Your search keyword '"medial raphe"' showing total 184 results

1. Brain-Region-Specific Genes Form the Major Pathways Featuring Their Basic Functional Role: Their Implication in Animal Chronic Stress Model.

Author

Babenko, Vladimir, Redina, Olga, Smagin, Dmitry, Kovalenko, Irina, Galyamina, Anna, and Kudryavtseva, Natalia

Subjects

PSYCHOLOGICAL stress, MEDIUM spiny neurons, EFFECT of stress on animals, GENE regulatory networks, RAPHE nuclei, DOPAMINE receptors

Abstract

The analysis of RNA-Sec data from murine bulk tissue samples taken from five brain regions associated with behavior and stress response was conducted. The focus was on the most contrasting brain region-specific genes (BRSG) sets in terms of their expression rates. These BRSGs are identified as genes with a distinct outlying (high) expression rate in a specific region compared to others used in the study. The analysis suggested that BRSG sets form non-randomly connected compact gene networks, which correspond to the major neuron-mediated functional processes or pathways in each brain region. The number of BRSGs and the connection rate were found to depend on the heterogeneity and coordinated firing rate of neuron types in each brain region. The most connected pathways, along with the highest BRSG number, were observed in the Striatum, referred to as Medium Spiny Neurons (MSNs), which make up 95% of neurons and exhibit synchronous firing upon dopamine influx. However, the Ventral Tegmental Area/Medial Raphe Nucleus (VTA/MRN) regions, although primarily composed of monoaminergic neurons, do not fire synchronously, leading to a smaller BRSG number. The Hippocampus (HPC) region, on the other hand, displays significant neuronal heterogeneity, with glutamatergic neurons being the most numerous and synchronized. Interestingly, the two monoaminergic regions involved in the study displayed a common BRSG subnetwork architecture, emphasizing their proximity in terms of axonal throughput specifics and high-energy metabolism rates. This finding suggests the concerted evolution of monoaminergic neurons, leading to unique adaptations at the genic repertoire scale. With BRSG sets, we were able to highlight the contrasting features of the three groups: control, depressive, and aggressive mice in the animal chronic stress model. Specifically, we observed a decrease in serotonergic turnover in both the depressed and aggressive groups, while dopaminergic emission was high in both groups. There was also a notable absence of dopaminoceptive receptors on the postsynaptic membranes in the striatum in the depressed group. Additionally, we confirmed that neurogenesis BRSGs are specific to HPC, with the aggressive group showing attenuated neurogenesis rates compared to the control/depressive groups. We also confirmed that immune-competent cells like microglia and astrocytes play a crucial role in depressed phenotypes, including mitophagy-related gene Prkcd. Based on this analysis, we propose the use of BRSG sets as a suitable framework for evaluating case–control group-wise assessments of specific brain region gene pathway responses. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effects of wearing removable dentures and aging on palatal mucosa blood flow by laser doppler.

Author

Kouadio, Ayepa Alain, Fabienne, Jordana, Soueidan, Assem, Volteau, Christelle, Koffi, N'goran Justin, Djérédou, Kouadio Benjamin, and Le Bars, Pierre

Subjects

BLOOD flow, LASER Doppler velocimeter, DENTURES, MUCOUS membranes, OLDER people

Abstract

Aim: The purpose of this work is to analyze the effects of removable dental prostheses and aging on blood microcirculation in the palatal mucosa. Settings and Design: Blood flow was measured in two groups using the Laser Doppler Flowmeter at three specific anatomical sites: Retro incisive papilla, medial raphe, and Schroeder area. Materials and Methods: Group 1 included young, healthy dentulous individuals (mean age: 23 ± 3 years), and Group 2 contained elderly edentulous individuals (mean age: 62 ± 11.69 years). For Group 1, measurements were taken in a single session; for Group 2, the measurements were taken in two sessions: The first just before the prosthetic load (E1) and again 1 week after new dentures were provider (E2). Statistical Analysis Used: Statistical analyses were performed using SAS software, Version 9.4 of the SAS System for Windows, Copyright © 2017 SAS Institute Inc. (Cary, NC, USA). A P < 0.05 was classified as statistically significant. Results: Measurements of blood flow of the palatal mucosa showed that the healthy young dentulous participants had significantly lower perfusion unit values than the elderly edentulous participants at all three anatomical sites (P < 0.05). For Group 2, the comparisons between the measurements taken before (E1) and after (E2) new dentures were provided showed no significant differences. Conclusion: Our results indicate that the process of aging significantly modifies the blood flow of the palatal mucosa while wearing removable dental prostheses does not modify the blood flow of the palatal mucosa in a 1week period. These results are not influenced by systemic pathology (e.g., diabetes, cardiovascular diseases) or smoking. [ABSTRACT FROM AUTHOR]

Published

2022

3. Dietary Tyrosine Intake (FFQ) Is Associated with Locus Coeruleus, Attention and Grey Matter Maintenance: An MRI Structural Study on 398 Healthy Individuals of the Berlin Aging Study-II.

Author

Plini, Emanuele R. G., Melnychuk, M. C., Harkin, A., Dahl, M. J., McAuslan, M., Kühn, S., Boyle, R. T., Whelan, R., Andrews, R., Düzel, S., Drewelies, J., Wagner, G. G., Lindenberger, U., Norman, K., Robertson, I. H., and Dockree, P. M.

Subjects

BRAIN stem physiology, GRAY matter (Nerve tissue), ACTIVE aging, FOOD consumption, NORADRENALINE, MAGNETIC resonance imaging, COGNITION, NEUROTRANSMITTERS, DIETARY supplements, ATTENTION, QUESTIONNAIRES, FACTOR analysis, TYROSINE

Abstract

Background and Objective: It is documented that low protein and amino-acid dietary intake is related to poorer cognitive health and increased risk of dementia. Degradation of the neuromodulatory pathways, (comprising the cholinergic, dopaminergic, serotoninergic and noradrenergic systems) is observed in neurodegenerative diseases and impairs the proper biosynthesis of key neuromodulators from micro-nutrients and amino acids. How these micro-nutrients are linked to neuromodulatory pathways in healthy adults is less studied. The Locus Coeruleus–Noradrenergic System (LC-NA) is the earliest subcortical structure affected in Alzheimer's disease, showing marked neurodegeneration, but is also sensitive for age-related changes. The LC-NA system is critical for supporting attention and cognitive control, functions that are enhanced both by tyrosine administration and chronic tyrosine intake. The purpose of this study was to 1) investigate whether the dietary intake of tyrosine, the key precursor for noradrenaline (NA), is related to LC signal intensity 2) whether LC mediates the reported association between tyrosine intake and higher cognitive performance (measured with Trail Making Test–TMT), and 3) whether LC signal intensity relates to an objective measure of brain maintenance (BrainPAD). Methods: The analyses included 398 3T MRIs of healthy participants from the Berlin Aging Study II to investigate the relationship between LC signal intensity and habitual dietary tyrosine intake-daily average (HD-Tyr-IDA - measured with Food Frequency Questionnaire - FFQ). As a control procedure, the same analyses were repeated on other main seeds of the neuromodulators' subcortical system (Dorsal and Medial Raphe, Ventral Tegmental Area and Nucleus Basalis of Meynert). In the same way, the relationships between the five nuclei and BrainPAD were tested. Results: Results show that HD-Tyr-IDA is positively associated with LC signal intensity. Similarly, LC disproportionally relates to better brain maintenance (BrainPAD). Mediation analyses reveal that only LC, relative to the other nuclei tested, mediates the relationship between HD-Tyr-IDA I and performance in the TMT and between HD-Tyr-IDA and BrainPAD. Conclusions: These findings provide the first evidence linking tyrosine intake with LC-NA system signal intensity and its correlation with neuropsychological performance. This study strengthens the role of diet for maintaining brain and cognitive health and supports the noradrenergic theory of cognitive reserve. Within this framework, adequate tyrosine intake might increase the resilience of LC-NA system functioning, by preventing degeneration and supporting noradrenergic metabolism required for LC function and neuropsychological performance. [ABSTRACT FROM AUTHOR]

Published

2023

4. Implicações da bipartição escrotal e prega caudal em touros: relato de casos.

Author

dos Santos Rossi, Eduardo and Reis Iapichini, Rafael

Abstract

Copyright of Revista Brasileira de Reprodução Animal is the property of Revista Brasileira de Reproducao Animal 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

2024

5. Simulating combined monoaminergic depletions in a PD animal model through a bio-constrained differential equations system.

