Your search keyword '"DEFENSIVENESS (Psychology)"' showing total 2,168 results

101. From aversive associations to defensive programs: experience-dependent synaptic modifications in the central amygdala.

Author

Penzo, Mario A. and Moscarello, Justin M.

Subjects

*AMYGDALOID body, *NEUROPLASTICITY, *AVOIDANCE conditioning, *CONDITIONED response, *ASSOCIATIVE storage, *NEURAL transmission, *DEFENSIVENESS (Psychology), *ASSOCIATIVE memory (Psychology)

Abstract

Experience-dependent synaptic plasticity in the central nucleus of the amygdala (CeA) takes on different forms depending on whether animals are trained using fear conditioning or active avoidance tasks. Such dynamic patterns of CeA plasticity determine the selection of appropriate defensive responses to a given conditioned stimulus (CS) by biasing the winner-takes-all competition between mutually inhibitory CeA microcircuits. We propose that experience-dependent synaptic plasticity in the CeA has a specific role in the expression of CS–unconditioned stimulus associations and that it plays no role in the storage or reactivation of such memories. Plasticity elicited by fear conditioning (FC) is thought to support the storage of aversive associative memories. Although work over the past decade has revealed FC-induced plasticity beyond canonical sites in the basolateral complex of the amygdala (BLA), it is not known whether modifications across distributed circuits make equivalent or distinct contributions to aversive memory. Here, we review evidence demonstrating that experience-dependent synaptic plasticity in the central nucleus of the amygdala (CeA) has a circumscribed role in memory expression per se , guiding the selection of defensive programs in response to acquired threats. We argue that the CeA may be a key example of a broader phenomenon by which synaptic plasticity at specific nodes of a distributed network makes a complementary contribution to distinct memory processes. [ABSTRACT FROM AUTHOR]

Published

2023

102. Subcortico-amygdala pathway processes innate and learned threats.

Author

Khalil, Valentina, Faress, Islam, Mermet-Joret, Noëmie, Kerwin, Peter, Keisuke Yonehara, and Nabavi, Sadegh

Subjects

*DEFENSIVENESS (Psychology), *AMYGDALOID body, *CURIOSITY, *STIMULUS & response (Psychology)

Abstract

Behavioral flexibility and timely reactions to salient stimuli are essential for survival. The subcortical thalamic-basolateral amygdala (BLA) pathway serves as a shortcut for salient stimuli ensuring rapid processing. Here, we show that BLA neuronal and thalamic axonal activity in mice mirror the defensive behavior evoked by an innate visual threat as well as an auditory learned threat. Importantly, perturbing this pathway compromises defensive responses to both forms of threats, in that animals fail to switch from exploratory to defensive behavior. Despite the shared pathway between the two forms of threat processing, we observed noticeable differences. Blocking β-adrenergic receptors impairs the defensive response to the innate but not the learned threats. This reduced defensive response, surprisingly, is reflected in the suppression of the activity exclusively in the BLA as the thalamic input response remains intact. Our side-by-side examination highlights the similarities and differences between innate and learned threat-processing, thus providing new fundamental insights. [ABSTRACT FROM AUTHOR]

Published

2023

103. The central amygdala modulates distinctive conflict-like behaviors in a naturalistic foraging task.

Author

Sunwhi Kimm, Jeansok J. Kim, and June-Seek Choi

Subjects

FORAGING behavior, REWARD (Psychology), APPROACH behavior, ROLE conflict, AMYGDALOID body, DEFENSIVENESS (Psychology)

Abstract

Conflict situations elicit a diverse range of behaviors that extend beyond the simplistic approach or avoidance dichotomy. However, many conflict-related studies have primarily focused on approach suppression, neglecting the complexity of these behaviors. In our study, we exposed rats to a semi-naturalistic foraging task, presenting them with a trade-off between a food reward and a predatory threat posed by a robotic agent. We observed that rats displayed two conflict-like behaviors (CLBs)-diagonal approach and stretched posture--when facing a robotic predator guarding a food pellet. After electrolytic lesions to the central amygdala (CeA), both conflict behaviors were significantly reduced, accompanied by a decrease in avoidance behavior (hiding) and an increase in approach behavior (frequency of interactions with the robot). A significant negative correlation between avoidance and approach behaviors emerged after the CeA lesion; however, our data suggest that CLBs are not tightly coupled with either approach or avoidance behaviors, showing no significant correlation to those behaviors. Our findings indicate that the CeA plays a crucial role in modulating conflict behaviors, competing with approach suppression in risky situations. [ABSTRACT FROM AUTHOR]

Published

2023

104. Risk and protective factors for resilience among adolescents and young adults with beta-thalassemia major.

Author

Rambod, Masoume, Hamidizadeh, Saeed, Bazrafshan, Mohammad-Rafi, and Parviniannasab, Ali Mohammad

Subjects

YOUNG adults, BETA-Thalassemia, PEARSON correlation (Statistics), STRUCTURAL equation modeling, PSYCHOLOGICAL resilience, TEENAGERS, DEFENSIVENESS (Psychology)

Abstract

Background: Resilience is the ability to overcome adversity in response to a potentially traumatic event. It can relieve people's discomfort and build personal capacity when facing a stressful situation such as beta thalassemia major. Resilience is a complex and multidimensional concept and is influenced by protective and risk factors. Therefore, the aims of the present study were to (1) investigate the relationship between protective (social support and hope) and risk (uncertainty and defensive coping) factors with resilience and (2) examine the mediating role of courageous coping between these protective and risk factors in resilience. Methods: This descriptive-analytical study was performed on 312 adolescents and young adults with beta-thalassemia major aged 12–24 years; they were selected using purposeful sampling from two different outpatient thalassemia clinics in the south of Iran. Data were collected in a face-to-face survey using Zimmet Multidimensional Scale of Perceived Social Support, Herth Hope, Stewart Uncertainty in Illness scale, Jalowiec Coping, and Connor–Davidson resilience Scale from April 2022 to November 2022. The collected data were analyzed using descriptive tests, Pearson correlation, and a structural equation model. Results: According to the main findings of mediation analysis, courageous coping partially mediated the relationship between social support and resilience [(β = 0.042; 95% BC CI (0.003, 0.131)] and fully mediated the relationship between hope and resilience [(β = 0.166; 95% BC CI (0.031, 0.348)]. In other cases, uncertainty and defensive coping had a direct and indirect effect on resilience, respectively. Conclusion: Based on these results, health professionals and healthcare policymakers should consider this mediator in developing programs to improve resilience. Also, the use of courageous coping could modulate the effect of defensive coping on resilience. Therefore, teaching the use of courageous coping can play an important role in improving resilience. [ABSTRACT FROM AUTHOR]

Published

2023

105. Effects of human disturbance on risk‐taking behavior in painted turtles.

Author

Turcotte, Audrey, Garant, Dany, and Blouin‐Demers, Gabriel

Subjects

*TURTLES, *ANIMAL populations, *DEFENSIVENESS (Psychology), *HUMAN beings, *HUMAN-animal relationships, *POPULATION dynamics, *CANALS

Abstract

Animals are exposed to high levels of anthropogenic disturbance, which has profound consequences for population persistence. Individuals can adjust their behavior plastically when faced with perturbations in their environment and may show consistent differences in the way they perceive and respond to risky situations. Over time, this variability among individuals in response to risk can affect the dynamics of populations exposed to human disturbance. Thus, understanding how animals cope behaviorally with human disturbance is important, especially for species vulnerable to human perturbations, such as turtles. In this context, we evaluated whether risk‐taking behaviors are consistent within individual painted turtles (Chrysemys picta) and assessed how these behaviors are related to the extent of human disturbance along the Rideau Canal, Ontario, Canada. Specifically, we conducted repeated measurements of the number of active defensive behaviors used during handling and the time taken to escape a floating platform for 730 painted turtles (1117 observations) from 22 sites varying in human disturbance along the canal. We also quantified the emergence of the turtles from the water after escaping the platform. First, individual painted turtles showed consistent differences in all risk‐taking behaviors. Second, painted turtles in areas with high boat activity displayed more active defensive behaviors, while turtles from sites in proximity to more houses with access to the canal used fewer. Our study highlights the importance of studying animal behavior to better understand the impact of human activities on animal populations. [ABSTRACT FROM AUTHOR]

Published

2023

106. Variations in defensive behaviors according to diel period and sex in a litter-dwelling harvestman Pseudopucrolia discrepans (Opiliones: Gonyleptidae).

Author

Lins, Alysson H.A., Lira, André F.A., and DeSouza, Adriano M.

Subjects

*DEFENSIVENESS (Psychology), *PROTECTIVE coloration (Biology), *SEXUAL dimorphism, *OPILIONES, *RAIN forests, *FEMALES

Abstract

Harvestmen are considered excellent models for investigating defensive behavior, as they can demonstrate primary mechanisms, such as cryptic coloration, and secondary mechanisms, such as the release of odoriferous substances. In our study, we investigated whether the time of the day and sexual dimorphism influence the defensive strategies of the gonyleptid harvestman Pseudopucrolia discrepans (Roewer, 1943). The behavioral trials were carried out with 60 harvestmen (30 males and 30 females) collected from an Atlantic Rainforest fragment in the state of Pernambuco, Brazil. Of these, 15 males and 15 females were tested during the day and the other 15 males and 15 females were tested at night. The trials simulated attacks by predators and in response to them, P. discrepans demonstrated six different defensive behaviors: freezing, pinching, chemical release, body shaking, thanatosis, and fleeing. During the day, males and females did not show differences in the frequency of the use of defensive behaviors. However, at night, females stood out in relation to males. Thus, we were able to demonstrate that the period of the day influences the behavioral differences in both sexes of P. discrepans. [ABSTRACT FROM AUTHOR]

Published

2023

107. Assessment of predation risk through conspecific cues by anuran larvae.

Author

Caballero-Díaz, Carlos, Arribas, Rosa, and Polo-Cavia, Nuria

Subjects

*PREDATION, *ANTIPREDATOR behavior, *RISK assessment, *LARVAE, *DEFENSIVENESS (Psychology), *COGNITIVE ability

Abstract

Accurate assessment of predation risk is critical for prey survival during predator–prey interactions. Prey can assess predation risk by the presence of cues dropped by predators themselves, but they can also gather information about risk level through cues released by other prey, avoiding the hazard of being in close proximity to predators. In this study, we examine the ability of anuran larvae (Pelobates cultripes) to detect predation risk indirectly when they are in contact with conspecifics that have been recently exposed to chemical stimuli from natural predators (larvae of aquatic beetles). In a first experiment, we confirmed that larvae exposed to predator cues exhibited innate defensive behavior, indicating that they perceived the risk of predation and, thus, could potentially act as risk indicators for naïve conspecifics. In a second experiment, we observed that unexposed larvae paired with a startled conspecific adjusted their antipredator behavior, presumably by mirroring conspecifics' behavior and/or using chemical cues from their partners as a risk information source. This cognitive ability of tadpoles to assess predation risk through conspecific cues might play an important role in their interaction with predators, facilitating the early detection of potential threats to elicit appropriate antipredator responses and increase the chances of survival. [ABSTRACT FROM AUTHOR]

