchers are beginning to identify brain sites associated with conditioned contextual fear such as the ventral anterio...
The basolateral amygdala complex (BLA) and central amygdala nucleus (CeA) are involved in fear and anxiety. In addition, the BLA contains a high density of corticotropin-releasing factor 1 (CRF(1)) receptors in comparison to the CeA. However, the role of BLA CRF(1) receptors in contextual fear conditioning is poorly understood. In the present study...
The basolateral (BLA) and medial nucleus (MeA) of the amygdala participate in the modulation of unconditioned fear induced by predator odor. However, the specific role of these amygdalar nuclei in predator odor-induced fear memory is not known. Therefore, fiber-sparing lesions or temporary inactivation of the BLA or MeA were made either prior to or...
The odors of predators used in animal models provide, in addition to electric footshock, an important means to investigate the neurobiology of fear. Studies indicate that cat odor and trimethylthiazoline (TMT), a synthetic compound isolated from fox feces, are often presented to rodents to induce fear-related responses including freezing, avoidance...
This study examined the participation of the medial amygdala (MeA) in unconditioned fear. Rats received ibotenic acid lesions in the MeA or central amygdala (CeA) prior to cat-odor exposure. MeA-lesioned rats exhibited a significant reduction in freezing duration and made frequent contact with a cloth containing cat odor. In contrast, CeA lesions h...
Lesions of the dorsal premammillary nucleus (PMd) have been reported to produce dramatic reductions in responsivity of rats to a live cat. Such lesions provide a means of analyzing the potentially differential neural systems involved in different defensive behaviors, and the relationship between these systems and concepts such as anxiety. Rats with...
Corticotropin-releasing factor (CRF) systems are major regulators of stress-induced endocrine, autonomic, immune and behavioral responses. Studies indicate that two high affinity CRF receptors designated CRF1, and CRF2 mediate the actions of CRF. Dysregulation of this CRF system, which may involve excessive secretion of the CRF peptide and/or alter...
Fear and anxiety are common emotions that can be triggered by stress. This paper reviews the work examining the role played by specific corticotropin-releasing factor (CRF) receptors in mediating the expression of these emotions. Several lines of evidence taken from CRF(1) transgenic knockout mice, CRF(1) antisense oligonucleotide studies, and CRF(...
Two pharmacologically distinct CRF receptors are distributed in different brain regions and peripheral tissues. Studies suggest that CRF1 receptors play an important role in mediating the anxiety provoking effects of CRF. In contrast, far less functional information is available on CRF2 receptors. Therefore, we conducted dose response studies using...
Corticotropin releasing factor (CRF) is an important regulator of the endocrine, behavioral, autonomic and immune responses to stress. Two high affinity CRF receptors have been identified, which are distributed in distinct anatomical regions. CRF1 receptors have been relatively well characterized and antagonists to this receptor effectively block s...
This chapter reports the evidence from a series of longitudinal studies that indicate that there may be a distinct pattern of physiological responses which depicts and characterizes different types of shy children. It begins with a conceptualization of shyness in which it is argued that individual differences emerge out of the underlying motivation...
Experiments were conducted to test the hypothesis that exposure to uncontrollable stress during pregnancy results in a heightened elevation of plasma glucocorticoids. Rats were exposed to uncontrollable electric tail shocks every other day during the 3 weeks of pregnancy. Plasma corticosterone concentrations in stressed dams increased significantly...
Prenatally stressed offspring exhibit a variety of physiological and behavioral alterations. This paper highlights those alterations associated with prenatal stress-induced elevations in glucocorticoid secretion. Three major alterations are identified that may be produced by glucocorticoid-induced actions on the developing hippocampus. Changes incl...
High densities of nerve cells containing corticotropin-releasing hormone (CRH) are located in the central nucleus of the amygdala (CeA) and paraventricular nucleus (PVN) of the hypothalamus. These brain regions play an important role in activating autonomic, behavioral, and endocrine responses to stress. This study was conducted to provide needed i...