Author

Carli, Samuele, Brugnano, Luigi, and Caligiore, Daniele

Subjects

LOCUS coeruleus, PARKINSON'S disease, SUBSTANTIA nigra, BASAL ganglia, NORADRENALINE, RAPHE nuclei

Abstract

Introduction: Historically, Parkinson's Disease (PD) research has focused on the dysfunction of dopamine-producing cells in the substantia nigra pars compacta, which is linked to motor regulation in the basal ganglia. Therapies have mainly aimed at restoring dopamine (DA) levels, showing effectiveness but variable outcomes and side effects. Recent evidence indicates that PD complexity implicates disruptions in DA, noradrenaline (NA), and serotonin (5-HT) systems, which may underlie the variations in therapy effects. Methods: We present a system-level bio-constrained computational model that comprehensively investigates the dynamic interactions between these neurotransmitter systems. The model was designed to replicate experimental data demonstrating the impact of NA and 5-HT depletion in a PD animal model, providing insights into the causal relationships between basal ganglia regions and neuromodulator release areas. Results: The model successfully replicates experimental data and generates predictions regarding changes in unexplored brain regions, suggesting avenues for further investigation. It highlights the potential efficacy of alternative treatments targeting the locus coeruleus and dorsal raphe nucleus, though these preliminary findings require further validation. Sensitivity analysis identifies critical model parameters, offering insights into key factors influencing brain area activity. A stability analysis underscores the robustness of our mathematical formulation, bolstering the model validity. Discussion: Our holistic approach emphasizes that PD is amultifactorial disorder and opens promising avenues for early diagnostic tools that harness the intricate interactions amongmonoaminergic systems. Investigating NA and 5-HT systems alongside the DA system may yield more effective, subtype-specific therapies. The exploration of multisystem dysregulation in PD is poised to revolutionize our understanding and management of this complex neurodegenerative disorder. [ABSTRACT FROM AUTHOR]

Published

2024

6. Long-term effects on cardiorespiratory and behavioral responses in male and female rats prenatally exposed to cannabinoid.

Author

Patrone, Luis Gustavo A., Frias, Alana T., Fantinatti, Gabriel T., Stabile, Angelita M., Klein, Wilfried, Bícego, Kênia C., and Gargaglioni, Luciane H.

Subjects

CENTRAL nervous system, RESPIRATORY organs, PRENATAL exposure, PREGNANT women, DRUG prescribing, CARDIOPULMONARY system

Abstract

Development of the respiratory system can be affected by the use of drugs during pregnancy, as the prenatal phase is highly sensitive to pharmacological interventions, resulting in long-term consequences. The deleterious effects of external cannabinoids during gestation may be related to negative interference in central nervous system formation, cardiorespiratory system function, and behavioral disorders. Nevertheless, the impact of external cannabinoids on cardiorespiratory network development, chemosensitivity, and its future consequences in adulthood is still unclear. We evaluated the effects of prenatal exposure to a synthetic cannabinoid (WIN 55,212-2, 0.5 mg·kg−1·day−1) on the cardiorespiratory control and panic-like behavior of male and female rats in adulthood. Exogenous cannabinoid exposure during pregnancy resulted in a sex-dependent difference in breathing control. Specifically, males showed increased chemosensitivity to CO2 and O2, whereas females exhibited decreased sensitivity. Altered cardiovascular control was evident, with prenatally treated males and females being more susceptible to hypertension and tachycardia under adverse environmental conditions. Moreover, WIN-treated males exhibited higher fragmentation of sleep episodes, whereas females displayed anxiolytic and panicolytic behavioral responses to CO2. However, no changes were observed in the mechanical component of the respiratory system, and there were no neuroanatomical alterations, such as changes in the expression of CB1 receptors in the brainstem or in the quantification of catecholaminergic and serotonergic neurons. These findings highlight that external interference in cannabinoid signaling during fetal development causes sex-specific, long-lasting effects for the cardiorespiratory system and behavioral responses in adulthood. NEW & NOTEWORTHY: The surge in recreational cannabis use and cannabinoid-based medication prescription among pregnant women has been notable in recent years, fueled by the misconception that natural products are inherently safe. Significant gaps persist regarding the potential risks of maternal consumption of cannabinoids and the long-term effects on the cardiorespiratory system of their offspring, which may be determined by sex. Accordingly, this research aims to diminish this lack of information and raise a note of caution. [ABSTRACT FROM AUTHOR]

Published

2024

7. Identifying the bioimaging features of Alzheimer’s disease based on pupillary light response-driven brain-wide fMRI in awake mice

Author

Xiaochen Liu, David Hike, Sangcheon Choi, Weitao Man, Chongzhao Ran, Xiaoqing Alice Zhou, Yuanyuan Jiang, and Xin Yu

Subjects

Science

Abstract

Abstract Pupil dynamics has emerged as a critical non-invasive indicator of brain state changes. In particular, pupillary-light-responses (PLR) in Alzheimer’s disease (AD) patients show potential as biomarkers for brain degeneration. To investigate AD-specific PLR and its underlying neuromodulatory sources, we combine high-resolution awake mouse fMRI with real-time pupillometry to map brain-wide event-related correlation patterns based on illumination-driven pupil constriction ( $${P}_{c}$$ P c ) and post-illumination pupil dilation recovery (amplitude, $${P}_{d}$$ P d , and time, T). The $${P}_{c}$$ P c -driven differential analysis reveals altered visual signal processing and reduced thalamocortical activation in AD mice in comparison with wild-type (WT) control mice. In contrast, the post-illumination pupil dilation recovery-based fMRI highlights multiple brain areas associated with AD brain degeneration, including the cingulate cortex, hippocampus, septal area of the basal forebrain, medial raphe nucleus, and pontine reticular nuclei (PRN). Additionally, the brain-wide functional connectivity analysis highlights the most significant changes in PRN of AD mice, which serves as the major subcortical relay nuclei underlying oculomotor function. This work integrates non-invasive pupil-fMRI measurements in preclinical models to identify pupillary biomarkers based on brain-wide functional changes, including neuromodulatory dysfunction coupled with AD brain degeneration.

Published

2024

8. Mapping the bioimaging marker of Alzheimer's disease based on pupillary light response-driven brain-wide fMRI in awake mice.

Subjects

ALZHEIMER'S disease, CENTRAL nervous system diseases, FUNCTIONAL magnetic resonance imaging, BRAIN degeneration

Abstract

A preprint abstract discusses the use of pupillary light responses (PLR) as potential biomarkers for Alzheimer's disease (AD) in mice. The study used high-resolution awake mouse fMRI and real-time pupillometry to map brain-wide correlation patterns based on pupil constriction and post-illumination pupil dilation recovery. The results showed altered visual signal processing and reduced thalamocortical activation in AD mice compared to normal mice. Additionally, brain areas related to AD brain degeneration were identified, including the cingulate cortex, hippocampus, septal area of the basal forebrain, medial raphe nucleus, and pontine reticular nuclei. The study suggests that pupillary biomarkers based on neuromodulatory dysfunction and AD brain degeneration could be identified using non-invasive pupil-fMRI measurements in preclinical models. However, it is important to note that this preprint has not been peer-reviewed. [Extracted from the article]

Published

2024

9. 骨钙素在神经退行性疾病中的研究进展.

Author

康宁, 杨宁, and 郭向阳

Abstract

Bone functions not only as the supportive organ for the body, but also the active endocrine organ. Osteocalcin (OC), specifically produced by osteoblasts, was secreted into bloodstream after decarboxylation by osteoclasts. It not only regulates energy expenditure and male fertility, but also promotes spatial learning and memory as well as prevents anxiety-like behavior. After crossing the blood-brain barrier, OC binds to neurons from the hippocampal CA3 region and the ventral tegmental area (VTA) of the midbrain and dorsal raphe nuclei (DRN), as well as medial raphe nuclei (MRN) of the brainstem. It acts on these neurons through transcriptional events to increase the synthesis of all monoamine neurotransmitters (serotonin, dopamine and noradrenaline) and to decrease the synthesis of gamma-aminobutyric acid (GABA) mediated by G protein coupled receptor158 (Gpr158). Animal experiments have found that OC could also pass through the placental barrier and affect fetal brain development. Moreover, this hormone tends to decrease with age, which may be involved in the pathological process of neurodegenerative diseases. This article reviews the structure and function of OC and the research progress in two kinds of neurodegenerative diseases including Alzheimer's disease and Parkinson's disease. [ABSTRACT FROM AUTHOR]