Published

2023

108. Defensive and offensive behaviours in a Kleefstra syndrome mouse model.

Author

Alonso, Alejandra, Samanta, Anumita, van der Meij, Jacqueline, van den Brand, Liz, Negwer, Moritz, Navarro Lobato, Irene, and Genzel, Lisa

Subjects

*LABORATORY mice, *ANIMAL disease models, *MICE, *KNOCKOUT mice, *OFFENSIVE behavior, *DEFENSIVENESS (Psychology), *INTELLECTUAL disabilities

Abstract

Kleefstra syndrome in humans is characterized by a general delay in development, intellectual disability and autistic features. The mouse model of this disease (Ehmt1±) expresses anxiety, autistic-like traits, and aberrant social interactions with non-cagemates. To investigate how Ehmt1± mice behave with unfamiliar conspecifics, we allowed adult, male animals to freely interact for 10 min in a neutral, novel environment within a host-visitor setting. In trials where the Ehmt1± mice were hosts, there were defensive and offensive behaviors. Our key finding was that Ehmt1± mice displayed defensive postures, attacking and biting; in contrast, wild-type (WT) interacting with other WT did not enact such behaviors. Further, if there was a fight between an Ehmt1± and a WT mouse, the Ehmt1± animal was the most aggressive and always initiated these behaviors. [ABSTRACT FROM AUTHOR]

Published

2023

109. Can Equity Incentives Restrain Defensive Behaviors in Corporate Cash Holding Decisions?

Author

Feimei Liao, Jiaqing Zhang, and Songqin Ye

Subjects

*CASH position of corporations, *EQUITY management, *DECISION making, *INSTITUTIONAL environment, *STOCKHOLDERS, *DEFENSIVENESS (Psychology)

Abstract

The present study aims to explore the effect of equity incentive intensity on defensive behavior in enterprise cash holding decision-making using ordinary least squares, System GMM, and Heckman tests. This study finds that the higher the intensity of equity incentives, the lower the level of corporate excess cash holdings. The intensity of equity incentives inhibits defensive behavior in corporate cash holding decisions. A substitute relationship is observed between equity incentive intensity and product market competition in the inhibition of management defensive behavior in cash holding decision. Our further research finds that the inhibitory effect of equity incentive intensity on the defensive behavior of cash holding decisions mainly exists in the case of ineffective supervision by large shareholders and creditors. For theoretical contribution, this paper tries to explore the governance effect of equity incentive on the management defensive behavior in a company's cash holding decision making. It also reveals the substitute relationship between the intensity of equity incentive and the product market competition in suppressing the management defensive behavior in the cash holding decision of enterprises. Moreover, it provides new evidence for the governance effect of equity incentive in the institutional environment and expands the literature on equity incentive effects. [ABSTRACT FROM AUTHOR]

Published

2023

110. WANTED: Peacebuilders, not Troublemakers in the U.S.-China Relations in an Era of Global Challenges.

Author

de Castro, Douglas

Subjects

CHINA-United States relations, GREAT powers (International relations), INTERNATIONAL relations, DEFENSIVENESS (Psychology), GEOPOLITICS

Abstract

This study explores the complex structure of current international relations, highlighting the significant influence of fear and perception on the global political situation, specifically in connection to the U.S.-China dynamic. The research examines how the prevailing atmosphere in this setting is characterized by an abundance of fear and misunderstandings, which in turn prompt governments to adopt defensive and aggressive tactics in order to safeguard their interests, which frequently result in heightened disputes and security predicaments. The analysis focuses on the intricate interactions between the United States and China, which are two of the most prominent global powers. Their profound economic reliance, along with their ideological differences, requires a comprehensive comprehension of their relationship. This is particularly relevant in talks over the proposed foreign pollution fee introduced by U.S. Senator Bill Cassidy. It provides an illustrative example of how environmental, economic, and geopolitical factors interact. The study advocates for the significance of collaborative strategies in global policy formulation, particularly in the aftermath of the post-pandemic era, highlighting the importance of policies that recognize the interdependence in global problems and the overlapping areas of international systems, while also taking into account historical and persistent global disparities. [ABSTRACT FROM AUTHOR]

Published

2023

111. Elaboración, validez de contenido y fiabilidad del instrumento de observación SOCTOD-BSR para el análisis de acciones en baloncesto en silla de ruedas.

Author

García-Fresneda, Adrián, Muñoz-Arroyave, Verónica, Iglesias-Reig, Xavier, Theodorou, Apostolos, Suárez-Iglesias, David, and Pardo-Fernández, Alba

Subjects

PSYCHOMETRICS, GENERALIZABILITY theory, WHEELCHAIR basketball, TEST validity, DEFENSIVENESS (Psychology), JUDGMENT (Psychology), HETEROGENEITY

Abstract

Copyright of Retos: Nuevas Perspectivas de Educación Física, Deporte y Recreación is the property of Federacion Espanola de Asociaciones de Docentes de Educacion Fisica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

112. Multiple factors contribute to flight behaviors during fear conditioning.

Author

Furuyama, Takafumi, Imayoshi, Ayana, Iyobe, Toyo, Ono, Munenori, Ishikawa, Tatsuya, Ozaki, Noriyuki, Kato, Nobuo, and Yamamoto, Ryo

Subjects

*CONDITIONED response, *DEFENSIVENESS (Psychology), *AUDITORY perception, *STIMULUS intensity

Abstract

Shifting defensive mode from one to another by the imminence of threat is crucial for survival. The transition of defensive mode from freezing to flight is observed during the modified fear conditioning, however, the flight during fear conditioning is not well characterized. To characterize the flight behaviors during the fear conditioning, we conducted experiments in male mice focusing on the influence of the context, the intensity of the unconditioned stimulus and conditioned stimulus (CS), the schedule of conditioning, and the state of the subject. Flight behaviors triggered by salient CS showed characteristics of fear-potentiated defensive behaviors depending on the conditioned context, while repetitive conditioning enhanced the expression of the flight and developed an association between the CS and the flight. The salient auditory stimulus was the primary factor to trigger flight behaviors. Also, the spaced conditioning increased the expression of flight behaviors. Taken together, the flight behavior during fear conditioning is not a simple conditioned response nor simple fear-potentiated behavior, but a complicated mixture of multiple components of defensive behaviors. The transition of defensive mode could be induced by the integration of multiple innate and learned components of fear or anxiety. [ABSTRACT FROM AUTHOR]

Published

2023

113. Honey Bee Colonies (Apis mellifera L.) Perform Orientation Defensiveness That Varies among Bred Lines.

Author

Akongte, Peter Njukang, Park, Bo-Sun, Kim, Dong-Won, and Choi, Yong-Soo

Subjects

*HONEYBEES, *BEE colonies, *SUEDE leather, *COLONIES (Biology), *DEFENSIVENESS (Psychology), *BEHAVIORAL assessment

Abstract

Simple Summary: Honey bee aggression constitutes an important defensive mechanism for honeybee colonies and humans. However, due to the complexity associated with this behavior, beekeepers are still faced with the challenges of selecting defensive and less-defensive bred lines. This could be achieved through selective breeding in closed mating stations. We endeavored to evaluate defensiveness and orientation in five bred lines of honeybee colonies using a combination of chemical (alarm pheromone and isopentyl acetate mixed with paraffin oil) and physical (dark leather suede, colony marbling, and suede jiggling) stimuli to identify defensive and less-defensive bred lines. We found that chemical assays associated with physical stimuli recruited bees to the suedes, but the time of recruitment was faster when stimulated by alarm pheromone compared to isopentyl acetate mixed with paraffin oil. Defensiveness varied among bred lines, and orientation was highest in defensive bred lines compared to less-defensive bred lines. Beekeepers are therefore advised to evaluate orientation defensiveness at the colony level and among bred lines when selecting breeding colonies for defensive purposes. Honey bees (Apis mellifera L.) express complex behavioral patterns (aggressiveness) in defensive mechanisms for their survival. Their phenotypic expression of defensive behavior is influenced by internal and external stimuli. Knowledge of this behavior has recently become increasingly important, though beekeepers are still faced with the challenges of selecting defensive and less-defensive bred lines. Field evaluation of defensive behavior among bred lines of honey bees is required to overcome the challenges. Chemical cues (alarm pheromone and isopentyl acetate mixed with paraffin oil) and physical and visual stimuli (dark leather suede, colony marbling, and suede jiggling) were used to evaluate defensiveness and orientation among five bred lines of honeybee colonies. Our results showed that both chemical assays recruited bees, but the time of recruitment was significantly faster for alarm pheromone. Honeybees' response to both assays culminated in stings that differed among bred lines for alarm pheromone and paraffin when colonies were marbled. Honeybee orientation defensiveness varied among bred lines and was higher in more defensive bred lines compared to less-defensive bred lines. Our findings suggest that it is crucial to repeatedly evaluate orientation defensiveness at the colony level and among bred lines when selecting breeding colonies. [ABSTRACT FROM AUTHOR]

Published

2023

114. Taking Back Control: Findings on the Cognitive, Behavioral, and Motivational Consequences of Victim Sensitivity.

Author

Buchholz, Merle, Gollwitzer, Mario, Magraw-Mickelson, Zoe, Stolz, Christopher, and Süssenbach, Philipp

Subjects

*CONTROL (Psychology), *COGNITIVE ability, *MOTIVATION (Psychology), *EVIDENCE gaps, *VIRTUAL reality, *DEFENSIVENESS (Psychology)

Abstract

Being duped is an aversive experience which people are motivated to avoid. For this reason, especially people with a high fear of exploitation (i.e., people high in victim sensitivity; VS) often behave pre-emptively selfish and defensive in socially uncertain situations. Because the cognitive and motivational processes underlying such defensiveness have received little attention so far, we conducted two studies aiming to close this research gap. In Study 1 (n = 84), we used virtual reality technology to examine whether social distancing, hostile interpretations of an interaction partner's intentions and behavior, and legitimizing cognitions regarding own selfish reactions (as elements of a suspicious mindset) mediate the effect of VS on uncooperativeness. Results did not show the expected mediation, but VS was still related to hostile information processing and fear of exploitation. In Study 2 (n = 273), we extended these findings by showing that defensive reactions of people high in VS can be attenuated if a sense of control is reinforced. Together, the two studies crucially expand our knowledge of the defensive motivational system in victim-sensitive individuals. [ABSTRACT FROM AUTHOR]

Published

2023

115. Detection of neuronal defensive discharge information transmission and characteristics in periaqueductal gray double-subregions using PtNP/PEDOT:PSS modified microelectrode arrays.