The role of endogenous glucocorticoids in facilitating the postnatal innervation of septohippocampal cholinergic projections was examined. Septohippocampal cholinergic innervation was determined using two methods. One method involved measuring the optical density of acetylcholinesterase, a marker of cholinergic fibres in the hippocampus. In the oth...
When threatened, the rapid induction of fear and anxiety responses is adaptive. This article summarizes the current knowledge of the neurobiological development of behavioral inhibition, a prominent response occurring in fear and anxiety-provoking situations. In the rat, behavioral inhibition as exemplified by freezing first appears near the end of...
The aim of this research was to determine whether early maturation of the dorsal hippocampal cholinergic system mediates behavior exhibited by preweanling rats in the presence or absence of an unfamiliar adult male rat, a threatening stimulus. The behavioral responses that were examined included behavioral inhibition or freezing which emerges at 2...
Endogenous corticosteroids influence brain development and behavioral expression. In rat pups, a corticosteroid-dependent developmental response is behavioral inhibition, which occurs in situations involving threat. Behavioral inhibition consists of freezing and a reduction in ongoing behavior. It is presently unknown which brain region(s) that bin...
Recent investigations revealed that adrenalectomized (ADX) rat pups exhibit deficits in behavioral inhibition. Furthermore, administration of exogenous corticosterone (CORT) restores behavioral inhibition in ADX pups. Although these studies suggest that CORT has an important role in the development of behavioral inhibition, the relative behavioral...
Corticotropin-releasing hormone (CRH) neurons located in the paraventricular nucleus (PVN) of the hypothalamus are implicated in regulating the endocrine response to stress. The amygdala is an established component of the neural circuitry mediating the stress response. To obtain information concerning the effects of stress on amygdala CRH neurons,...
We tested the hypothesis that in preweanling rats central administration of exogenous corticosterone (CORT) is sufficient to facilitate the development of behavioral inhibition. 28-gauge cannulae containing varying concentrations of CORT (0, 25, 50 and 100%) were implanted unilaterally into the lateral ventricles of 9-day-old rat pups. After a 24-h...
Altricial rat pups develop the ability to freeze and to terminate their emission of ultrasonic vocalizations when exposed to an unfamiliar adult male rat. This developmental competence in expressing behavioral inhibition is impaired when rat pups are adrenalectomized (ADX) on postnatal day 10, a period prior to the emergence of behavioral inhibitio...
Previous studies demonstrate that 14-day-old rats reduce their emission of ultrasonic vocalizations and freeze when exposed to an unfamiliar adult male rat. This study sought to identify the stimulus characteristics of conspecific males that potentiate the display of behavioral inhibition. In Experiment 1, day 14 rats were isolated from the nest an...
Termination of ongoing behavior and assumption of defensive postures when threatened are adaptive characteristics of vertebrates. Altricial rat pups develop these characteristics by 14 days of age. At this time, pups inhibit their ultrasonic vocalizations and freeze when threatened. This emergence of behavioral inhibition is impaired when rats are...
Research suggests that endogenous corticotropin-releasing factor (CRF) in the amygdala plays a role in the expression of stress-induced behavior. This study examined in rats whether antagonism of CRF receptors in the central amygdala (CA) region using alpha-helical CRF9-41, a CRF antagonist, was effective in attenuating the occurrence of stress-ind...
Termination of ongoing behavior and assumption of defensive postures when threatened are adaptive characteristics of vertebrates. Altricial rat pups develop these characteristics by 14 days of age. At this time, pups inhibit their ultrasonic vocalizations and freeze when threatened. This emergence of behavioral inhibition is impaired when rats are...
Previous studies showed that when socially isolated at 22 degrees C, postnatal day 14 rats, but not younger day 7 rats, reduce their emission of ultrasonic vocalizations when exposed to an unfamiliar adult male rat, a naturalistic threat. Because ultrasound production is associated with factors such as age and body temperature, this study examined...
Intracerebroventricularly administered alpha-helical CRF9-41, a corticotropin-releasing factor (CRF) receptor antagonist, is known to reduce a variety of stress-induced behavioral responses. This study examined in rats whether antagonism of CRF receptors in the region of locus coeruleus (LC) plays a role in reducing freezing induced by electric foo...