Published

2022

10. Amygdala neuronal dyshomeostasis via 5‐HT receptors mediates mood and cognitive defects in Alzheimer's disease.

Author

Wu, Xin‐Rong, Zhu, Xiao‐Na, Pan, Yuan‐Bo, Gu, Xue, Liu, Xian‐Dong, Chen, Si, Zhang, Yu, Xu, Tian‐Le, Xu, Nan‐Jie, and Sun, Suya

Subjects

PYRAMIDAL neurons, ALZHEIMER'S disease, MEMORY disorders, AFFECTIVE disorders, COGNITION disorders, INTERNEURONS, SEROTONIN receptors

Abstract

Behavioral changes or neuropsychiatric symptoms (NPSs) are common features in dementia and are associated with accelerated cognitive impairment and earlier deaths. However, how NPSs are intertwined with cognitive decline remains elusive. In this study, we identify that the basolateral amygdala (BLA) is a key brain region that is associated with mood disorders and memory decline in the AD course. During the process from pre‐ to post‐onset in AD, the dysfunction of parvalbumin (PV) interneurons and pyramidal neurons in the amygdala leads to hyperactivity of pyramidal neurons in the basal state and insensitivity to external stimuli. We further demonstrate that serotonin (5‐HT) receptors in distinct neurons synergistically regulate the BLA microcircuit of AD rather than 5‐HT levels, in which both restrained inhibitory inputs by excessive 5‐HT1AR signaling in PV interneurons and depolarized pyramidal neurons via upregulated 5‐HT2AR contribute to aberrant neuronal hyperactivity. Downregulation of these two 5‐HT receptors simultaneously enables neurons to resist β‐amyloid peptides (Aβ) neurotoxicity and ameliorates the mood and cognitive defects. Therefore, our study reveals a crucial role of 5‐HT receptors for regulating neuronal homeostasis in AD pathogenesis, and this would provide early intervention and potential targets for AD cognitive decline. [ABSTRACT FROM AUTHOR]

Published

2024

11. Dorsal raphe nucleus–hippocampus serotonergic circuit underlies the depressive and cognitive impairments in 5×FAD male mice.

Author

Chen, Meiqin, Wang, Chenlu, Lin, Yinan, Chen, Yanbing, Xie, Wenting, Huang, Xiaoting, Zhang, Fan, Fu, Congrui, Zhuang, Kai, Zou, Tingting, Can, Dan, Li, Huifang, Wu, Shengxi, Luo, Ceng, and Zhang, Jie

Subjects

COGNITION disorders, RAPHE nuclei, NEURAL circuitry, SEROTONIN receptors, ALZHEIMER'S patients, ATTITUDE testing

Abstract

Background: Depressive symptoms often occur in patients with Alzheimer's disease (AD) and exacerbate the pathogenesis of AD. However, the neural circuit mechanisms underlying the AD-associated depression remain unclear. The serotonergic system plays crucial roles in both AD and depression. Methods: We used a combination of in vivo trans-synaptic circuit-dissecting anatomical approaches, chemogenetic manipulations, optogenetic manipulations, pharmacological methods, behavioral testing, and electrophysiological recording to investigate dorsal raphe nucleus serotonergic circuit in AD-associated depression in AD mouse model. Results: We found that the activity of dorsal raphe nucleus serotonin neurons (DRN5-HT) and their projections to the dorsal hippocampal CA1 (dCA1) terminals (DRN5-HT-dCA1CaMKII) both decreased in brains of early 5×FAD mice. Chemogenetic or optogenetic activation of the DRN5-HT-dCA1CaMKII neural circuit attenuated the depressive symptoms and cognitive impairments in 5×FAD mice through serotonin receptor 1B (5-HT1BR) and 4 (5-HT4R). Pharmacological activation of 5-HT1BR or 5-HT4R attenuated the depressive symptoms and cognitive impairments in 5×FAD mice by regulating the DRN5-HT-dCA1CaMKII neural circuit to improve synaptic plasticity. Conclusions: These findings provide a new mechanistic connection between depression and AD and provide potential pharmaceutical prevention targets for AD. [ABSTRACT FROM AUTHOR]

Published

2024

12. Optogenetic activation of dorsal raphe serotonin neurons induces brain-wide activation.

Author

Hamada, Hiro Taiyo, Abe, Yoshifumi, Takata, Norio, Taira, Masakazu, Tanaka, Kenji F., and Doya, Kenji

Subjects

RAPHE nuclei, SEROTONIN, NEURONS, SEROTONIN receptors, FUNCTIONAL magnetic resonance imaging, PREFRONTAL cortex

Abstract

Serotonin is a neuromodulator that affects multiple behavioral and cognitive functions. Nonetheless, how serotonin causes such a variety of effects via brain-wide projections and various receptors remains unclear. Here we measured brain-wide responses to optogenetic stimulation of serotonin neurons in the dorsal raphe nucleus (DRN) of the male mouse brain using functional MRI with an 11.7 T scanner and a cryoprobe. Transient activation of DRN serotonin neurons caused brain-wide activation, including the medial prefrontal cortex, the striatum, and the ventral tegmental area. The same stimulation under anesthesia with isoflurane decreased brain-wide activation, including the hippocampal complex. These brain-wide response patterns can be explained by DRN serotonergic projection topography and serotonin receptor expression profiles, with enhanced weights on 5-HT1 receptors. Together, these results provide insight into the DR serotonergic system, which is consistent with recent discoveries of its functions in adaptive behaviors. The dorsal raphe nucleus (DRN) is a major source of serotonergic projections to brain-wide targets. Here the authors use optogenetics and fMRI to investigate brain-wide responses to activation of the DRN serotonergic pathway. [ABSTRACT FROM AUTHOR]

Published

2024

13. Trait Impulsivity as a Feature of Parkinson's Disease Treatment and Progression.

Author

Spencer, Holly and Anderton, Ryan S.

Subjects

PARKINSON'S disease treatment, RISK assessment, COMPULSIVE behavior, SHOPPING, BINGE-eating disorder, PARKINSON'S disease, GAMBLING, NEUROANATOMY, IMPULSIVE personality, IMPULSE control disorders, HYPERSEXUALITY, SOCIAL skills, FINANCIAL management, QUALITY of life, DISEASE progression, DISEASE risk factors, SYMPTOMS

Abstract

Heightened trait impulsivity in both subclinical and pathological senses is becoming increasingly recognised in Parkinson's disease (PD). Impulsive behaviours and impulse control disorders (ICDs) are a consequence of perturbation to the rewards pathway leading individuals to conduct activities in a repetitive, excessive, and maladaptive fashion. Commonly linked to PD, heightened trait impulsivity has been found to primarily manifest in the forms of hypersexuality, pathological gambling, compulsive shopping, and binge eating, all of which may significantly impact social and financial standing. Subsequent burden to quality of life for both individuals with PD and caregivers are common. Although risk factors and indicators for ICDs in PD are currently lacking, it is recognised that the condition is often precipitated by dopamine replacement therapies, primarily dopamine agonist administration. While this nonmotor symptom is being increasingly diagnosed in PD populations, it remains relatively elusive in comparison to its motor counterparts. Through discussion of impulsivity characteristics, neuroanatomy, and neurochemistry, in addition to reviewing existing research on the potential contributing factors to impulsivity in PD, this review highlights impulsivity as a significant and detrimental PD symptom. Thus, emphasising the imperative need to establish efficacious diagnostic tools and treatments. [ABSTRACT FROM AUTHOR]

Published

2024

14. Interactions between Lateral Hypothalamic Orexin and Dorsal Raphe Circuitry in Energy Balance.

Author

Mavanji, Vijayakumar, Pomonis, Brianna L., Shekels, Laurie, and Kotz, Catherine M.