Author

Lu, Botao, Fan, Penghui, Li, Ming, Wang, Yiding, Liang, Wei, Yang, Gucheng, Mo, Fan, Xu, Zhaojie, Shan, Jin, Song, Yilin, Liu, Juntao, Wu, Yirong, and Cai, Xinxia

Subjects

DEFENSIVENESS (Psychology), ENDANGERED species, MESENCEPHALON, NEURONS, NEURAL transmission

Abstract

Threatened animals respond with appropriate defensive behaviors to survive. It has been accepted that midbrain periaqueductal gray (PAG) plays an essential role in the circuitry system and organizes defensive behavioral responses. However, the role and correlation of different PAG subregions in the expression of different defensive behaviors remain largely unexplored. Here, we designed and manufactured a microelectrode array (MEA) to simultaneously detect the activities of dPAG and vPAG neurons in freely behaving rats. To improve the detection performance of the MEAs, PtNP/PEDOT:PSS nanocomposites were modified onto the MEAs. Subsequently, the predator odor was used to induce the rat's innate fear, and the changes and information transmission in neuronal activities were detected in the dPAG and vPAG. Our results showed that the dPAG and vPAG participated in innate fear, but the activation degree was distinct in different defense behaviors. During flight, neuronal responses were stronger and earlier in the dPAG than the vPAG, while vPAG neurons responded more strongly during freezing. By applying high-performance MEA, it was revealed that neural information spread from the activated dPAG to the weakly activated vPAG. Our research also revealed that dPAG and vPAG neurons exhibited different defensive discharge characteristics, and dPAG neurons participated in the regulation of defense responses with burst-firing patterns. The slow activation and continuous firing of vPAG neurons cooresponded with the regulation of long-term freezing responses. The results demonstrated the important role of PAG neuronal activities in controlling different aspects of defensive behaviors and provided novel insights for investigating defense from the electrophysiological perspective. [ABSTRACT FROM AUTHOR]

Published

2023

116. Dynamic causal modeling reveals increased cerebellar-periaqueductal gray communication during fear extinction.

Author

Paci, Elena, Lumb, Bridget M., Apps, Richard, Lawrenson, Charlotte L., and Moran, Rosalyn J.

Subjects

AUDITORY evoked response, CAUSAL models, FEAR, DYNAMIC models, DEFENSIVENESS (Psychology), POSTSYNAPTIC potential, CEREBELLAR nuclei

Abstract

Introduction: The extinction of fear memories is an important component in regulating defensive behaviors, contributing toward adaptive processes essential for survival. The cerebellar medial nucleus (MCN) has bidirectional connections with the ventrolateral periaqueductal gray (vlPAG) and is implicated in the regulation of multiple aspects of fear, such as conditioned fear learning and the expression of defensive motor outputs. However, it is unclear how communication between the MCN and vlPAG changes during conditioned fear extinction. Methods: We use dynamic causal models (DCMs) to infer effective connectivity between the MCN and vlPAG during auditory cue-conditioned fear retrieval and extinction in the rat. DCMs determine causal relationships between neuronal sources by using neurobiologically motivated models to reproduce the dynamics of post-synaptic potentials generated by synaptic connections within and between brain regions. Auditory event related potentials (ERPs) during the conditioned tone offset were recorded simultaneously from MCN and vlPAG and then modeled to identify changes in the strength of the synaptic inputs between these brain areas and the relationship to freezing behavior across extinction trials. The DCMs were structured to model evoked responses to best represent conditioned tone offset ERPs and were adapted to represent PAG and cerebellar circuitry. Results: With the use of Parametric Empirical Bayesian (PEB) analysis we found that the strength of the information flow, mediated through enhanced synaptic efficacy from MCN to vlPAG was inversely related to freezing during extinction, i.e., communication from MCN to vlPAG increased with extinction. Discussion: The results are consistent with the cerebellum contributing to predictive processes that underpin fear extinction. [ABSTRACT FROM AUTHOR]

Published

2023

117. Synaptic properties of mouse tecto-parabigeminal pathways.

Author

Whyland, Kyle L., Masterson, Sean P., Slusarczyk, Arkadiusz S., and Bickford, Martha E.

Subjects

SUPERIOR colliculus, DEFENSIVENESS (Psychology), ELECTRON microscopy, MICE, OPTOGENETICS, NEURONS

Abstract

The superior colliculus (SC) is a critical hub for the generation of visually-evoked orienting and defensive behaviors. Among the SC’s myriad downstream targets is the parabigeminal nucleus (PBG), the mammalian homolog of the nucleus isthmi, which has been implicated in motion processing and the production of defensive behaviors. The inputs to the PBG are thought to arise exclusively from the SC but little is known regarding the precise synaptic relationships linking the SC to the PBG. In the current study, we use optogenetics as well as viral tracing and electron microscopy in mice to better characterize the anatomical and functional properties of the SC-PBG circuit, as well as the morphological and ultrastructural characteristics of neurons residing in the PBG. We characterized GABAergic SCPBG projections (that do not contain parvalbumin) and glutamatergic SC-PBG projections (which include neurons that contain parvalbumin). These two terminal populations were found to converge on different morphological populations of PBG neurons and elicit opposing postsynaptic effects. Additionally, we identified a population of non-tectal GABAergic terminals in the PBG that partially arise from neurons in the surrounding tegmentum, as well as several organizing principles that divide the nucleus into anatomically distinct regions and preserve a coarse retinotopy inherited from its SC-derived inputs. These studies provide an essential first step toward understanding how PBG circuits contribute to the initiation of behavior in response to visual signals. [ABSTRACT FROM AUTHOR]

Published

2023

118. Exploring hazard anticipation and stress while driving in light of defensive behavior theory.

Author

Kerautret, Laora, Dabic, Stephanie, and Navarro, Jordan

Subjects

*DEFENSIVENESS (Psychology), *EXPECTATION (Psychology), *PUPILLARY reflex, *HAZARDS, *HEART beat, *TRAFFIC safety

Abstract

In driving, poor hazard anticipation would provide drivers less time to prepare an appropriate response, increasing the urgency of the situation and generating more stress. Assuming this, the current study seeks to determine whether a predictable road hazard triggers hazard anticipation in drivers that can mitigate the ensuing stress response, and whether the stress response is influenced by driving experience. In a simulated road environment, a cue was used to trigger hazard anticipation, and a road hazard to induce a stress response. Heart rate, pupil diameter, driving speed, subjective stress, arousal, and negative emotions, were retrieved from 36 drivers who all faced the cue followed by the hazard (i.e. a predictable hazard), the cue only, and the hazard only. In the light of work on defensive behaviors, the findings indicate that a predictable hazard triggers hazard anticipation detectable via (1) freezing behavior—characterized by cardiac deceleration—(2) anticipatory pupil dilation and (3) anticipatory speed deceleration. The results also point to a beneficial role for hazard anticipation in reducing driver stress, as evidenced by reductions in peak heart rate levels, as well as in reported levels of stress and negative emotions. Finally, the findings showed an influence of driving experience on reported levels of stress. Overall, this study shows how previous work on defensive behaviors can be used to gain insight into the processes and driving behaviors involved in hazard anticipation and stress. [ABSTRACT FROM AUTHOR]

Published

2023

119. Defensive and Emotional Behavior Modulation by Serotonin in the Periaqueductal Gray.

Author

Vázquez-León, Priscila, Miranda-Páez, Abraham, Valencia-Flores, Kenji, and Sánchez-Castillo, Hugo

Subjects

*RAPHE nuclei, *SEROTONIN, *DEFENSIVENESS (Psychology), *PERIAQUEDUCTAL gray matter, *PASSIVITY (Psychology), *PREFRONTAL cortex, *PARAVENTRICULAR nucleus

Abstract

Serotonin 5-hydroxytryptamine (5-HT) is a key neurotransmitter for the modulation and/or regulation of numerous physiological processes and psychiatric disorders (e.g., behaviors related to anxiety, pain, aggressiveness, etc.). The periaqueductal gray matter (PAG) is considered an integrating center for active and passive defensive behaviors, and electrical stimulation of this area has been shown to evoke behavioral responses of panic, fight-flight, freezing, among others. The serotonergic activity in PAG is influenced by the activation of other brain areas such as the medial hypothalamus, paraventricular nucleus of the hypothalamus, amygdala, dorsal raphe nucleus, and ventrolateral orbital cortex. In addition, activation of other receptors within PAG (i.e., CB1, Oxytocin, µ-opioid receptor (MOR), and γ-aminobutyric acid (GABAA)) promotes serotonin release. Therefore, this review aims to document evidence suggesting that the PAG-evoked behavioral responses of anxiety, panic, fear, analgesia, and aggression are influenced by the activation of 5-HT1A and 5-HT2A/C receptors and their participation in the treatment of various mental disorders. [ABSTRACT FROM AUTHOR]

Published

2023

120. Developmental changes in red-eyed treefrog embryo behavior increase escape-hatching success in wasp attacks.

Author

Gomez, Elena K., Chaiyasarikul, Alina, Güell, Brandon A., and Warkentin, Karen M.

Subjects

EGG incubation, PREDATION, EGG cases (Zoology), EMBRYOS, WASPS, EGGS, DEFENSIVENESS (Psychology), HYLIDAE

Abstract

The arboreal embryos of red-eyed treefrogs (Agalychnis callidryas) hatch prematurely to escape from egg predators, and escape success increases with age. We assessed developmental changes in the behavior and hatching performance of embryos attacked by wasps (Polybia rejecta) and their contributions to improved embryo survival. We recorded videos of 4- and 5-day-old embryos exposed to wasp attacks and determined each embryo's fate. For a stratified random sample of embryos that escaped and died, we determined the occurrence, sequence, and timing of events during wasp-embryo interactions. We constructed path diagrams of event sequences, tested for age effects on transition probabilities, and measured the durations of periods between key events. Overall, escape success was 38% higher in older embryos. They were more likely to hatch pre-emptively than younger ones, thus less likely to experience direct attacks, suggesting that developmental gains in mechanosensory sensitivity may increase hatching responses to indirect cues. During direct attacks, embryos were equally likely to be captured by wasps at both ages, and hatching speed was similar, suggesting no relevant difference in escape-hatching performance. After a wasp ruptured their egg capsule, older embryos were more likely to exit, and they did so much sooner; younger embryos remained in ruptured capsules for longer and were more likely to be attacked again. This developmental change in embryo behavior indicates decreased tolerance for egg-stage risk as the chance of tadpole survival increases, suggesting that ontogenetic adaptation to changing risk trade-offs contributes strongly to the developmental increase in escape success. Significance statement: As animals develop, both their abilities and the optimal strategies for antipredator defense change, and some show ontogenetic adaptation of defensive behavior. This is documented in the larval and juvenile stages but rarely examined during the embryonic period, when development is fastest. We document substantial changes in embryo behavior across a 1-day period following the onset of predator-induced hatching in red-eyed treefrogs, with rapidly decreasing tolerance of egg-stage risk contributing to higher survival under wasp predation as the costs of hatching decrease. This provides evidence for ontogenetic adaptation of defensive behavior in a natural predation context and across an earlier developmental period than previously known, thereby strengthening results from prior work with vibration playbacks across later developmental stages. It suggests that even during periods of rapid development of morphology and abilities, understanding behavioral decisions may be crucial to explaining changes in survival. [ABSTRACT FROM AUTHOR]

Published

2023

121. Contribution of Transglutaminase to the Induction and Maintenance of Long-Term Synaptic Potentiation in Neurons in the Common Snail.

