Erinacine A-Enriched Hericium erinaceus Mycelium Delays Progression of Age-Related Cognitive Decline in Senescence Accelerated Mouse Prone 8 (SAMP8) Mice

There have been many reports on the neuroprotective effects of Hericium erinaceus mycelium, in which the most well-known active compounds found are diterpenoids, such as erinacine A. Previously, erinacine A-enriched Hericeum erinaceus mycelium (EAHEM) was shown to decrease amyloid plaque aggregation and improve cognitive disability in Alzheimer’s disease model APP/PS1 mice. However, its effects on brain aging have not yet been touched upon. Here, we used senescence accelerated mouse prone 8 (SAMP8) mice as a model to elucidate the mechanism by which EAHEM delays the aging of the brain. Three-month-old SAMP8 mice were divided into three EAHEM dosage groups, administered at 108, 215 and 431 mg/kg/BW/day, respectively. During the 12th week of EAHEM feeding, learning and memory of the mice were evaluated by single-trial passive avoidance and active avoidance test. After sacrifice, the amyloid plaques, induced nitric oxidase synthase (iNOS) activity, thiobarbituric acid-reactive substances (TBARS) and 8-OHdG levels were analyzed. We found that the lowest dose of 108 mg/kg/BW EAHEM was sufficient to significantly improve learning and memory in the passive and active avoidance tests. In all three EAHEM dose groups, iNOS, TBARS and 8-OHdG levels all decreased significantly and showed a dose-dependent response. The results indicate that EAHEM improved learning and memory and delayed degenerative aging in mice brains.

Zebrafish capable of generating future state prediction error show improved active avoidance behavior in virtual reality

Animals make decisions under the principle of reward value maximization and surprise minimization. It is still unclear how these principles are represented in the brain and are reflected in behavior. We addressed this question using a closed-loop virtual reality system to train adult zebrafish for active avoidance. Analysis of the neural activity of the dorsal pallium during training revealed neural ensembles assigning rules to the colors of the surrounding walls. Additionally, one third of fish generated another ensemble that becomes activated only when the real perceived scenery shows discrepancy from the predicted favorable scenery. The fish with the latter ensemble escape more efficiently than the fish with the former ensembles alone, even though both fish have successfully learned to escape, consistent with the hypothesis that the latter ensemble guides zebrafish to take action to minimize this prediction error. Our results suggest that zebrafish can use both principles of goal-directed behavior, but with different behavioral consequences depending on the repertoire of the adopted principles.

Divergent encoding of active avoidance behavior in corticostriatal and corticolimbic projections

Active avoidance behavior, in which an animal performs an action to avoid a stressor, is crucial for survival and may provide insight into avoidance behaviors seen in anxiety disorders. Active avoidance requires the dorsomedial prefrontal cortex (dmPFC), which is thought to regulate avoidance via downstream projections to the striatum and amygdala. However, the endogenous activity of projection-defined dmPFC subpopulations during active avoidance learning remains unexplored. Here we utilized fiber photometry to record from the dmPFC and its downstream projections to the dorsomedial striatum (DMS) and the basolateral amygdala (BLA) during active avoidance learning in mice. We examined neural activity during conditioned stimulus (CS) presentations, active avoidance, and cued freezing. Both prefrontal projections showed learning-related increases in activity during CS onset throughout active avoidance training. The dmPFC as a whole showed increased activity during avoidance and decreased activity during cued freezing. Finally, dmPFC-DMS and dmPFC-BLA projections showed divergent encoding of active avoidance behavior, with the dmPFC-DMS projection showing increased activity and the dmPFC-BLA showing decreased activity during active avoidance. Our results identify differential prefrontal encoding of active and passive coping behaviors in the same behavioral paradigm and demonstrate divergent encoding of active avoidance in projection-specific dmPFC subpopulations.

ERP Indicators of Self-Pain and Other Pain Reductions due to Placebo Analgesia Responding: The Moderating Role of the Fight-Flight-Freeze System

This study evaluates the modulation of phasic pain and empathy for pain induced by placebo analgesia during pain and empathy for pain tasks. Because pain can be conceptualized as a dangerous stimulus that generates avoidance, we evaluated how approach and avoidance personality traits modulate pain and empathy for pain responses. We induced placebo analgesia to test whether this also reduces self-pain and other pain. Amplitude measures of the N1, P2, and P3 ERPs components, elicited by electric stimulations, were obtained during a painful control, as well as during a placebo treatment expected to induce placebo analgesia. The placebo treatment produced a reduction in pain and unpleasantness perceived, whereas we observed a decrease in the empathy unpleasantness alone during the empathy pain condition. The moderator effects of the fight-flight-freeze system (FFFS) in the relationships linking P2 and P3 amplitude changes with pain reduction were both significant among low to moderate FFFS values. These observations are consistent with the idea that lower FFFS (active avoidance) scores can predict placebo-induced pain reduction. Finally, in line with the revised Reinforcement Sensitivity Theory (r-RST), we can assume that phasic pain is an aversive stimulus activating the active-avoidance behavior to bring the system back to homeostasis.