Subjects

RAPHE nuclei, PHYSICAL activity, GABA

Abstract

Orexin/hypocretin terminals innervate the dorsal raphe nucleus (DRN), which projects to motor control areas important for spontaneous physical activity (SPA) and energy expenditure (EE). Orexin receptors are expressed in the DRN, and obesity-resistant (OR) rats show higher expression of these receptors in the DRN and elevated SPA/EE. We hypothesized that orexin-A in the DRN enhances SPA/EE and that DRN-GABA modulates the effect of orexin-A on SPA/EE. We manipulated orexin tone in the DRN either through direct injection of orexin-A or through the chemogenetic activation of lateral-hypothalamic (LH) orexin neurons. In the orexin neuron activation experiment, fifteen minutes prior to the chemogenetic activation of orexin neurons, the mice received either the GABA-agonist muscimol or antagonist bicuculline injected into the DRN, and SPA/EE was monitored for 24 h. In a separate experiment, orexin-A was injected into the DRN to study the direct effect of DRN orexin on SPA/EE. We found that the activation of orexin neurons elevates SPA/EE, and manipulation of GABA in the DRN does not alter the SPA response to orexin neuron activation. Similarly, intra-DRN orexin-A enhanced SPA and EE in the mice. These results suggest that orexin-A in the DRN facilitates negative energy balance by increasing physical activity-induced EE, and that modulation of DRN orexin-A is a potential strategy to promote SPA and EE. [ABSTRACT FROM AUTHOR]

Published

2024

15. The contribution of periaqueductal gray in the regulation of physiological and pathological behaviors.

Author

Hui Zhang, Zhe Zhu, Wei-Xiang Ma, Ling-Xi Kong, Ping-Chuan Yuan, Li-Fang Bu, Jun Han, Zhi-Li Huang, and Yi-Qun Wang

Subjects

DEFENSIVENESS (Psychology), MESENCEPHALON, ANXIETY, CLINICAL medicine

Abstract

Periaqueductal gray (PAG), an integration center for neuronal signals, is located in the midbrain and regulates multiple physiological and pathological behaviors, including pain, defensive and aggressive behaviors, anxiety and depression, cardiovascular response, respiration, and sleep-wake behaviors. Due to the different neuroanatomical connections and functional characteristics of the four functional columns of PAG, different subregions of PAG synergistically regulate various instinctual behaviors. In the current review, we summarized the role and possible neurobiological mechanism of different subregions of PAG in the regulation of pain, defensive and aggressive behaviors, anxiety, and depression from the perspective of the up-down neuronal circuits of PAG. Furthermore, we proposed the potential clinical applications of PAG. Knowledge of these aspects will give us a better understanding of the key role of PAG in physiological and pathological behaviors and provide directions for future clinical treatments. [ABSTRACT FROM AUTHOR]

Published

2024

16. A STUDY ON SURGICAL OUTCOME OF PROXIMAL HUMERUS FRACTURE TREATED WITH PROXIMAL HUMERAL NAILING.

Author

S., Kumaresapathy, B., Praveen, E. S., Karthikeyan, and R., Manikandan

Subjects

INTRAMEDULLARY fracture fixation, HUMERAL fractures, DISTAL radius fractures, HUMERUS, HIP fractures, ROTATOR cuff

Abstract

Background: The proximal humerus is the third most common fractured bone in the body, making up about 4%-5% of all fractures. Incidence occurs mostly after distal radius fractures and hip fractures. Fractures of the proximal humerus are more common among the elderly. Studying the outcomes of proximal humeral nailing fixation for two- and three-part proximal humeral fractures was the primary focus of this prospective observational study. This study was conducted to assess the clinical, radiological and functional outcome of treating Neer 2, 3-part proximal humerus fracture using intramedullary proximal humerus nailing and to know the advantages, disadvantages and complications of the procedure. Materials and Methods: A prospective study was conducted in K A P V govt Medical College& MGMGH, Trichy. This study included the patients with fracture of proximal humerus requiring surgical interventions, after taking their consent, were analyzed clinically and radiologically. All the patients selected for the study were evaluated as per the history & mode of injury, necessary clinical and laboratory investigations. The pre-operative and immediate postoperative X-ray were evaluated. The patients were evaluated clinically and radiologically in their subsequent follow-up every 6 weeks till fracture union and at 1 year after surgery. Results: The time for union (weeks) was 11 to 14 weeks in86.66% of the participants. Most of the patients had follow-up till one year. The mean post op NEER score 75.17 ± 5.85 at 6 weeks, it was 79.63 ± 5.3 at 3 months, it was 83.23 ± 5.28 at 6 months, it was 88.5 ± 5.48 at final score.36.67% and 63.33% of the participants had NEER 2 and 3part type of fracture injury. Among the study population with post-op complication, 10.00% of them had varus malunion, 6.67% of them had rotator cuff injury, 3.33% of them had glenohumeral protrusion. We found that 63.33% of them had excellent outcomes, 26.67% of them had satisfactory outcomes, 10.00% of them had unsatisfactory outcomes. Conclusion: We discovered that individuals with both two and three-part fractures exhibit successful fracture union. Post-operative NEER score was improved with the patients treated. We found that there was a good outcome with a smaller number of complications found in the treatment of proximal humeral nailing. [ABSTRACT FROM AUTHOR]

Published

2024

17. CLINICAL ASPECTS OF COMPLEX ORAL REHABILITATION IN PATIENTS WITH DYSFUNCTIONAL SYNDROME OF THE STOMATOGNAT SYSTEM AND ITS INTERFERENCES WITH SCHIZOPHRENIA -- Part 1.

Author

Burlea, Lucian Stefan, Ciubara, Ana Maria, Pintiliciuc, Veronica Serban, Hamburda, Tudor, Stamatin, Ovidiu, Aminov, Liana, Mihaila, Bogdan Constantin, Forna, Doriana Agop, Cristian, Toma Marius, and Checherita, Laura Elisabeta

Subjects

SICK leave, REMOVABLE partial dentures, BRIDGES (Dentistry), STOMATOGNATHIC system, QUALITY of life, SALIVARY glands, ALVEOLAR process, OLANZAPINE

Abstract

This article discusses the relationship between dysfunctional syndrome of the stomatognathic system and schizophrenia, emphasizing the need for an interdisciplinary approach in treating complex oral rehabilitation cases in patients with schizophrenia. It provides a detailed clinical case of a patient with schizophrenia and their specific oral rehabilitation needs. The article also discusses therapeutic solutions and objectives for the rehabilitation process. Additionally, the document is a clinical examination report that assesses the oral health status of a schizophrenic patient, including their medical history, physical condition, dental examination findings, and periodontal risk factors. The report aims to develop a treatment plan that addresses both the patient's dental needs and psychological well-being. [Extracted from the article]

Published

2024

18. Visualizing the Habenula Using 3T High-Resolution MP2RAGE and QSM: A Preliminary Study.

Author

BingYang Bian, Lin Hou, YaTing Chai, YueLuan Jiang, XingChen Pan, Yang Sun, HongChao Wang, DongDong Qiu, ZeChen Yu, Hua Zhao, HuiMao Zhang, FanYang Meng, and Lei Zhang

Published

2024

19. The differential sensitivity of the hypothalamic–hypophysial–ovarian axis to 5‐hydroxytryptophan alters the secretion of estradiol.

Author

Monroy, Juana, Cortés, Omar D., Domínguez, Roberto, Mendoza‐Garrido, María Eugenia, Gallegos, Eloir, Cárdenas, Mario, Aragón, Andrés, and Ayala, María E.

Subjects

SECRETION, SEX hormones, ESTRADIOL, RAPHE nuclei, STEROID synthesis, STEROID hormones

Abstract

Serotonin [5‐hydroxytryptamine (5‐HT)] modulates ovarian function. The precursor of 5‐HT, 5‐hydroxytryptophan (5‐HTP), has been used to treat depression. However, the effects of 5‐HTP on ovarian and reproductive physiology remain unknown. In this research, we analysed the impact of 5‐HTP on the monoaminergic system and its interactions with the reproductive axis and ovarian estradiol secretion when administered by distinct routes. Female rats 30 days of age were injected with 5‐HTP i.p. (100 mg/kg), into the ovarian bursa (1.5 µg/40 µL) or into the median raphe nucleus (20 µg/2.5 µL) and were killed 60 or 120 min after injection. As controls, we used rats of the same age injected with vehicle (0.9% NaCl). Monoamine, gonadotrophin and steroid ovarian hormone concentrations were measured. The injection of 5‐HTP either i.p. or directly into the ovarian bursa increased the concentrations of 5‐HT and the metabolite 5‐hydroxyindole‐3‐acetic acid in the ovary. For both routes of administration, the serum concentration of estradiol increased. After i.p. injection of 5‐HTP, the concentrations of luteinizing hormone were decreased and follicle‐stimulating hormone increased after 120 min. Micro‐injection of 5‐HTP into the median raphe nucleus increased the concentrations of 5‐HT in the anterior hypothalamus and dopamine in the medial hypothalamus after 120 min. Our results suggest that the administration of 5‐HTP either i.p. or directly into the ovarian bursa enhances ovarian estradiol secretion. What is the central question of this study?Does the route of administration of 5‐hydroxytryptophan affect the synthesis of steroid sex hormones in prepubertal female rats?What is the main finding and its importance?The injection of 5‐hydroxytryptophan either i.p. or directly into the ovarian bursa in prepubertal female rats stimulated the serotoninergic system of the reproductive axis. In turn, this increased the secretion of estradiol, a gonadal hormone that regulates sexual maturation and several physiological processes in females. [ABSTRACT FROM AUTHOR]