Previous studies demonstrated that throughout the preweaning period prenatally stressed rats have an overactive hypothalamic-pituitary-adrenal (HPA) system. This increased HPA activity was accompanied by an increase in defensive behavior. This study examined whether these alterations in HPA activity and defensive behavior continued into adulthood....
I examined preweanling rats' (Rattus norvegicus) expression of ultrasounds and secretion of ACTH when exposed to unfamiliar adult male rats or to their mothers. Pups at 7 days of age produced similar levels of ultrasonic vocalization near both unfamiliar males and mothers. However, these pups could discriminate familiar from unfamiliar adults becau...
We examined the hypothesis that prenatal stress potentiates defensive responsiveness which may interfere with the expression of appetitive behavioral activities. Sibling pairs of prenatally stressed and control juvenile rats were placed in an unfamiliar environment. The latency and frequency of social play, a sought-after activity of juvenile rats,...
I examined preweanling rats' (Rattus norvegicus) expression of ultrasounds and secretion of ACTH when exposed to unfamiliar adult male rats or to their mothers. Pups at 7 days of age produced similar levels of ultrasonic vocalization near both unfamiliar males and mothers. However, these pups could discriminate familiar from unfamiliar adults becau...
We examined the ontogeny of the infant rhesus monkey's defensive behaviors and the ability to modulate them in response to specific environmental cues. Rhesus infants in 4 age groups (N = 8 per group) were briefly separated from their mothers and tested under 3 conditions: alone, in the presence of a human who averted his gaze, and in the presence...
Previous experiments revealed that 14-day-old prenatally stressed rats have significantly elevated concentrations of plasma adrenocorticotrophic hormone (ACTH) and corticosterone suggesting these animals have an overactive hypothalamic-pituitary-adrenal (HPA) system. In these studies, however, stress-induced hormone levels were determined only imme...
This study examined in postnatal Days 7, 14, and 21 male rats the effects of social isolation and social isolation with administration of brief foot shocks on the development of stress-induced behavioral and pituitary-adrenal hormone responses. Day 21 rats appeared similar to adult rats in their repsonses to the two test conditions. That is, exposu...
Adult organisms rapidly exhibit protective behavioral responses when threatened. In addition, physiological systems are activated reflexively to facilitate survival. How these defensive systems are integrated in order to produce appropriate responding demands a developmental psychobiological analysis. This paper summarizes studies examining in the...
This study examined the hypothesis that defensive responsiveness induced by threatening stimuli of biological origin is mediated by the action of endogenous corticotropin-releasing factor (CRF). Rats were exposed for 15 min to a large open field containing a small chamber. Twenty-four hours later, rats received intracerebroventricular injections of...
Effects of prenatal stress on stress-induced behavioral and hormonal responses were investigated in preweanling rats at two ages. Prenatal stress treatments involved the application of uncontrollable electric shocks to pregnant rats every other day throughout gestation. Offspring of undisturbed rats in home cages served as controls. When male pups...
In earlier studies, we established that in rats, antagonism of corticotropin-releasing hormone (CRH) receptors reduced the occurrence of fear-motivated behavior displayed immediately after administration of electric foot shock. Because exposure to stress is reported to have long-term behavioral and physiological effects, we examined whether central...
The role of estrogen (E) and progesterone (P) in regulating the expression of agonistic, scent marking and proceptive displays is reviewed. In the intact sexually mature female, data indicate that agonistic, scent marking and proceptive patterns of behavior fluctuate significantly prior to and during the period of mating. The propensity to display...
Compared to younger rats, old rats exhibit prolonged elevations of plasma ACTH and corticosterone (CORT) in response to stress. In addition, CORT crosses the placenta. To investigate whether fetuses of older rats may be exposed to higher concentrations of CORT during development than fetuses of young rats, we compared the effects of stress on hypot...
The role of corticotropin-releasing factor (CRF), an endogenous neuropeptide, in modulating species-typical responses was examined in an unfamiliar open field containing a small chamber. Rats placed in this small chamber spent most of their time withdrawn in it. However, rats given an intracerebroventricular injection (20 micrograms) of alpha-helic...