IMPACT OF ILLNESS PERCEPTION AND COPING STRATEGIES ON QUALITY OF LIFE AMONG MIGRAINEURS

Objectives: To find out the impact of illness perception and coping strategies on quality of life among migraineurs. Study Design: Correlational study. Place and Duration of Study: The sample was selected from different hospitals of Hazara Division, from Mar to Jul 2018. Methodology: The sample of 300 migraineurs with age range 18-55 years was selected from hospitals of Hazara Division through purposive sampling technique. Brief illness perception questionnaire, The World Health Organization Quality of Life Scale (WHOQOL-BREF) and brief cope scale were used for data collection. Results: Illness perception significantly predicted (p=0.002) quality of life in positive direction. The results also explored that positive coping (p≤0.001) and problem focused coping strategies (p=0.002) predict quality of life significantly positively; whereas active avoidance coping strategies (p≤0.001) significantly negative predict quality of life; while religious denial coping was non-significant predictor of quality of life. Conclusion: Illness perception has significant negative relationship with quality of life, problem-focus coping (PFC), and positive coping (PC). Illness perception has significant positive relationship with religious denial coping (RDC) and active avoidance coping (AAC).

A Modified Two-Way Active Avoidance Test for Combined Contextual and Auditory Instrumental Conditioning

Available two-way active avoidance paradigms do not provide contextual testing, likely due to challenges in performing repetitive trials of context exposure. To incorporate contextual conditioning in the two-way shuttle box, we contextually modified one of the chambers of a standard two-chamber rat shuttle box with visual cues consisting of objects and black and white stripe patterns. During the 5 training days, electrical foot shocks were delivered every 10 s in the contextually modified chamber but were signaled by a tone in the plain chamber. Shuttling between chambers prevented an incoming foot shock (avoidance) or aborted an ongoing one (escape). During contextual retention testing, rats were allowed to freely roam in the box. During auditory retention testing, visual cues were removed, and tone-signaled shocks were delivered in both chambers. Avoidance gradually replaced escape or freezing behaviors reaching 80% on the last training day in both chambers. Rats spent twice more time in the plain chamber during contextual retention testing and had 90% avoidance rates during auditory retention testing. Our modified test successfully assesses both auditory and contextual two-way active avoidance. By efficiently expanding its array of outcomes, our novel test will complement standard two-way active avoidance in mechanistic studies and will improve its applications in translational research.

The influence of stimulus duration on olfactory perception

The duration of a stimulus plays an important role in the coding of sensory information. The role of stimulus duration is extensively studied in the tactile, visual, and auditory system. In the olfactory system, temporal properties of the stimulus are key for obtaining information when an odor is released in the environment. However, how the stimulus duration influences the odor perception is not well understood. To test this, we activated the olfactory bulbs with blue light in mice expressing channelrhodopsin in the olfactory sensory neurons (OSNs) and assessed the relevance of stimulus duration on olfactory perception using foot shock associated active avoidance behavioral task on a “two-arms maze”. Our behavior data demonstrate that the stimulus duration plays an important role in olfactory perception and the associated behavioral responses.

Divergent projections of the paraventricular nucleus of the thalamus mediate the selection of reactive and proactive defensive behaviors

The appropriate selection of reactive and proactive defensive behaviors amid fearful situations is essential for survival. Studies in both rodents and primates have shown that reactive defensive responses depend on the activity of the central nucleus of the amygdala (CeA) whereas proactive ones primarily rely on the nucleus accumbens (NAc). However, the mechanisms underlying flexible switching between CeA-driven (reactive) and NAc-driven (proactive) defensive responses, remain unknown. Here, using a behavioral task in which mice must trade a reactive defensive strategy (i.e. freezing) for an instrumental one (i.e. active avoidance) to avoid punishment, we discovered that the paraventricular nucleus of the thalamus (PVT) mediates the selection of defensive behaviors through its interaction with the CeA and the NAc. In vivo calcium imaging using fiber photometry showed that unlike the PVT–CeA pathway which drives conditioned freezing responses, the PVT–NAc pathway is inhibited during freezing and instead signals active avoidance events. In addition, optogenetic manipulations of these circuits revealed that activity in the PVT–CeA or PVT–NAc pathway biases behavior toward the selection of reactive or proactive defensive responses, respectively. Our collective findings provide direct evidence that the PVT, a structure increasingly considered as a potential site for guiding behavioral decisions amid motivational conflicts, mediates flexible switching between opposing defensive behaviors.

Negative coping styles among individuals with cannabis use disorder and non-users

Objectives: To investigate the differences in negative coping styles used by individuals with cannabis use disorder and non-users. Methods: The quantitative cross-sectional study was conducted from November, 2016 to August 2017 at Foundation University, Rawalpindi, Pakistan, and comprised individuals aged 15-34 years. Data was collected from drug rehabilitation and university students of Rawalpindi and Islamabad. The sample was divided into groups of cannabis users and non-users. Data was collected using the brief version of the Coping Orientation to Problems Experienced inventory and the Diagnostic and Statistical Manual of Mental Disorders version 5. Data was analysed using SPSS 21. Results: Of the 204 participants, 104(51%) were users with a mean age of 27±5.37 years and 100(49%) were non-users with a mean age of 25±5.65 years. The users scored higher at active avoidance coping compared to the non-users (p<0.05). The differences were non-significant in case of denial and religious coping (p>0.05). Active avoidance coping differed across individuals with mild, moderate and severe cannabis use disorder (p<0.05), while religious and denial coping did not (p>0.05). Conclusion: Active avoidance coping was found to be an important characteristic in relation Continuous...