Published

2024

20. Phenotyping of light-activated neurons in the mouse SCN based on the expression of FOS and EGR1.

Author

Riedel, Casper Schwartz, Georg, Birgitte, and Hannibal, Jens

Subjects

VASOACTIVE intestinal peptide, NEURONS, SUPRACHIASMATIC nucleus, NEURAL circuitry, IMMUNOSTAINING

Abstract

Light-sensitive neurons are located in the ventral and central core of the suprachiasmatic nucleus (SCN), whereas stably oscillating clock neurons are found mainly in the dorsal shell. Signals between the SCN core and shell are believed to play an important role in light entrainment. Core neurons express vasoactive intestinal polypeptide (VIP), gastrin-releasing peptide (GRP), and Neuroglobin (Ngb), whereas the shell neurons express vasopressin (AVP), prokineticin 2, and the VIP type 2 (VPAC2) receptor. In rodents, light has a phase-shifting capacity at night, which induces rapid and transient expression of the EGR1 and FOS in the SCN. Methods: The present study used immunohistochemical staining of FOS, EGR1, and phenotypical markers of SCN neurons (VIP, AVP, Ngb) to identify subtypes/populations of light-responsive neurons at early night. Results: Double immunohistochemistry and cell counting were used to evaluate the number of SCN neurons expressing FOS and EGR1 in the SCN. The number of neurons expressing either EGR1 or FOS was higher than the total number of neurons co-storing EGR1 and FOS. Of the total number of light-responsive cells, 42% expressed only EGR1, 43% expressed only FOS, and 15% expressed both EGR1 and FOS. Light-responsive VIP neurons represented only 31% of all VIP neurons, and EGR1 represents the largest group of light-responsive VIP neurons (18%). VIP neurons expressing only FOS represented 1% of the total lightresponsive VIP neurons. 81% of the Ngb neurons in the mouse SCN were light-responsive, and of these neurons expressing only EGR1 after light stimulation represented 44%, whereas 24% expressed FOS. Although most light-responsive neurons are found in the core of the SCN, 29% of the AVP neurons in the shell were light-responsive, of which 8% expressed EGR1, 10% expressed FOS, and 11% co-expressed both EGR1 and FOS after light stimulation. Discussion: Our analysis revealed cell-specific differences in light responsiveness between different peptidergic and Ngb-expressing neurons in different compartments of the mouse SCN, indicating that light activates diverse neuronal networks in the SCN, some of which participate in photoentrainment. [ABSTRACT FROM AUTHOR]

Published

2024

21. SACROCOCCYGEAL PILONIDAL CYST WITH THE DISEASE ONSET AS AN ANTERIOR PERIANAL ABSCESS: A CLINICAL CASE.

Author

Dubenko, Dmytro

Subjects

MEDICAL sciences, MEDICAL research, PILONIDAL cyst, BUTTOCK diseases, CYSTS (Pathology)

Abstract

The aim. To analyze the clinical case of surgical treatment of a patient with a pilonidal cyst (PC) of the sacrococcygeal area, which manifested as an anterior perianal abscess, and to justify the need for an in-depth differential and diagnostic search in patients with corresponding clinical manifestations of perianal pathology. Description of a clinical case. The article describes a clinical case of successful treatment of a 24-year-old patient with a pilonidal cyst of the sacrococcygeal area and a purulent secondary fistula that mimicked a perianal abscess with an incomplete external fistula of the rectum. Data are given on the step-by-step performance of the diagnostic process and the choice of optimal surgical treatment tactics. Results and discussion. The described clinical case is interesting for specialists and its detailed coverage due to: a) the presented atypical course of PC; b) selected diagnostic tactics; c) the selected method of operative treatment of the patient. The points mentioned above are described in detail in the section, with coverage and visualization of possible alternative options for the patient's diagnosis and the use of various tactics for surgical treatment. Conclusions. Conducting an extended differential diagnostic search using additional instrumental imaging methods is justified in patients with pilonidal disease with an atypical or blurred course. Performing a complete perioperative set of examinations allows for choosing the correct surgical tactics for treating such patients. The use of a full-fledged invasive examination of the perianal area using methods of regional or general anesthesia is reasonably justified in case of suspicion of insufficient informativeness of clinical-instrumental, laboratory, and imaging methods of examination. [ABSTRACT FROM AUTHOR]

Published

2024

22. Transcriptomic and lipid profiling analysis reveals a functional interplay between testosterone and growth hormone in hypothyroid liver.

Author

Fernández-Pérez, Leandro, Guerra, Borja, Recio, Carlota, José Cabrera-Galván, Juan, García, Irma, Vladimir De La Rosa, Juan, Castrillo, Antonio, Iglesias-Gato, Diego, and Díaz, Mario

Subjects

LIPID analysis, SOMATOTROPIN, ANDROGEN receptors, TESTOSTERONE, GENE expression profiling, SOMATOTROPIN receptors, UNSATURATED fatty acids

Abstract

Preclinical and clinical studies suggest that hypothyroidism might cause hepatic endocrine and metabolic disturbances with features that mimic deficiencies of testosterone and/or GH. The absence of physiological interactions between testosterone and GH can be linked to male differentiated liver diseases. Testosterone plays relevant physiological effects on somatotropic-liver axis and liver composition and the liver is a primary organ of interactions between testosterone and GH. However, testosterone exerts many effects on liver through complex and poorly understood mechanisms. Testosterone impacts liver functions by binding to the Androgen Receptor, and, indirectly, through its conversion to estradiol, and cooperation with GH. However, the role of testosterone, and its interaction with GH, in the hypothyroid liver, remains unclear. In the present work, the effects of testosterone, and how they impact on GH-regulated whole transcriptome and lipid composition in the liver, were studied in the context of adult hypothyroid-orchiectomized rats. Testosterone replacement positively modulated somatotropic-liver axis and impacted liver transcriptome involved in lipid and glucose metabolism. In addition, testosterone enhanced the effects of GH on the transcriptome linked to lipid biosynthesis, oxidation-reduction, and metabolism of unsaturated and long-chain fatty acids (FA). However, testosterone decreased the hepatic content of cholesterol esters and triacylglycerols and increased fatty acids whereas GH increased neutral lipids and decreased polar lipids. Biological network analysis of the effects of testosterone on GH-regulated transcriptome confirmed a close connection with crucial proteins involved in steroid and fatty acid metabolism. Taken together, this comprehensive analysis of gene expression and lipid profiling in hypothyroid male liver reveals a functional interplay between testosterone and pulsed GH administration. [ABSTRACT FROM AUTHOR]

Published

2023

23. Hydrogen sulfide production in the medullary respiratory center modulates the neural circuit for respiratory pattern and rhythm generations.

Author

Okazaki, Minako, Matsumoto, Masayuki, and Koganezawa, Tadachika

Subjects

NEURAL circuitry, HYDROGEN sulfide, HYDROGEN production, RHYTHM, MICROINJECTIONS, RESPIRATORY muscles

Abstract

Hydrogen sulfide (H2S), which is synthesized in the brain, modulates the neural network. Recently, the importance of H2S in respiratory central pattern generation has been recognized, yet the function of H2S in the medullary respiratory network remains poorly understood. Here, to evaluate the functional roles of H2S in the medullary respiratory network, the Bötzinger complex (BötC), the pre-Bötzinger complex (preBötC), and the rostral ventral respiratory group (rVRG), we observed the effects of inhibition of H2S synthesis at each region on the respiratory pattern by using an in situ arterially perfused preparation of decerebrated male rats. After microinjection of an H2S synthase inhibitor, cystathionine β-synthase, into the BötC or preBötC, the amplitude of the inspiratory burst decreased and the respiratory frequency increased according to shorter expiration and inspiration, respectively. These alterations were abolished or attenuated in the presence of a blocker of excitatory synaptic transmission. On the other hand, after microinjection of the H2S synthase inhibitor into the rVRG, the amplitude of the inspiratory burst was attenuated, and the respiratory frequency decreased, which was the opposite effect to those obtained by blockade of inhibitory synaptic transmission at the rVRG. These results suggest that H2S synthesized in the BötC and preBötC functions to limit respiratory frequency by sustaining the respiratory phase and to maintain the power of inspiration. In contrast, H2S synthesized in the rVRG functions to promote respiratory frequency by modulating the interval of inspiration and to maintain the power of inspiration. The underlying mechanism might facilitate excitatory synaptic transmission and/or attenuate inhibitory synaptic transmission. [ABSTRACT FROM AUTHOR]