Author

Zuzina, A. B. and Balaban, P. M.

Subjects

LONG-term potentiation, NEURAL transmission, NEURONS, DEFENSIVENESS (Psychology), CENTRAL nervous system, TRANSGLUTAMINASES

Abstract

Previous studies have shown that the neurotransmitter serotonin is required for the successful formation of long-term potentiation in the terrestrial snail Helix lucorum. Ever more data have accumulated in the recent literature on the important role of serotonin as an agent acting not only via synaptic receptors, but also by covalent attachment to protein targets within cells by serotonylation. The enzyme mediating this modification is type II transglutaminase (transglutaminase). No studies elucidating the role of transglutaminases in serotonin-dependent plasticity have yet been reported. The present investigation is the first to address the effect of blocking transglutaminase with the inhibitor monodansylcadaverine on the formation of long-term potentiation of synaptic responses in identified defensive behavior premotor (command) neurons in the common snail. These studies showed that application of the transglutaminase inhibitor monodansylcadaverine disrupts the late phase of long-term potentiation of the amplitude of the synaptic response due to application of five trains of tetanization stimuli to the sensory nerve (the second cutaneous or intestinal nerve) combined with application of serotonin in in vitro isolated central nervous system preparations. We also found that application of monodansylcadaverine alone did not affect synaptic transmission in premotor neurons. These results suggest that maintenance of the serotonin-induced late phase of long-term potentiation of synaptic responses in defensive behavior premotor (command) neurons in the common snail requires transglutaminase-mediated serotonylation. [ABSTRACT FROM AUTHOR]

Published

2023

122. Defensive Behaviors During COVID-19 and the 2020–2021 Firearm Purchasing Surge: A Latent Class Analysis.

Author

Anestis, Michael D., Bond, Allison E., Bandel, Shelby L., Betz, Marian E., and Bryan, Craig J.

Subjects

*COVID-19 pandemic, *FIREARM sales & prices, *DEFENSIVENESS (Psychology), *HEALTH behavior, *CONSUMER behavior

Abstract

Objective: This study examined the extent to which political beliefs and public health behaviors cluster together and define distinct groups of individuals and whether those groups differ on firearm purchasing behaviors. Methods: 6,404 US residents (Minnesota, n = 1,789; Mississippi, n = 1,418; New Jersey, n = 3,197) were recruited via Qualtrics panels. Participants were matched to 2010 census data. Results: Fit statistics determined a four-class solution fit the data best. The Liberal-Many Health Behaviors class had high probabilities of voting for President Biden, reporting more liberal political beliefs than other classes, and engaging in multiple health behaviors (e.g., mask wearing, vaccination). The Moderate-Few Health Behaviors class had high probabilities of voting for President Biden, reporting moderate political beliefs, and engaging in few health behaviors. The Conservative-Few Health Behaviors class had high probabilities of voting for former President Trump, reporting conservative political beliefs, and engaging in few health behaviors. The Conservative-Many Health Behaviors class had high probabilities of voting for former President Trump, having conservative political beliefs, and engaging in many health behaviors. Of the participants in the study who reported owning firearms, those in the Few Health Behavior classes were more likely to have purchased firearms during the purchasing surge, whereas those in the Many Health Behavior classes were likely to have become first-time firearm owners in 2020-2021. Lastly, the Few Health Behavior classes exhibited significantly less trust in the intentions of scientists. Conclusion: Different subgroups of firearm owners may evaluate and respond to risk differently, resulting in a pattern of adopting or avoiding a range of public health recommendations. Those who avoided mask wearing and COVID-19 vaccinations and who purchased firearms during the firearm purchasing surge appear to have less trust in science, highlighting the need for trusted messengers to increase the reach of behavioral interventions. [ABSTRACT FROM AUTHOR]

Published

2023

123. The effect of inherently threatening contexts on visuocortical engagement to conditioned threat.

Author

Stegmann, Yannik, Andreatta, Marta, and Wieser, Matthias J.

Subjects

*FEAR, *DEFENSIVENESS (Psychology), *VISUAL evoked potentials, *SELECTIVITY (Psychology), *EMOTIONAL state, *CONDITIONED response, *HEART beat

Abstract

Fear and anxiety are crucial for adaptive responding in life‐threatening situations. Whereas fear is a phasic response to an acute threat accompanied by selective attention, anxiety is characterized by a sustained feeling of apprehension and hypervigilance during situations of potential threat. In the current literature, fear and anxiety are usually considered mutually exclusive, with partially separated neural underpinnings. However, there is accumulating evidence that challenges this distinction between fear and anxiety, and simultaneous activation of fear and anxiety networks has been reported. Therefore, the current study experimentally tested potential interactions between fear and anxiety. Fifty‐two healthy participants completed a differential fear conditioning paradigm followed by a test phase in which the conditioned stimuli were presented in front of threatening or neutral contextual images. To capture defense system activation, we recorded subjective (threat, US‐expectancy), physiological (skin conductance, heart rate) and visuocortical (steady‐state visual evoked potentials) responses to the conditioned stimuli as a function of contextual threat. Results demonstrated successful fear conditioning in all measures. In addition, threat and US‐expectancy ratings, cardiac deceleration, and visuocortical activity were enhanced for fear cues presented in threatening compared with neutral contexts. These results are in line with an additive or interactive rather than an exclusive model of fear and anxiety, indicating facilitated defensive behavior to imminent danger in situations of potential threat. Our research adds a new perspective on a potential interaction between fear and anxiety. We provide first evidence for enhanced defensive (fear) responses in potentially threatening (anxiety) contexts as indexed by multiple measures of defensive responding (perceived threat, HR, and EEG), suggesting that anxiety may facilitate fear responses rather than both emotional states being mutually exclusive. [ABSTRACT FROM AUTHOR]

Published

2023

124. Role of pontine sub-laterodorsal tegmental nucleus (SLD) in rapid eye movement (REM) sleep, cataplexy, and emotion.

Author

Fang-Fang Fan, Vetrivelan, Ramalingam, Yi Yang, Zhen-Ni Guo, and Jun Lu

Subjects

*EYE movements, *CATAPLEXY, *RAPID eye movement sleep, *DEFENSIVENESS (Psychology), *EXPOSURE therapy, *FAST Fourier transforms, *EMOTIONS

Abstract

Pontine sub-laterodorsal tegmental nucleus (SLD) is crucial for REM sleep. However, the necessary role of SLD for REM sleep, cataplexy that resembles REM sleep, and emotion memory by REM sleep has remained unclear. To address these questions, we focally ablated SLD neurons using adenoviral diphtheria-toxin (DTA) approach and found that SLD lesions completely eliminated REM sleep accompanied by wake increase, significantly reduced baseline cataplexy amounts by 40% and reward (sucrose) induced cataplexy amounts by 70% and altered cataplexy EEG Fast Fourier Transform (FFT) from REM sleep-like to wake-like in orexin null (OXKO) mice. We then used OXKO animals with absence of REM sleep and OXKO controls and examined elimination of REM sleep in anxiety and fear extinction. Our resulted showed that REM sleep elimination significantly increased anxiety-like behaviors in open field test (OFT), elevated plus maze test (EPM) and defensive aggression and impaired fear extinction. The data indicate that in OXKO mice the SLD is the sole generator for REM sleep; (2) the SLD selectively mediates REM sleep cataplexy (R-cataplexy) that merges with wake cataplexy (W-cataplexy); (3) REM sleep enhances positive emotion (sucrose induced cataplexy) response, reduces negative emotion state (anxiety), and promotes fear extinction. [ABSTRACT FROM AUTHOR]

Published

2023

125. In Search of a Defensive Equity Factor.

Author

French, Ross and Gärtner, Niklas

Subjects

INVESTORS, DEFENSIVENESS (Psychology), CAPITAL losses, BUSINESS cycle accounting, MARKETS

Abstract

The authors seek to establish which factors are appropriate for defensive investors, where defensiveness is defined along three dimensions: low risk of permanent capital loss, low business cycle risk, and low market risk. They analyze a range of volatility and quality factor characteristics through both a theoretical and empirical lens, discovering that low leverage, earnings volatility, and return volatility are the most consistently defensive. Profitability is the next most powerful characteristic, though for it to be reliably defensive, leverage must be controlled for in its definition or implementation. Asset turnover and earnings quality, measured by the level of accruals, have also empirically behaved like defensive characteristics, though to a lesser extent and less consistently. Low investment had lackluster results in all tests, whereas high forecast growth is confirmed to be entirely inappropriate for defensive investors. [ABSTRACT FROM AUTHOR]

Published

2023

126. Evaluating the cues that coordinate a shift towards the robbing foraging tactic in the honey bee (Apis mellifera).

Author

Napier, Taylor C., Westwick, Rebecca R., Kane, Caroline W., and Rittschof, Clare C.