Three experiments were conducted to test the hypothesis that brain corticotropin-releasing hormone (CRH) systems mediate stress-induced freezing behavior, an index of a rat's level of fear. We administered i.c.v. 0-50 micrograms of alpha-helical CRH9-41 (a specific CRH antagonist) before foot shock and showed that this peptide had little effect on...
Two experiments were conducted to examine the behavioral effects of medial amygdaloid (M) lesions during the estrous cycle in female golden hamsters. In Experiment 1, males were paired with gonadally intact M-lesioned, sham-operated, or ovariectomized M-lesioned females and tested in large enclosures. Medial amygdaloid lesions reduced, significantl...
In order to identify and characterize the progesterone (P) sensitive neural system that regulates feminine sexual behavior, 28-gauge P-filled cannulae were implanted in the medial preoptic area (MPO), ventromedial hypothalamus (VMH), and central gray (CG) of ovariectomized estrogen-primed golden hamsters. Dual implants of P were placed either ipsil...
Repeated escapable shock, yoked-inescapable shock, or no-shock treatments were administered to female rats before parturition to investigate the effects of stressor controllability on offspring pituitary-adrenal hormone concentrations and stress-induced analgesic reactions. Female rats exposed to escapable shock treatments received tail-shock in bo...
Dual ipsilateral, contralateral and bilateral 28-gauge estradiol (E2) filled cannulae were implanted in the medial preoptic area (MPO) and ventromedial hypothalamus (VMH) of ovariectomized female golden hamsters housed in large arenas with male partners. Twenty-four hours after implantation, vaginal scent-marking patterns were significantly and equ...
Diencephalic and mesencephalic neural sites regulating the biphasic effect of progesterone (P) were investigated using the hormone implantation technique in ovariectomized female golden hamsters primed with estrogen. Double barreled cannulae were implanted unilaterally and bilaterally in the medial preoptic area, anterior hypothalamus, ventromedial...
Two studies were conducted to determine the importance of the postweaning environment and social milieu in regulating the expression of intraspecific aggression in Norway rats. In Experiment 1, male rats were housed either individually or in pairs at 21 days of age. In addition, one-half of the singly housed and paired animals were given experience...
Previously, we found that single implants of estradiol (E2) placed in the ventromedial hypothalamus (VMH) but not the anterior hypothalamus (AH) facilitated precopulatory, i.e. vaginal scent marking, and copulatory, i.e. lordosis, behavior following progesterone administration. However, the duration of lordosis was markedly attenuated in comparison...
Diencephalic sites of action of progesterone (P) responsible for inhibiting aggression and facilitating sexual receptivity were examined in ovariectomized golden hamsters primed with Silastic capsules of estradiol. P was applied centrally by inserting a hormone-filled, 27-gauge cannula into a 22-gauge guide cannula that was implanted unilaterally i...
Changes in heterosexual patterns of agonistic, marking, and sexual behavior were examined in female hamsters over a three day period following implantation of either estrogen or cholesterol in the hypothalamus. Animals were habituated to large arenas that permit the display of a wide range of behavior. Estrogen implants located in the ventromedial...
Social interactions of cycling female golden hamsters paired with ovariectomized animals in large enclosures were primarily agonistic over the 4-day estrous cycle. These aggressive interactions were intense as indicated by frequent occurrences of chase and flight behavior. Dominant and subordinate social ranks were established in the majority of pa...
Two experiments were performed to examine aggression and dominance in domestic male and female living in small mixed-sex (3 males and 3 females) groups. Experiment 1 examined the development of aggression in females. A single female (alpha) within each of the six colonies tested showed the preponderance of attacks on male intruders placed into the...
The behavioral response of established colonies of domesticated rats to the presence of an unfamiliar intruder of the same species represents one of the most effective procedures yet developed to study aggression in the laboratory. Here, the social, experiential, and environmental variables that influence attack severity are reviewed and several im...