Published

2023

24. Dynamical questions in volume transmission.

Author

Cruikshank, Allison, Nijhout, H. Frederik, Best, Janet, and Reed, Michael

Subjects

GABA, EXTRACELLULAR space, NEUROTRANSMITTERS, SEROTONIN, ACETYLCHOLINE, NEUROTRANSMITTER receptors, DOPAMINE

Abstract

In volume transmission (or neuromodulation) neurons do not make one-to-one connections to other neurons, but instead simply release neurotransmitter into the extracellular space from numerous varicosities. Many well-known neurotransmitters including serotonin (5HT), dopamine (DA), histamine (HA), Gamma-Aminobutyric Acid (GABA) and acetylcholine (ACh) participate in volume transmission. Typically, the cell bodies are in one volume and the axons project to a distant volume in the brain releasing the neurotransmitter there. We introduce volume transmission and describe mathematically two natural homeostatic mechanisms. In some brain regions several neurotransmitters in the extracellular space affect each other's release. We investigate the dynamics created by this comodulation in two different cases: serotonin and histamine; and the comodulation of 4 neurotransmitters in the striatum and we compare to experimental data. This kind of comodulation poses new dynamical questions as well as the question of how these biochemical networks influence the electrophysiological networks in the brain. [ABSTRACT FROM AUTHOR]

Published

2023

25. Modulation of functional networks related to the serotonin neurotransmitter system by citalopram: Evidence from a multimodal neuroimaging study.

Author

Boucherie, Daphne E, Reneman, Liesbeth, Booij, Jan, Martins, Daniel, Dipasquale, Ottavia, and Schrantee, Anouk

Subjects

SEROTONIN, SEROTONIN uptake inhibitors, CITALOPRAM, SEROTONIN transporters, BRAIN imaging, SEROTONIN receptors

Abstract

Background: Selective serotonin reuptake inhibitors (SSRIs) potentiate serotonergic neurotransmission by blocking the serotonin transporter (5-HTT), but the functional brain response to SSRIs involves neural circuits beyond regions with high 5-HTT expression. Currently, it is unclear whether and how changes in 5-HTT availability after SSRI administration modulate brain function of key serotoninergic circuits, including those characterized by high availability of the serotonin 1A receptor (5-HT1AR). Aim: We investigated the association between 5-HTT availability and 5-HTT- and 5-HT1AR-enriched functional connectivity (FC) after an acute citalopram challenge. Methods: We analyzed multimodal data from a dose–response, placebo-controlled, double-blind study, in which 45 healthy women were randomized into three groups receiving placebo, a low (4 mg), or high (16 mg) oral dose of citalopram. Receptor-Enhanced Analysis of functional Connectivity by Targets was used to estimate 5-HTT- and 5-HT1AR-enriched FC from resting-state and task-based fMRI. 5-HTT availability was determined using [123I]FP-CIT single-photon emission computerized tomography. Results: 5-HTT availability was negatively correlated with resting-state 5-HTT-enriched FC, and with task-dependent 5-HT1AR-enriched FC. Our exploratory analyses revealed lower 5-HT1AR-enriched FC in the low-dose group compared to the high-dose group at rest and the placebo group during the emotional face-matching task. Conclusions: Taken together, our findings provide evidence for differential links between 5-HTT availability and brain function within 5-HTT and 5-HT1AR pathways and in context- and dose-dependent manner. As such, they support a potential pivotal role of the 5-HT1AR in the effects of citalopram on the brain and add to its potential as a therapeutic avenue for mood and anxiety disturbances. [ABSTRACT FROM AUTHOR]

Published

2023

26. Evaluation of the changes in choroidal macular anastomoses after photodynamic therapy and in the follow-up of central serous chorioretinopathy by en face optical coherence tomography.

Author

Oribio-Quinto, Carlos, Alarcón-García, Antonio Domingo, Fuentes, Jacobo Enríquez, and Fernández-Vigo, José Ignacio

Abstract

• Macular intervortex venous anastomoses have been proposed to have a role in the pathogenesis of CSCR. • After photodynamic therapy treatment an early reduction in size of the major choroidal anastomosis is present. • No change in the number of intervortex anastomoses in patients after PDT was detected by en face OCT. To evaluate the changes in the choroidal macular anastomoses after photodynamic therapy (PDT) and in the follow-up of patients with central serous chorioretinopathy (CSCR) by en face optical coherence tomography (EF-OCT). Prospective study using EF-OCT images of patients with chronic CSCR treated by PDT with a minimum follow-up of 12 months and with the presence of at least two prominent anastomoses in the macula. Scans of 6 × 6 mm and 12 × 12 mm were made to assess the changes in choroidal macular anastomoses (defined as a diameter ≥150 µm) crossing the medial raphe. EF-OCT was performed before PDT and 3 days, 3 months and at the end of the follow-up after PDT. The mean follow-up time was 23.6 ± 12.1 months. The mean number of anastomoses was 2.5 ± 1.1 in the baseline examination, being 2.3 ± 1.2 in the final examination, with no differences being observed (p = 0.110). A sub-analysis was performed to assess differences in the evolution of the anastomoses between active chronic CSCR and those in which the subretinal fluid (SRF) had been resolved, with no differences being observed in the number or caliber of anastomoses (p = 0.642 and p = 0.306). A significant decrease in the size of anastomoses was found at the 3-day (p <0.01) and 3-month (p = 0.032) visits, but not at the last follow-up visit (p = 0.156). There was an early decrease in the size of the major macular choroidal anastomotic vessels after PDT treatment. Long-term studies are required to assess its evolution and its possible role in the etiopathogenesis of this disease. [ABSTRACT FROM AUTHOR]

Published

2023

27. Topography of inputs into the hippocampal formation of a food‐caching bird.

Author

Applegate, Marissa C., Gutnichenko, Konstantin S., and Aronov, Dmitriy

Abstract

The mammalian hippocampal formation (HF) is organized into domains associated with different functions. These differences are driven in part by the pattern of input along the hippocampal long axis, such as visual input to the septal hippocampus and amygdalar input to the temporal hippocampus. HF is also organized along the transverse axis, with different patterns of neural activity in the hippocampus and the entorhinal cortex. In some birds, a similar organization has been observed along both of these axes. However, it is not known what role inputs play in this organization. We used retrograde tracing to map inputs into HF of a food‐caching bird, the black‐capped chickadee. We first compared two locations along the transverse axis: the hippocampus and the dorsolateral hippocampal area (DL), which is analogous to the entorhinal cortex. We found that pallial regions predominantly targeted DL, while some subcortical regions like the lateral hypothalamus (LHy) preferentially targeted the hippocampus. We then examined the hippocampal long axis and found that almost all inputs were topographic along this direction. For example, the anterior hippocampus was preferentially innervated by thalamic regions, while the posterior hippocampus received more amygdalar input. Some of the topographies we found bear a resemblance to those described in the mammalian brain, revealing a remarkable anatomical similarity of phylogenetically distant animals. More generally, our work establishes the pattern of inputs to HF in chickadees. Some of these patterns may be unique to chickadees, laying the groundwork for studying the anatomical basis of these birds' exceptional hippocampal memory. [ABSTRACT FROM AUTHOR]

Published

2023

28. Alterations in Serotonin Neurotransmission in Hyperdopaminergic Rats Lacking the Dopamine Transporter.

Author

Traktirov, Dmitrii S., Nazarov, Ilya R., Artemova, Valeria S., Gainetdinov, Raul R., Pestereva, Nina S., and Karpenko, Marina N.