Subjects

HONEYBEES, HONEY, BEE colonies, DEFENSIVENESS (Psychology), FOOD shortages, BEES

Abstract

In a social species like the honey bee (Apis mellifera), changes in foraging strategy require shifts in several groups of specialized workers that are involved in collecting, storing, and processing food. In cases of extreme food shortage, honey bee colonies can switch to a high-risk, high-reward foraging tactic known as honey robbing, which involves stealing mature honey from other colonies. Colonies engaged in honey robbing show a corresponding increase in defensive behaviors displayed by specialist guard bees, presumably because the conditions that provoke robbing also increase the risk of colony invasion. Previous studies suggest aggressive behaviors displayed by robbing forager nestmates modulate guard defensiveness. In the current study, we evaluated which aspects of the robbing experience likely alter forager aggression, and in turn, guard defensiveness. We trained colonies to visit feeders containing either raw honey or a sucrose solution and examined whether food type, experience of conflict at the feeder, or other abiotic cues that reflect the time of the season best explain variation in guard defensiveness. We found little evidence that food type influences forager interactions with guards. Rather, conflict at the feeder is the best predictor of increased aggressive interactions, even when accounting for the effects of seasonal change. Thus, intraspecific conflict at the food resource during robbing may drive shifts in individual forager aggression, activating guard defensiveness as one component of a syndrome of colony-level changes required to accommodate the robbing foraging tactic. Significance statement: Honey bees possess an extreme foraging tactic that they employ under conditions of resource scarcity. This tactic, honey robbing, requires coordinated changes among worker bees to accommodate enhanced food collection, processing, and storing, as well as nest defense. In a previous study, we showed that robbing foragers show unusually high aggression, and that this shift may trigger greater defensiveness from nestmate guards once foragers return home. Here, we explored the cues that coordinate the change in defensive effort from guards and find that forager conflict at the food resource is a strong predictor of guard defensiveness. These results suggest that guards use behavioral cues from their own foragers to estimate their risk of attack and increase their defensiveness accordingly. [ABSTRACT FROM AUTHOR]

Published

2023

127. Cerebellar contribution to the regulation of defensive states.

Author

Neubert da Silva, Gabriela, Seiffert, Nina, and Tovote, Philip

Subjects

CEREBELLAR nuclei, STATE regulation, DEFENSIVENESS (Psychology), CEREBELLUM, FEAR, BLOOD pressure, EMOTION regulation

Abstract

Despite fine tuning voluntary movement as the most prominently studied function of the cerebellum, early human studies suggested cerebellar involvement emotion regulation. Since, the cerebellum has been associated with various mood and anxiety-related conditions. Research in animals provided evidence for cerebellar contributions to fear memory formation and extinction. Fear and anxiety can broadly be referred to as defensive states triggered by threat and characterized by multimodal adaptations such as behavioral and cardiac responses integrated into an intricately orchestrated defense reaction. This is mediated by an evolutionary conserved, highly interconnected network of defense-related structures with functional connections to the cerebellum. Projections from the deep cerebellar nucleus interpositus to the central amygdala interfere with retention of fear memory. Several studies uncovered tight functional connections between cerebellar deep nuclei and pyramis and the midbrain periaqueductal grey. Specifically, the fastigial nucleus sends direct projections to the ventrolateral PAG to mediate fear-evoked innate and learned freezing behavior. The cerebellum also regulates cardiovascular responses such as blood pressure and heart rate-effects dependent on connections with medullary cardiac regulatory structures. Because of the integrated, multimodal nature of defensive states, their adaptive regulation has to be highly dynamic to enable responding to a moving threatening stimulus. In this, predicting threat occurrence are crucial functions of calculating adequate responses. Based on its role in prediction error generation, its connectivity to limbic regions, and previous results on a role in fear learning, this review presents the cerebellum as a regulator of integrated cardio-behavioral defensive states. [ABSTRACT FROM AUTHOR]

Published

2023

128. A parabrachial to hypothalamic pathway mediates defensive behavior.

Author

Fan Wang, Yuge Chen, Yuxin Lin, Xuze Wang, Kaiyuan Li, Yong Han, Jintao Wu, Xingyi Shi, Zhenggang Zhu, Chaoying Long, Xiaojun Hu, Shumin Duan, and Zhihua Gao

Subjects

*DEFENSIVENESS (Psychology), *HYPOTHALAMUS, *PARAVENTRICULAR nucleus, *NEURONS, *PHOTOACTIVATION, *AXONS

Abstract

Defensive behaviors are critical for animal's survival. Both the paraventricular nucleus of the hypothalamus (PVN) and the parabrachial nucleus (PBN) have been shown to be involved in defensive behaviors. However, whether there are direct connections between them to mediate defensive behaviors remains unclear. Here, by retrograde and anterograde tracing, we uncover that cholecystokinin (CCK)-expressing neurons in the lateral PBN (LPBCCK) directly project to the PVN. By in vivo fiber photometry recording, we find that LPBCCK neurons actively respond to various threat stimuli. Selective photoactivation of LPBCCK neurons promotes aversion and defensive behaviors. Conversely, photoinhibition of LPBCCK neurons attenuates rat or looming stimuli-induced flight responses. Optogenetic activation of LPBCCK axon terminals within the PVN or PVN glutamatergic neurons promotes defensive behaviors. Whereas chemogenetic and pharmacological inhibition of local PVN neurons prevent LPBCCK-PVN pathway activation-driven flight responses. These data suggest that LPBCCK neurons recruit downstream PVN neurons to actively engage in flight responses. Our study identifies a previously unrecognized role for the LPBCCK-PVN pathway in controlling defensive behaviors. [ABSTRACT FROM AUTHOR]

Published

2023

129. What determines the neural response to snakes in the infant brain? A systematic comparison of color and grayscale stimuli.

Author

Bertels, Julie, de Heering, Adelaïde, Bourguignon, Mathieu, Cleeremans, Axel, and Destrebecqz, Arnaud

Subjects

SNAKES, INFANTS, ANIMAL coloration, DEFENSIVENESS (Psychology), NATURAL selection

Abstract

Snakes and primates have coexisted for thousands of years. Given that snakes are the first of the major primate predators, natural selection may have favored primates whose snake detection abilities allowed for better defensive behavior. Aligning with this idea, we recently provided evidence for an inborn mechanism anchored in the human brain that promptly detects snakes, based on their characteristic visual features. What are the critical visual features driving human neural responses to snakes is an unresolved issue. While their prototypical curvilinear coiled shape seems of major importance, it remains possible that the brain responds to a blend of other visual features. Coloration, in particular, might be of major importance, as it has been shown to act as a powerful aposematic signal. Here, we specifically examine whether color impacts snake-specific responses in the naive, immature infant brain. For this purpose, we recorded the brain activity of 6-to 11-month-old infants using electroencephalography (EEG), while they watched sequences of color or grayscale animal pictures flickering at a periodic rate. We showed that glancing at colored and grayscale snakes generated specific neural responses in the occipital region of the brain. Color did not exert a major influence on the infant brain response but strongly increased the attention devoted to the visual streams. Remarkably, age predicted the strength of the snake-specific response. These results highlight that the expression of the brain-anchored reaction to coiled snakes bears on the refinement of the visual system. [ABSTRACT FROM AUTHOR]

Published

2023

130. The Geography of Sexual Conflict: A Synthetic Review.

Author

Bacon, Ryan, Washington, Dante, Johnson, Maya-K, and Burns, Mercedes

Subjects

*LIFE history theory, *REPRODUCTION, *ANIMAL species, *ANIMAL sexual behavior, *ZOOGEOGRAPHY, *DEFENSIVENESS (Psychology), *PLANT reproduction, *GEOGRAPHY

Abstract

Sexual conflict is a mechanism of selection driven by the divergent fitness interests between females and males. This disagreement can be great enough to promote antagonistic/defensive traits and behaviors. Although the existence of sexual conflict has been identified in many species, less research has explored the conditions that initially promote sexual conflict in animal mating systems. In previous work in Opiliones, we observed that morphological traits associated with sexual conflict occurred only in species from northern localities. We hypothesized that by shortening and compartmentalizing time periods optimal for reproduction, seasonality represents a geographic condition sufficient to promote sexual conflict. We conducted a systematic review of the literature on reproductive traits and behaviors. Using standardized criteria, we reviewed publications to identify whether subjects occurred in a temperate (high-seasonality) or tropical (low-seasonality) biome. After identifying and adjusting for a publication bias toward temperate research, we identified no significant difference in the strength of sexual conflict between temperate and tropical study systems. A comparison between the distribution of taxa studied in sexual conflict articles and articles focused on general biodiversity indicates that species with conflict-based mating systems more accurately represent the distribution of terrestrial animal species. These findings contribute to ongoing efforts to characterize the origins of sexual conflict as well as life history traits that covary with sexual conflict. [ABSTRACT FROM AUTHOR]

Published

2023

131. Defensive Warning Behavior Expressed by Three Species of Polistine Wasps.

Author

Hermann, Henry R., Kelting, Timothy, and Capobianco, Peter

Subjects

*DEFENSIVENESS (Psychology), *WASPS, *WARNINGS, *INSECT societies, *SPECIES

Abstract

Although expressions of warning intruders in colonies of polistine wasps appear to vary somewhat with species-specific defensiveness, the type of intrusion, age of the colony, age and type of the nest occupants, and degree of colony homeostasis, they often share commonly expressed forms of behavior when warning both invertebrate and vertebrate intruders in the vicinity of the nest site. Warning behavior is not associated with most of the home range but with a nest yard, an area within visual range of the nest. The distance from the nest at which stinging is demonstrated is defined as a sting threshold point, which varies among different species and at different periods in the annual cycle. Aposematic coloration and pattern, expressed to varying degrees in different species and sexes, are demonstrated passively but play an active role in defense when combined with warning displays. While males do not engage in active defense, they play a more passive defensive role, and sometimes possess stronger aposematic patterns than those of females. They also engage in a low degree of overt warning expressions. Mientras que las expresiones de advertencia en las colonias de avispas polistinas parecen variar algo con actitudes defensiva propias de cada especie, el tipo de intrusión, edad de la Colonia, edad y tipo de ocupantes del nido y el grado de homeostasis de la colonia, a menudo comparten formas comunes de comportamiento de advertencia ante intrusos que se acerquen al nido ya sean invertebrados o vertebrados. El comportamiento de advertencia no está asociado con la mayoría del área de vida (home range) sino con el "patio del nido," la adyacencia inmediata visual al nido. La distancia del nido a la cual puede suceder la picadura se define como el umbral de la picaura, la cual varía entre diferentes especies y en diferentes períodos del ciclo anual. Coloración aposemática y patrón, expresado en diversos grados en diferentes especies y sexos, se manifiestan pasivamente, pero juegan un papel activo en la defensa cuando se combina con el comportamiento agonístico. Aunque los machos no participan en la defensa activa, ellos juegan un papel defensivo pasivo y a menudo poseen patrones aposemáticos más fuertes que los de las hembras. También participan en bajo grado en manifiestas expresiones de advertencia. [ABSTRACT FROM AUTHOR]

Published

2023

132. Anatomical and functional study of the cuneiform nucleus: A critical site to organize innate defensive behaviors.

Author

Bindi, Ricardo P., Guimarães, Cibele C., de Oliveira, Amanda R., Melleu, Fernando F., de Lima, Miguel A. X., Baldo, Marcus V. C., Motta, Simone C., and Canteras, Newton S.