Pairs of hamsters were housed in large enclosures that contained separate male and female living areas and observed over the 4-day estrous cycle and after ovariectomy. Agonistic elements exhibited frequently by females included on-back, boxing, lateral posturing, and biting, whereas males engaged frequently in boxing and on-back patterns of behavio...
This investigation was concerned with the identification of the ultrasonic vocalizations produced by intruders during aggressive interactions and the role of these signals in agonistic behavior of rats. In the first experiment, experienced resident males were paired with both devocalized and intact vocalizing naive intruder males. Devocalization of...
This investigation was concerned with the extent to which aggressive resident rats emit 40-70-kHz vocalizations and the effect of these signals on intruders. In Experiment 1, deafened and intact intruder males were given two encounters with resident animals. Deafened intruders engaged in a higher duration of immobile or freezing postures than intac...
Dominant male rats were separated from their colonies and subordinate residents were tested for aggression after a two week period. Subordinate animals showed significant increases in body weight and aggressive behavior toward intruders. Replacement of the previously dominant male led to rank reversals in three of six colonies. To assess whether tw...
In Experiment 1, rat colonies consisting of two males and one female were established when the animals were either 100, 200, or 300 days old. All colony members were reared from weaning in small, stable isosexual groups prior to colony formation. Males that were 200 days old engaged in significantly more fighting at colony formation, and, three wee...
Two longitudinal studies were conducted to quantify the social behaviors exhibited by both male and female Long-Evans rats from the immediate postweaning period until young adulthood. In Experiment 1, male sibling pairs engaged in a high level of play fighting during the early juvenile period but such activity declined to a level significantly lowe...
Intra- and interspecific agonistic encounters in Long-Evans and field-trapped Rattus norvegicus and Rattus rattus showed a consistency in the form and character of attack and defensive behaviors. Colony alpha males exhibited high levels of lateral attack, on-top, and chasing behaviors which resulted in a high percentage of bites on the intruder's b...
The foraging activities of a free-living population of wild Rattus norvegicus was confined to the nighttime hours. Peak feeding occurred during the early evening hours. Subsequent excavation of the burrow systems of these animals revealed no evidence that food had either been consumed or stored in the burrows.
Intruder rats were exposed for 24-hr periods to established colonies of rats when escape chambers were either present or absent in the colony cages. When escape chambers were present, naive intruders took refuge in the escape chambers and thereby engaged in significantly less fighting, received fewer wounds, and were less likely to be killed during...
The effects of median raphe lesions on the hippocampal EEG were examined in freely moving rats. First, median raphe lesions, including those restricted to the median raphe nucleus, unequivocally produced hippocampal low-frequency theta activity (5.8 Hz, SD = 0.47 Hz) during relaxed immobility which was not observed under normal conditions. This les...
The hypothesis that pain produces aggression was examined by comparison of behaviors in an established rat colony (for dominant colony males and strange intruders) to those seen in “reflexive fighting” and in a tube-test involving tailshock. During reflexive fighting dominant colony rats switched abruptly from the attack pattern displayed in the co...
Most attacks by rat colony members on strange intruders are made by a single dominant male. Such dominance, and the attack
behaviors themselves, develop in a relatively fixed sequence over sessions with strange intruders. The entire sequence of
attack on intruders occurs earlier in the intruder sessions for older rat colonies than in those for newl...
Attack behaviors of dominant colony males of established albino rat colonies, on intruders, were measured following septal lesions or control operations. Septal damage produced a significant decrease in piloerection, biting, and lateral attack behaviors, as well as in the number of wounds observed on the intruders. These differences tended to disap...
Specific agonistic responses of albino rats were compared for dominant colony rats and intruders, and for rats in a “reflexive fighting” task. The “reflexive fighters” showed high levels of defensive responses such as boxing and freezing, and very low levels of aggressive behaviors such as piloerection, biting, and the lateral display. This pattern...
Removal of mystacial vibrissae for strange rats placed in an established rat colony produced reliable decrements in defensive boxing for these animals, and corresponding increases in freezing. In a subsequent experiment, removal of the vibrissae of the attacking colony males did not change the attack behavior of the vibrissectomized animals. These...