Subjects

SEROTONIN, NEURAL transmission, DOPAMINE, CENTRAL nervous system, MEDULLA oblongata, IMMOBILIZATION stress

Abstract

Biogenic amines dopamine (DA) and serotonin (5-HT) are among the most significant monoaminergic neurotransmitters in the central nervous system (CNS). Separately, the physiological roles of DA and 5-HT have been studied in detail, and progress has been made in understanding their roles in normal and various pathological conditions (Parkinson's disease, schizophrenia, addiction, depression, etc.). In this article we showed that knockout of the gene encoding DAT leads not only to a profound dysregulation of dopamine neurotransmission in the striatum but also in the midbrain, prefrontal cortex, hippocampus, medulla oblongata and spinal cord. Furthermore, significant changes were observed in the production of mRNA of enzymes of monoamine metabolism, as well as to a notable alteration in the tissue level of serotonin, most clearly manifested in the cerebellum and the spinal cord. The observed region-specific changes in the tissue levels of serotonin and in the expression of dopamine and serotonergic metabolism enzymes in rats with an excess of dopamine can indicate important consequences for the pharmacotherapy of drugs that modulate the dopaminergic system. The drugs that affect the dopaminergic system could potently affect the serotonergic system, and this fact is important to consider when predicting their possible therapeutic or side effects. [ABSTRACT FROM AUTHOR]

Published

2023

29. Serotonin stimulates female preoptic area kisspeptin neurons via activation of type 2 serotonin receptors in mice.

Author

Buo, Carrie, Bearss, Robin J., Novak, Alyssa G., Anello, Anna E., Dakin, Jordan J., and Piet, Richard

Subjects

KISSPEPTIN neurons, PREOPTIC area, SEROTONIN receptors, SEROTONIN, ESTRUS, GONADOTROPIN releasing hormone, NEURAL circuitry

Abstract

Background: The neuroendocrine control of ovulation is orchestrated by neuronal circuits that ultimately drive the release of gonadotropin-releasing hormone (GnRH) from the hypothalamus to trigger the preovulatory surge in luteinizing hormone (LH) secretion. While estrogen feedback signals are determinant in triggering activation of GnRH neurons, through stimulation of afferent kisspeptin neurons in the rostral periventricular area of the third ventricle (RP3VKISS1 neurons), many neuropeptidergic and classical neurotransmitter systems have been shown to regulate the LH surge. Among these, several lines of evidence indicate that the monoamine neurotransmitter serotonin (5-HT) has an excitatory, permissive, influence over the generation of the surge, via activation of type 2 5-HT (5-HT2) receptors. The mechanisms through which this occurs, however, are not well understood. We hypothesized that 5-HT exerts its influence on the surge by stimulating RP3VKISS1 neurons in a 5-HT2 receptordependent manner. Methods: We tested this using kisspeptin neuron-specific calcium imaging and electrophysiology in brain slices obtained from male and female mice. Results: We show that exogenous 5-HT reversibly increases the activity of the majority of RP3VKISS1 neurons. This effect is more prominent in females than in males, is likely mediated directly at RP3VKISS1 neurons and requires activation of 5-HT2 receptors. The functional impact of 5-HT on RP3VKISS1 neurons, however, does not significantly vary during the estrous cycle. Conclusion: Taken together, these data suggest that 5-HT2 receptor-mediated stimulation of RP3VKISS1 neuron activity might be involved in mediating the influence of 5-HT on the preovulatory LH surge. [ABSTRACT FROM AUTHOR]

Published

2023

30. To investigate the association of serum osteocalcin with cognitive functional status in patients with type 2 diabetes: A systematic review with meta-analysis.

Author

Hao Liu, Xia He, Li Tang, Yan Xiao Deng, and Lu Jing Yan

Published

2023

31. Emerging Symptomatic Treatment of Chronic Traumatic Encephalopathy (CTE): a narrative review.

Author

Rossi, Carlo, Campese, Nicole, and Colosimo, Carlo

Abstract

Chronic traumatic encephalopathy (CTE) is an emergent neurodegenerative tauopathy well characterized pathologically but with limited consensus about clinical criteria. The clinical features include cognitive, behavioral, and motor symptoms such as parkinsonism, gait, balance disorder, and bulbar impairment. Their recognition derives from retrospective studies in pathologically confirmed CTE patients. This is one of the main reasons for the lack of specific pharmacological studies targeting symptoms or pathologic pathways of this disease. In this narrative review, we overview the possible symptomatic treatment options for CTE, based on pathological similarities with other neurodegenerative diseases that may share common pathological pathways with CTE. The PubMed database was screened for articles addressing the symptomatic treatment of CTE and Traumatic Encephalopathy Syndrome (TES). Additional references were retrieved by reference cross-check and retained if pertinent to the subject. The clinicaltrials.gov database was screened for ongoing trials on the treatment of CTE. The similarities with the other tauopathies allow us, in the absence of disease-specific evidence, to translate some knowledge from these neurodegenerative disorders to CTE's symptomatic treatment, but any conclusion should be drawn cautiously and a patient-tailored strategy should be always preferred balancing the risks and benefits of each treatment. [ABSTRACT FROM AUTHOR]

Published

2023

32. Relationship Between Executive dysfunction and Suicidal Attempt in Adults Diagnosed with Depression: A Systematic Review.

Author

Arbeláez, María Camila, Jaramillo, Valentina Grand, and Landínez Martínez, Daniel

Subjects

SUICIDAL behavior, ATTEMPTED suicide, PSYCHOTHERAPY, EXECUTIVE function, SUICIDAL ideation, ADULTS

Abstract

Introduction: Suicide attempt has become a public health problem worldwide. Identifying the different risk factors involved in this behavior can result in prevention and intervention alternatives. This phenomenon is associated with environmental, cognitive, psychological, behavioral, biological, and genetic factors. Method: The search was carried out on Web of Science and Scopus on March, 2023, using the following search equation: topic= "Suicide" AND "Suicidal behaviour" AND "Executive functioning" AND "mood" AND "intervention" OR "psychological treatment" with a date range from January 2001 to March 2023. The reporting follows the Preferred Reporting Items for Systematic Reviews and Meta- Analyses (PRISMA) guideline for systematic reviews and meta-analyses. Once the results were obtained, they were loaded onto the Tree of Science platform. Results: Quantitative results were organized into three trends: Neurobiological factors associated with the attempt of suicidal behavior in adults diagnosed with depression, cognitive factors associated with suicide attempt in adults diagnosed with depression, and potential intervention alternatives for the treatment of suicidal ideation and suicide attempt in adults diagnosed with depression. Conclusion: Executive dysfunction results in various changes in patients with depressive disorder and a history of suicidal behavior. It is also related to functional variations in the brain, in neural networks and circuits, as well as neuroendocrine changes. The dorsolateral, ventral, and orbitofrontal prefrontal cortex are implicated in this phenomenon. A multidimensional interpretation of this problem is proposed, and the need to identify and promote effective interventions that can help prevent suicide attempt and avoid future relapses. [ABSTRACT FROM AUTHOR]

Published

2023

33. Brain-Region-Specific Genes Form the Major Pathways Featuring Their Basic Functional Role: Their Implication in Animal Chronic Stress Model

Author

Vladimir Babenko, Olga Redina, Dmitry Smagin, Irina Kovalenko, Anna Galyamina, and Natalia Kudryavtseva

Subjects

animal chronic stress model, brain regions, dopamine, serotonin, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The analysis of RNA-Sec data from murine bulk tissue samples taken from five brain regions associated with behavior and stress response was conducted. The focus was on the most contrasting brain region-specific genes (BRSG) sets in terms of their expression rates. These BRSGs are identified as genes with a distinct outlying (high) expression rate in a specific region compared to others used in the study. The analysis suggested that BRSG sets form non-randomly connected compact gene networks, which correspond to the major neuron-mediated functional processes or pathways in each brain region. The number of BRSGs and the connection rate were found to depend on the heterogeneity and coordinated firing rate of neuron types in each brain region. The most connected pathways, along with the highest BRSG number, were observed in the Striatum, referred to as Medium Spiny Neurons (MSNs), which make up 95% of neurons and exhibit synchronous firing upon dopamine influx. However, the Ventral Tegmental Area/Medial Raphe Nucleus (VTA/MRN) regions, although primarily composed of monoaminergic neurons, do not fire synchronously, leading to a smaller BRSG number. The Hippocampus (HPC) region, on the other hand, displays significant neuronal heterogeneity, with glutamatergic neurons being the most numerous and synchronized. Interestingly, the two monoaminergic regions involved in the study displayed a common BRSG subnetwork architecture, emphasizing their proximity in terms of axonal throughput specifics and high-energy metabolism rates. This finding suggests the concerted evolution of monoaminergic neurons, leading to unique adaptations at the genic repertoire scale. With BRSG sets, we were able to highlight the contrasting features of the three groups: control, depressive, and aggressive mice in the animal chronic stress model. Specifically, we observed a decrease in serotonergic turnover in both the depressed and aggressive groups, while dopaminergic emission was high in both groups. There was also a notable absence of dopaminoceptive receptors on the postsynaptic membranes in the striatum in the depressed group. Additionally, we confirmed that neurogenesis BRSGs are specific to HPC, with the aggressive group showing attenuated neurogenesis rates compared to the control/depressive groups. We also confirmed that immune-competent cells like microglia and astrocytes play a crucial role in depressed phenotypes, including mitophagy-related gene Prkcd. Based on this analysis, we propose the use of BRSG sets as a suitable framework for evaluating case–control group-wise assessments of specific brain region gene pathway responses.