Subjects

*DEFENSIVENESS (Psychology), *COMMON bean, *STIMULUS & response (Psychology), *MESENCEPHALON, *AFFERENT pathways, *NEUROANATOMY

Abstract

The cuneiform nucleus (CUN) is a midbrain structure located lateral to the caudal part of the periaqueductal gray. In the present investigation, we first performed a systematic analysis of the afferent and efferent projections of the CUN using FluoroGold and Phaseolus vulgaris leucoagglutinin as retrograde and anterograde neuronal tracers, respectively. Next, we examined the behavioral responses to optogenetic activation of the CUN and evaluated the impact of pharmacological inactivation of the CUN in both innate and contextual fear responses to a predatory threat (i.e., a live cat). The present hodologic evidence indicates that the CUN might be viewed as a caudal component of the periaqueductal gray. The CUN has strong bidirectional links with the dorsolateral periaqueductal gray (PAGdl). Our hodological findings revealed that the CUN and PAGdl share a similar source of inputs involved in integrating information related to life‐threatening events and that the CUN provides particularly strong projections to brain sites influencing antipredatory defensive behaviors. Our functional studies revealed that the CUN mediates innate freezing and flight antipredatory responses but does not seem to influence the acquisition and expression of learned fear responses. [ABSTRACT FROM AUTHOR]

Published

2023

133. Induction of flight via midbrain projections to the cuneiform nucleus.

Author

Tsang, Emmy, Orlandini, Camilla, Sureka, Rahul, Crevenna, Alvaro H., Perlas, Emerald, Prankerd, Izzie, Masferrer, Maria E., and Gross, Cornelius T.

Subjects

*MESENCEPHALON, *DEFENSIVENESS (Psychology), *ACTION theory (Psychology), *ELECTRIC stimulation, *NEURONS, *RAPHE nuclei

Abstract

The dorsal periaqueductal gray is a midbrain structure implicated in the control of defensive behaviors and the processing of painful stimuli. Electrical stimulation or optogenetic activation of excitatory neurons in dorsal periaqueductal gray results in freezing or flight behavior at low and high intensity, respectively. However, the output structures that mediate these defensive behaviors remain unconfirmed. Here we carried out a targeted classification of neuron types in dorsal periaqueductal gray using multiplex in situ sequencing and then applied cell-type and projection-specific optogenetic stimulation to identify projections from dorsal periaqueductal grey to the cuneiform nucleus that promoted goal-directed flight behavior. These data confirmed that descending outputs from dorsal periaqueductal gray serve as a trigger for directed escape behavior. [ABSTRACT FROM AUTHOR]

Published

2023

134. Interaction with Virtual Humans and Effect of Emotional Expressions: Anger Matters!

Author

Rapuano, Mariachiara, Iachini, Tina, and Ruggiero, Gennaro

Subjects

*DIFFERENTIATION (Cognition), *SELF-expression, *SOCIAL interaction, *STIMULUS & response (Psychology), *FACIAL expression, *DEFENSIVENESS (Psychology)

Abstract

Today we are experiencing a hybrid real-virtual society in which the interaction with virtual humans is normal and "quasi-social". Understanding the way we react to the interaction with virtual agents and the impact of emotions on social dynamics in the virtual world is fundamental. Therefore, in this study we investigated the implicit effect of emotional information by adopting a perceptual discrimination task. Specifically, we devised a task that explicitly required perceptual discrimination of a target while involving distance regulation in the presence of happy, neutral, or angry virtual agents. In two Immersive Virtual Reality experiments, participants were instructed to discriminate a target on the virtual agents' t-shirts, and they had to provide the response by stopping the virtual agents (or themselves) at the distance where they could identify the target. Thus, facial expressions were completely irrelevant to the perceptual task. The results showed that the perceptual discrimination implied a longer response time when t-shirts were worn by angry rather than happy or neutral virtual agents. This suggests that angry faces interfered with the explicit perceptual task people had to perform. From a theoretical standpoint, this anger-superiority effect could reflect an ancestral fear/avoidance mechanism that prompts automatic defensive reactions and bypasses other cognitive processes. [ABSTRACT FROM AUTHOR]

Published

2023

135. Sound garden: How snakes respond to airborne and groundborne sounds.

Author

Zdenek, Christina N., Staples, Timothy, Hay, Chris, Bourke, Lachlan N., and Candusso, Damian

Subjects

*SNAKES, *MANDIBLE, *DEFENSIVENESS (Psychology), *AUDIO frequency, *PYTHONS, *SOUNDS

Abstract

Evidence suggests that snakes can hear, but how snakes naturally respond to sound is still unclear. We conducted 304 controlled experiment trials on 19 snakes across five genera in a sound-proof room (4.9 x 4.9 m) at 27ºC, observing the effects of three sounds on individual snake behavior, compared to controls. We quantified eight snake behaviors (body movement, body freezing, head-flicks, tongue-flicks, hissing, periscoping, head fixation, lower jaw drop) in response to three sounds, which were filtered pink-noise within the following frequency ranges: 0–150Hz (sound 1, which produced ground vibrations, as measured by an accelerometer), 150–300Hz (sound 2, which did not produced ground vibrations), 300–450Hz (sound 3, which did not produced ground vibrations). All snake responses were strongly genus dependent. Only one genus (Aspidites, Woma Pythons) significantly increased their probability of movement in response to sound, but three other genera (Acanthophis (Death Adders), Oxyuranus (Taipans), and Pseudonaja (Brown Snakes)) were more likely to move away from sound, signaling potential avoidance behavior. Taipans significantly increased their likelihood of displaying defensive and cautious behaviors in response to sound, but three of the five genera exhibited significantly different types of behaviors in sound trials compared to the control. Our results highlight potential heritable behavioral responses of snakes to sound, clustered within genera. Our study illustrates the behavioral variability among different snake genera, and across sound frequencies, which contributes to our limited understanding of hearing and behavior in snakes. [ABSTRACT FROM AUTHOR]

Published

2023

136. Effects of footshock stress on social behavior and neuronal activation in the medial prefrontal cortex and amygdala of male and female mice.

Author

Dorofeikova, Mariia, Borkar, Chandrashekhar D., Weissmuller, Katherine, Smith-Osborne, Lydia, Basavanhalli, Samhita, Bean, Erin, Smith, Avery, Duong, Anh, Resendez, Alexis, and Fadok, Jonathan P.

Subjects

*PREFRONTAL cortex, *AMYGDALOID body, *POST-traumatic stress disorder, *FEMALES, *MALES, *DEFENSIVENESS (Psychology), *LABORATORY mice

Abstract

Social behavior is complex and fundamental, and its deficits are common pathological features for several psychiatric disorders including anxiety, depression, and posttraumatic stress disorder. Acute stress may have a negative impact on social behavior, and these effects can vary based on sex. The aim of this study was to explore the effect of acute footshock stress, using analogous parameters to those commonly used in fear conditioning assays, on the sociability of male and female C57BL/6J mice in a standard social approach test. Animals were divided into two main groups of footshock stress (22 male, 24 female) and context exposed control (23 male and 22 female). Each group had mice that were treated intraperitoneally with either the benzodiazepine—alprazolam (control: 10 male, 10 female; stress: 11 male, 11 female), or vehicle (control: 13 male, 12 female; stress: 11 male, 13 female). In all groups, neuronal activation during social approach was assessed using immunohistochemistry against the immediate early gene product cFos. Although footshock stress did not significantly alter sociability or latency to approach a social stimulus, it did increase defensive tail-rattling behavior specifically in males (p = 0.0022). This stress-induced increase in tail-rattling was alleviated by alprazolam (p = 0.03), yet alprazolam had no effect on female tail-rattling behavior in the stress group. Alprazolam lowered cFos expression in the medial prefrontal cortex (p = 0.001 infralimbic area, p = 0.02 prelimbic area), and social approach induced sex-dependent differences in cFos activation in the ventromedial intercalated cell clusters (p = 0.04). Social approach following stress-induced cFos expression was positively correlated with latency to approach and negatively correlated with sociability in the prelimbic area and multiple amygdala subregions (all p < 0.05). Collectively, our results suggest that acute footshock stress induces sex-dependent alterations in defensiveness and differential patterns of cFos activation during social approach. [ABSTRACT FROM AUTHOR]

Published

2023

137. Exploration of driver stress when resuming control from highly automated driving in an emergency situation.

Author

Kerautret, Laora, Dabic, Stephanie, and Navarro, Jordan

Subjects

*HEART beat, *WARNINGS, *PUPILLARY reflex, *AUTOMOBILE driving simulators, *DEFENSIVENESS (Psychology)

Abstract

• Emergency takeovers induce driver stress. • Driver stress was detected by pupil dilation, high levels of perceived stress and long-lasting increase in heart rate. • An emergency takeover, preceded by a warning, leads to active preparation. • Active preparation was characterized by a short-lasting decrease in heart rate. • Active preparation reduces driver stress. In a highly automated vehicle, the resumption of manual control often takes place in emergency situations automation cannot handle. Time pressure may increase driver stress and lead to risky behaviors. For safety purposes, this study examines the impacts of emergency takeovers on driver stress. The impacts of emergency takeovers on driver stress were explored through heart rate, pupil diameter and perceived stress, gathered from 36 drivers in a driving simulator. Three degrees of emergency were used: non–, moderate, and extreme emergency. The results indicate a pupil dilation, high levels of perceived stress and a long-lasting increase in heart rate when drivers had to resume control in moderate and extreme emergency situations. The results also show a lower perceived stress level and a bi-phasic cardiac pattern—composed of a short-lasting decrease in heart rate prior to long-lasting increase in heart rate—when drivers were warned to regain control (moderate emergency) compared to when they were not warned (extreme emergency). The results (1) suggest that time urgency is a key factor in the induction of driver stress during takeovers, (2) support the existence of a warning-induced preparatory response—characterized by a short-lasting decrease in heart rate—and previously observed in research on defensive behaviors, and (3) support the hypothesis that the preparatory response is a means of reducing driver stress. Overall, the results provide valuable information about cognitive preparation for emergency takeovers, and more generally about driver stress in emergency situations. [ABSTRACT FROM AUTHOR]

Published

2023

138. A striatal circuit balances learned fear in the presence and absence of sensory cues.

Author

Kintscher, Michael, Kochubey, Olexiy, and Schneggenburger, Ralf

Subjects

*INSULAR cortex, *DEFENSIVENESS (Psychology), *CONDITIONED response, *NEURONS, *SYNAPSES, *STIMULUS & response (Psychology)

Abstract

During fear learning, defensive behaviors like freezing need to be finely balanced in the presence or absence of threat-predicting cues (conditioned stimulus, CS). Nevertheless, the circuits underlying such balancing are largely unknown. Here, we investigate the role of the ventral tail striatum (vTS) in auditory-cued fear learning of male mice. In vivo Ca²+ imaging showed that sizable sub-populations of direct (D1R+) and indirect pathway neurons (Adora+) in the vTS responded to footshocks, and to the initiation of movements after freezing; moreover, a sub-population of D1R+ neurons increased its responsiveness to an auditory CS during fear learning. In-vivo optogenetic silencing shows that footshock-driven activity of D1R+ neurons contributes to fear memory formation, whereas Adora+ neurons modulate freezing in the absence of a learned CS. Circuit tracing identified the posterior insular cortex (pInsCx) as an important cortical input to the vTS, and recording of optogenetically evoked EPSCs revealed long-term plasticity with opposite outcomes at the pInsCx synapses onto D1R+ - and Adora+ neurons. Thus, direct- and indirect pathways neurons of the vTS show differential signs of plasticity after fear learning, and balance defensive behaviors in the presence and absence of learned sensory cues. [ABSTRACT FROM AUTHOR]

Published

2023

139. Synthesis and Biological Evaluation of Potential Oncoimmunomodulator Agents.

Author

Gil-Edo, Raquel, Espejo, Sara, Falomir, Eva, and Carda, Miguel

Subjects

*BIOSYNTHESIS, *CANCER cells, *T cells, *DRUG target, *DEFENSIVENESS (Psychology), *PROGRAMMED cell death 1 receptors

Abstract

Fourteen triazole-scaffold derivatives were synthetized and biologically evaluated as potential oncoimmunomodultator agents by targeting both PD-L1 and c-Myc. First, the antiproliferative activity of these molecules on the monocultures of several tumor cell lines (HT-29, A-549, and MCF-7) and on the non-tumor cell line HEK-293 was studied. Then, the effects on the mentioned biological targets were also evaluated. Finally, the effect on cancer cell viability when the molecules were co-cultured with immune cells (Jurkat T cells or THP-1) was also determined. Compounds bearing a bromoophenyl group were selected because of their excellent results, and their effect on IL-6 secretion was also studied. In conclusion, we found compounds that are capable of downregulating c-Myc, as well as influencing and altering the distribution of PD-L1 in tumor cells; the compounds are thus capable of influencing the behavior of defensive cells towards cancer cells. p-Bromophenyltriazol 3 is the most active of these as a PD-L1 and c-Myc downregulator and as a potential immunomodulator agent. Moreover, it exhibits an interesting action on inflammation-related cytokine IL-6. [ABSTRACT FROM AUTHOR]

Published

2023

140. Unravelling the dorsal periaqueductal grey matter NMDA receptors relevance in the nitric oxide-mediated panic‑like behaviour and defensive antinociception organised by the anterior hypothalamus of male mice.

Author

Falconi-Sobrinho, Luiz Luciano, dos Anjos-Garcia, Tayllon, Hernandes, Paloma Molina, Rodrigues, Bruno Mangili de Paula, Almada, Rafael Carvalho, and Coimbra, Norberto Cysne

Subjects

*PERIAQUEDUCTAL gray matter, *NITRIC oxide, *HYPOTHALAMUS, *DEFENSIVENESS (Psychology), *METHYL aspartate receptors, *ANALGESIA, *LABORATORY mice

Abstract

Rationale: Previous studies suggested that the dorsal column of the periaqueductal grey matter (dPAG) can be a target of neural pathways from hypothalamic nuclei involved in triggering fear-related defensive responses. In turn, evidence is provided suggesting that microinjection of the nitric oxide (NO) donor SIN-1 into the anterior hypothalamus (AH) of mice evokes panic-like behaviours and fear-induced antinociception. However, it is unknown whether the dPAG of mice mediates these latter defensive responses organised by AH neurons. Objectives: This study was designed to examine the role of dPAG in mediating SIN-1-evoked fear-induced defensive behavioural and antinociceptive responses organised in the AH of mice. Methods: First, neural tract tracing was performed to characterise the AH-dPAG pathways. Then, using neuropharmacological approaches, we evaluated the effects of dPAG pretreatment with either the non-selective synaptic blocker cobalt chloride (CoCl2; 1 mM/0.1 μL) or the competitive N-methyl-d-aspartate (NMDA) receptor antagonist LY235959 (0.1 nmol/0.1 μL) on defensive behaviours and antinociception induced by microinjections of SIN-1 in the AH of male C57BL/6 mice. Results: AlexaFluor488-conjugated dextran-labelled axonal fibres from AH neurons were identified in both dorsomedial and dorsolateral PAG columns. Furthermore, we showed that pre-treatment of the dPAG with either CoCl2 or LY235959 inhibited freezing and impaired oriented escape and antinociception induced by infusions of SIN-1 into the AH. Conclusions: These findings suggest that the panic-like freezing and oriented escape defensive behaviours, and fear-induced antinociception elicited by intra-AH microinjections of SIN-1 depend on the activation of dPAG NMDA receptors. [ABSTRACT FROM AUTHOR]

Published

2023

141. Temporal Appearance of Enhanced Innate Anxiety in Alzheimer Model Mice.

Author

Szabó, Adrienn, Farkas, Szidónia, Fazekas, Csilla, Correia, Pedro, Chaves, Tiago, Sipos, Eszter, Makkai, Bernadett, Török, Bibiána, and Zelena, Dóra

Subjects

AMYLOID beta-protein precursor, ALZHEIMER'S disease, ANIMAL disease models, LABORATORY mice, DEFENSIVENESS (Psychology), OLFACTORY bulb

Abstract

The prevalence of Alzheimer's disorder (AD) is increasing worldwide, and the co-morbid anxiety is an important, albeit often neglected problem, which might appear early during disease development. Animal models can be used to study this question. Mice, as prey animals, show an innate defensive response against a predator odor, providing a valuable tool for anxiety research. Our aim was to test whether the triple-transgenic mice model of AD shows signs of innate anxiety, with specific focus on the temporal appearance of the symptoms. We compared 3xTg-AD mice bearing human mutations of amyloid precursor protein, presenilin 1, and tau with age-matched controls. First, separate age-groups (between 2 and 18 months) were tested for the avoidance of 2-methyl-2-thiazoline, a fox odor component. To test whether hypolocomotion is a general sign of innate anxiety, open-field behavior was subsequently followed monthly in both sexes. The 3xTg-AD mice showed more immobility, approached the fox odor container less often, and spent more time in the avoidance zone. This effect was detectable already in two-month-old animals irrespective of sex, not visible around six months of age, and was more pronounced in aged females than males. The 3xTg-AD animals moved generally less. They also spent less time in the center of the open-field, which was detectable mainly in females older than five months. In contrast to controls, the aged 3xTg-AD was not able to habituate to the arena during a 30-min observation period irrespective of their sex. Amyloid beta and phospho-Tau accumulated gradually in the hippocampus, amygdala, olfactory bulb, and piriform cortex. In conclusion, the early appearance of predator odor- and open space-induced innate anxiety detected already in two-month-old 3xTg-AD mice make this genetically predisposed strain a good model for testing anxiety both before the onset of AD-related symptoms as well as during the later phase. Synaptic dysfunction by protein deposits might contribute to these disturbances. [ABSTRACT FROM AUTHOR]

Published

2023

142. The Hidden Spring: A Journey to the Source of Consciousness.

Author

Hoffman, Leon and Obradovic, Stevan

Subjects

CONSCIOUSNESS, DEFENSE mechanisms (Psychology), CLASSICAL conditioning, RETICULAR formation, ARTIFICIAL intelligence, DEFENSIVENESS (Psychology)

Abstract

The stuff of dreams In chapter 1, Solms provides an historical review of the approach of psychology during the major part of the twentieth century: a behaviorism that considered the brain/mind to be a black box. He quotes LeDoux, who "believes that feelings literally I come into existence i in the dorsolateral prefrontal cortex" (p. 72).[1] Solms concludes, however, with a caveat: "Nobody is disputing that the cortex is involved in conscious processing. Hence his title, I The Hidden Spring. i Solms demonstrates that cognition is mainly unconscious, whereas consciousness is engineerable, or, as Friston, a computational neuroscientist, has described it: a problem of the physics of brain activity. For Solms the "hard problem" of consciousness is easier to solve by considering that feelings lead to consciousness, that affects arise from subcortical areas as in other mammals, and that, as a result of the new field of computational neuroscience, consciousness is artificially producible. [Extracted from the article]

Published

2023

143. A synaptic filtering mechanism in visual threat identification in mouse.

Author

Qiwen Wu, Li, E., and Yifeng Zhang

Subjects

*RETINAL ganglion cells, *DEFENSIVENESS (Psychology), *SUPERIOR colliculus, *NEURAL transmission, *VISUAL perception

Abstract

Predator detection is key to animal's survival. Superior colliculus (SC) orchestrates the animal's innate defensive responses to visually detected threats, but how threat information is transmitted from the retina to SC is unknown. We discovered that narrow-field neurons in SC were key in this pathway. Using in vivo calcium imaging and optogenetics-assisted interrogation of circuit and synaptic connections, we found that the visual responses of narrow-field neurons were correlated with the animal's defensive behaviors toward visual stimuli. Activation of these neurons triggered defensive behaviors, and ablation of them impaired the animals' defensive responses to looming stimuli. They receive monosynaptic inputs from looming-sensitive OFF-transient alpha retinal ganglion cells, and the synaptic transmission has a unique band-pass feature that helps to shape their stimulus selectivity. Our results describe a cell-type specific retinotectal connection for visual threat detection, and a coding mechanism based on synaptic filtering. [ABSTRACT FROM AUTHOR]

Published

2023

144. Defensive Style in Bioenergetic Therapy.

Author

Ure, Laurie

Subjects

*DEFENSIVENESS (Psychology), *BIOENERGETICS, *LIFE satisfaction, *DOCTOR of philosophy degree, *CLIENTS

Abstract

The concept of defensive style provides a rich addition to the understanding of our clients and the factors which inhibit their joy in life and satisfaction in relationships. Defensive style differs fromcharacter structure. But, like character structure, it can be viewed through observations of a client's body in addition to memories of childhood relational experiences. This paper explores the lens of defensive style, explains how it differs fromcharacter structure, and includes bioenergetic methods to observe defensive style in a client. It includes the work of Len Carlino along with a diagnostic tool by Schroeter and Thomson. Case examples of using this understanding to help clients are sprinkled throughout. The paper ends with a tribute to Len Carlino, Ph.D, IIBA International Trainer, for his valuable reminder that working through defensive style and character structure require a life long commitment. [ABSTRACT FROM AUTHOR]

Published

2023

145. Die analytische Haltung und das körperliche Unbewusste: Bemerkungen zu einer behandlungstechnischen Kontroverse.

Author

Leikert, Sebastian

Subjects

*NARRATION, *INSCRIPTIONS, *PSYCHOANALYSIS, *PLEASURE, *VIGNETTES, *SELF, *HISTORY of psychoanalysis, *DEFENSIVENESS (Psychology), *SENSORY stimulation

Abstract

The author argues that the implications from Freud’s discoveries in Beyond the Pleasure Principle have not yet been fully drawn in the theory of structural psychoanalysis, but especially not in treatment technique. With regard to the structure of the unconscious, the author proposes distinguishing the symbolic unconscious on this side of the pleasure principle from the bodily unconscious in which traumatic inscriptions disorganise the bodily self beyond symbolic structures. The concept of the encapsulated body engram is used to describe the dynamic structure of the bodily unconscious. Processes of disorganisation, petrification, sensory defence, and secondary self-stimulation are elaborated. The author proposes a method for confronting these inscriptions in the analytic process. The somatic narration method systematically examines the patient’s bodily sensations, reverses the defensive processes of the engram, and enables a reorganisation of the bodily self, which can then reconnect with symbolic structures. For this, a more active analytic stance is required that responds to the defensive processes used by the subject to ward off the threat of annihilation to which he or she was exposed in the traumatic inscription. A clinical vignette illustrates the method. The treatment controversy surrounding conventional treatment technique is elaborated. [ABSTRACT FROM AUTHOR]

Published

2023

146. Selective pressure on a saccharin intake phenotype and its correlates: a replication study.

Author

Dess, Nancy K, Chapman, Clinton D, and Jacobi, Paulina M

Subjects

*SACCHARIN, *DEFENSIVENESS (Psychology), *PHENOTYPES, *SALT, *PATHOLOGICAL psychology, *DISACCHARIDES

Abstract

The Occidental High- and Low-Saccharin rats (respectively, HiS and LoS lines) were selectively bred for decades to examine mechanisms and correlates of a saccharin intake phenotype. Observed line differences ranged from taste and eating to drug self-administration and defensive behavior, paralleling human research on relationships between gustation, personality, and psychopathology. The original lines were terminated in 2019, and replicate lines (HiS-R and LoS-R) were selectively bred for 5 generations to test for reproducible, rapid selection for the phenotype and its correlates. The line differences chosen for replication included intake of tastants (saccharin, sugars, quinine-adulterated sucrose, sodium chloride, and ethanol) and foods (cheese, peas, Spam, and chocolate) and several noningestive behaviors (deprivation-induced hyperactivity, acoustic startle, and open field behavior). The HiS-R and LoS-R lines diverged on intake of saccharin, disaccharides, quinine-adulterated sucrose, sodium chloride, and complex foods, and open field behavior. Differences from the original lines also were observed. Reasons for and implications of the pattern of replication and lack thereof in 5 generations are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

147. IL POPOLAMENTO MONTANO TRA RENO E PANARO NELLE FASI CENTRALI E TARDE DELL’ETÀ DEL BRONZO.

Author

Zanotti, Erik, Putzolu, Cristiano, Debandi, Florencia Inés, and Cavazzuti, Claudio

Subjects

HUMAN settlements, LAND settlement patterns, BRONZE Age, SURFACES (Technology), VISUAL communication, MATERIAL culture, ROADKILL, DEFENSIVENESS (Psychology)

Abstract

Here we present the preliminary analysis of the protohistoric settlement pattern in the area comprised between the middle-upper course of the Reno and Panaro rivers, stimulated by previous studies and by the results of new fieldwork at the Bronze Age site of Monte della Croce (Santa Maria Villiana, Gaggio Montano, Bo). The analysis, which draws its methodologies from the vast field of upland archeology, focuses on the middle and late phases of the Bronze Age (c. 1550-1050 ВСЕ) and is articulated onto three territorial scales: the first, intra-site, aims to define the settlement area through the spatial location of the material evidence on the surface, keeping into account the complex geomorphological dynamics, as well as the chronological range of use of Monte della Croce, thanks to the chrono-typological analysis of the artefacts (micro-scale); the second investigates the distribution of some coeval sites, located along the slopes of the middle-upper Reno valley, as well as their spatial relationship and their territorial vocation, inferred from the topographic position and from the relationship with potential ancient routes (meso-scale); the third and last examines the Bronze Age settlement pattern on a larger scale (about 350 sq km), which includes the Leo-Scoltenna-Panaro confluence area, the middle-upper Reno valley with its tributaries and the entire inter-valley system (macro-scale). Coherently to what other authors previously suggested for different territorial districts of the Tuscan-Emilian Apennines, the Reno valley is also characterized by a relatively dense and structured occupation pattern, in which intervisibility, visual communication at medium and long distances, defensive potential, control and management of the routes, as well as land exploitation of agricultural and pastoral areas strongly influence the settlement strategies. [ABSTRACT FROM AUTHOR]

Published

2023

148. Meta-Chlorophenylpiperazine-Induced Behavioral Changes in Obsessive-Compulsive Disorder Research: A Systematic Review of Rodent Studies.

Author

da Silva, Jéssica Fernandes, Taguchi, Leticia Mitsuko, Leite, Erinete da Silva, and de Oliveira, Amanda Ribeiro

Subjects

*OBSESSIVE-compulsive disorder, *COMPULSIVE behavior, *RODENTS, *SPRAGUE Dawley rats, *DEFENSIVENESS (Psychology)

Abstract

• We reviewed publications reporting OCD-related mCPP effects on rodents. • Most studies used mCPP 1.0 mg/kg administered acutely, i.p., in adult male rats. • Increased defensive and compulsive behaviors are commonly seen with mCPP. • mCPP also often decreases locomotor activity. • More studies with females and assessing other features of OCD are still needed. Meta-chlorophenylpiperazine (mCPP) was one of the first compounds used in clinical and preclinical studies that demonstrated the role of serotonin in Obsessive-Compulsive Disorder (OCD). This systematic review aimed to (a) identify publications that report in rodents the effects of mCPP relevant to OCD, (b) explore the methodological characteristics of these studies, and (c) summarize the profile of mCPP effects. A comprehensive literature search was performed using PubMed, Scopus, and Web of Science. Search terms were a combination of obsessive–compulsive disorder or OCD and meta-chlorophenylpiperazine or mCPP. Twenty-nine articles were included in the review. The years of publication ranged from 1993 to 2021. Most studies used adult male Wistar or Sprague-Dawley rats. The most frequent dose of mCPP was 1.0 mg/kg administered acutely, intraperitoneally. In general, available preclinical evidence suggests increased defensive and compulsive behaviors associated with a decreased locomotor activity. But other results besides these and the absence of significant mCPP effects were also observed. Among the factors that may contribute to the variability of mCPP effects, differences in methods are highlighted, such as characteristics of the species/strains studied, mCPP doses and treatment regimens used. The heterogeneity of the OCD-like behaviors evaluated and the interaction of mCPP with different receptors may also be critical variables for discrepancies in the findings with mCPP. The information described in this review may contribute to a better understanding of how mCPP-induced behavioral changes in rodents have been used to study OCD, highlighting the main challenges for future investigations in this field. [ABSTRACT FROM AUTHOR]

Published

2022

149. Male and female mice display consistent lifelong ability to address potential life-threatening cues using different post-threat coping strategies.

Author

Liu, Xue, Feng, Xiaolong, Huang, Hongren, Huang, Kang, Xu, Yang, Ye, Shuwei, Tseng, Yu-Ting, Wei, Pengfei, Wang, Liping, and Wang, Feng

Subjects

*FEMALES, *SEXUAL dimorphism, *DEFENSIVENESS (Psychology), *MALES, *ANIMAL aggression, *VISUAL perception

Abstract

Background: Sex differences ranging from physiological functions to pathological disorders are developmentally hard-wired in a broad range of animals, from invertebrates to humans. These differences ensure that animals can display appropriate behaviors under a variety of circumstances, such as aggression, hunting, sleep, mating, and parental care, which are often thought to be important in the acquisition of resources, including territory, food, and mates. Although there are reports of an absence of sexual dimorphism in the context of innate fear, the question of whether there is sexual dimorphism of innate defensive behavior is still an open question. Therefore, an in-depth investigation to determine whether there are sex differences in developmentally hard-wired innate defensive behaviors in life-threatening circumstances is warranted. Results: We found that innate defensive behavioral responses to potentially life-threatening stimuli between males and females were indistinguishable over their lifespan. However, by using 3 dimensional (3D)-motion learning framework analysis, we found that males and females showed different behavioral patterns after escaping to the refuge. Specifically, the defensive "freezing" occurred primarily in males, whereas females were more likely to return directly to exploration. Moreover, there were also no estrous phase differences in innate defensive behavioral responses after looming stimuli. Conclusions: Our results demonstrate that visually-evoked innate fear behavior is highly conserved throughout the lifespan in both males and females, while specific post-threat coping strategies depend on sex. These findings indicate that innate fear behavior is essential to both sexes and as such, there are no evolutionary-driven sex differences in defensive ability. [ABSTRACT FROM AUTHOR]

Published

2022

150. Visual threats reduce blood-feeding and trigger escape responses in Aedes aegypti mosquitoes.

Author

Wynne, Nicole E., Chandrasegaran, Karthikeyan, Fryzlewicz, Lauren, and Vinauger, Clément

Subjects

*AEDES aegypti, *STARTLE reaction, *MOSQUITOES, *MOSQUITO control, *YELLOW fever, *INSECTICIDE resistance, *DEFENSIVENESS (Psychology), *ZIKA virus

Abstract

The diurnal mosquitoes Aedes aegypti are vectors of several arboviruses, including dengue, yellow fever, and Zika viruses. To find a host to feed on, they rely on the sophisticated integration of olfactory, visual, thermal, and gustatory cues emitted by the hosts. If detected by their target, this latter may display defensive behaviors that mosquitoes need to be able to detect and escape in order to survive. In humans, a typical response is a swat of the hand, which generates both mechanical and visual perturbations aimed at a mosquito. Here, we used programmable visual displays to generate expanding objects sharing characteristics with the visual component of an approaching hand and quantified the behavioral response of female mosquitoes. Results show that Ae. aegypti is capable of using visual information to decide whether to feed on an artificial host mimic. Stimulations delivered in a LED flight arena further reveal that landed Ae. aegypti females display a stereotypical escape strategy by taking off at an angle that is a function of the direction of stimulus introduction. Altogether, this study demonstrates that mosquitoes landed on a host mimic can use isolated visual cues to detect and avoid a potential threat. [ABSTRACT FROM AUTHOR]

Published

2022