Published

2024

34. Intraoperative Neurophysiological Monitoring in Syringomyelia Surgery: A Multimodal Approach.

Author

Sánchez Roldán, M. Ángeles, Moncho, Dulce, Rahnama, Kimia, Santa-Cruz, Daniela, Lainez, Elena, Baiget, Daniel, Chocrón, Ivette, Gándara, Darío, Bescós, Agustín, Sahuquillo, Juan, and Poca, María A.

Subjects

NEUROPHYSIOLOGIC monitoring, INTRAOPERATIVE monitoring, SYRINGOMYELIA, EVOKED potentials (Electrophysiology), NEURAL pathways, SPINAL cord, SURGERY

Abstract

Syringomyelia can be associated with multiple etiologies. The treatment of the underlying causes is first-line therapy; however, a direct approach to the syrinx is accepted as rescue treatment. Any direct intervention on the syrinx requires a myelotomy, posing a significant risk of iatrogenic spinal cord (SC) injury. Intraoperative neurophysiological monitoring (IONM) is crucial to detect and prevent surgically induced damage in neural SC pathways. We retrospectively reviewed the perioperative and intraoperative neurophysiological data and perioperative neurological examinations in ten cases of syringomyelia surgery. All the monitored modalities remained stable throughout the surgery in six cases, correlating with no new postoperative neurological deficits. In two patients, significant transitory attenuation, or loss of motor evoked potentials (MEPs), were observed and recovered after a corrective surgical maneuver, with no new postoperative deficits. In two cases, a significant MEP decrement was noted, which lasted until the end of the surgery and was associated with postoperative weakness. A transitory train of neurotonic electromyography (EMG) discharges was reported in one case. The surgical plan was adjusted, and the patient showed no postoperative deficits. The dorsal nerve roots were stimulated and identified in the seven cases where the myelotomy was performed via the dorsal root entry zone. Dorsal column mapping guided the myelotomy entry zone in four of the cases. In conclusion, multimodal IONM is feasible and reliable and may help prevent iatrogenic SC injury during syringomyelia surgery. [ABSTRACT FROM AUTHOR]

Published

2023

35. Implications of Physical Exercise on Episodic Memory and Anxiety: The Role of the Serotonergic System.

Author

Illesca-Matus, Ricardo, Ardiles, Nicolás M., Munoz, Felipe, and Moya, Pablo R.

Subjects

EPISODIC memory, MEMORY, COGNITIVE ability, ANXIETY, ANXIETY disorders

Abstract

There is a growing interest in investigating the effects of physical exercise on cognitive performance, particularly episodic memory. Similarly, an increasing number of studies in recent decades have studied the effects of physical activity on mood and anxiety disorders. Moreover, the COVID-19 pandemic has raised awareness of the importance of regular physical activity for both mental and physical health. Nevertheless, the exact mechanisms underlying these effects are not fully understood. Interestingly, recent findings suggest that the serotonergic system may play a key role in mediating the effects of physical exercise on episodic memory and anxiety. In this review, we discuss the impact of physical exercise on both episodic memory and anxiety in human and animal models. In addition, we explore the accumulating evidence that supports a role for the serotonergic system in the effects of physical exercise on episodic memory and anxiety. [ABSTRACT FROM AUTHOR]

Published

2023

36. Emotionally clocked out: cell-type specific regulation of mood and anxiety by the circadian clock system in the brain.

Author

Francis, T. Chase and Porcu, Alessandra

Subjects

CIRCADIAN rhythms, MOOD (Psychology), CHRONOBIOLOGY disorders, CLOCK genes, BIOLOGICAL systems, SUPRACHIASMATIC nucleus

Abstract

Circadian rhythms are self-sustained oscillations of biological systems that allow an organism to anticipate periodic changes in the environment and optimally align feeding, sleep, wakefulness, and the physiological and biochemical processes that support them within the 24 h cycle. These rhythms are generated at a cellular level by a set of genes, known as clock genes, which code for proteins that inhibit their own transcription in a negative feedback loop and can be perturbed by stress, a risk factor for the development of mood and anxiety disorders. A role for circadian clocks in mood and anxiety has been suggested for decades on the basis of clinical observations, and the dysregulation of circadian rhythms is a prominent clinical feature of stress-related disorders. Despite our understanding of central clock structure and function, the effect of circadian dysregulation in different neuronal subtypes in the suprachiasmatic nucleus (SCN), the master pacemaker region, as well as other brain systems regulating mood, including mesolimbic and limbic circuits, is just beginning to be elucidated. In the brain, circadian clocks regulate neuronal physiological functions, including neuronal activity, synaptic plasticity, protein expression, and neurotransmitter release which in turn affect mood-related behaviors via cell-type specific mechanisms. Both animal and human studies have revealed an association between circadian misalignment and mood disorders and suggest that internal temporal desynchrony might be part of the etiology of psychiatric disorders. To date, little work has been conducted associating mood-related phenotypes to cell-specific effects of the circadian clock disruptions. In this review, we discuss existing literature on how clockdriven changes in specific neuronal cell types might disrupt phase relationships among cellular communication, leading to neuronal circuit dysfunction and changes in mood-related behavior. In addition, we examine cell-type specific circuitry underlying mood dysfunction and discuss how this circuitry could affect circadian clock. We provide a focus for future research in this area and a perspective on chronotherapies for mood and anxiety disorders. [ABSTRACT FROM AUTHOR]

Published

2023

37. Interception of fistulous tract and application of Kshara Sutra: Boon for anal fistulae with scrotal extension: A case series.

Author

Hanifa, Nasreen and Sherkhane, Rahul

Published

2023

38. Pupil size reflects activation of subcortical ascending arousal system nuclei during rest.

Author

Lloyd, Beth, de Voogd, Lycia D., Mäki-Marttunen, Verónica, and Nieuwenhuis, Sander

Published

2023

39. Multi-centre analysis of networks and genes modulated by hypothalamic stimulation in patients with aggressive behaviours.

Author

Gouveia, Flavia Venetucci, Germann, Jurgen, Elias, Gavin J. B., Boutet, Alexandre, Loh, Aaron, Rios, Adriana Lucia Lopez, Diaz, Cristina Torres, Lopez, William Omar Contreras, Ruiz Martinez, Raquel Chacon, Fonoff, Erich Talamoni, Carlos Benedetti-Isaac, Juan, Giacobbe, Peter, Arango Pava, Pablo M., Han Yan, Ibrahim, George M., Lipsman, Nir, Lozano, Andres, and Hamani, Clement

Published

2023

40. Primary scrotal lipoma posing a diagnostic quandary: Experience from northern Tanzania, a case report.

Author

Mbwambo, Orgeness Jasper, Pallangyo, Angela, Mbwambo, Jasper Saidi, Bright, Frank, Mteta, Alfred K., Bogdanowicz, Jacques, and Ngowi, Bartholomeo Nicholaus

Subjects

LIPOMA, HEALTH facilities, HYDROCELE

Abstract

Primary scrotal lipoma is a rare urological diagnosis. It is usually diagnosed incidentally as most of time initial diagnosis may be confused with other common etiology of scrotal masses. A rare case of scrotal lipoma with initial misdiagnosis of hydrocele at primary health facility is presented in this article. [ABSTRACT FROM AUTHOR]

Published

2023

41. Functional and phylogenetic interpretation of the forelimb myology of two South American carnivorans, the ring‐tailed coati (Nasua nasua) and crab‐eating raccoon (Procyon cancrivorus).

Author

Tarquini, Juliana, Mosto, M. Clelia, and Ercoli, Marcos D.

Published

2023

42. Activation of brain arousal networks coincident with eye blinks during resting state.

Author

Demiral, Şükrü Barış, Liu, Christopher Kure, Benveniste, Helene, Tomasi, Dardo, and Volkow, Nora D

Published

2023

43. Case study of canine brucellosis by brucella abortus: epidemiological inquiry.

Author

Canesin, Caroline Fleury, da Silva, Karla Patrícia Chaves, de Amorim Lopes, Chiara Rodrigues, de Oliveira, Graziela Kopinits, Tenório Nunes, Annelise Castanha Barreto, Neto, Luiz Fernandes Costa, and Lima, Kátia Christina Pereira

Subjects

BRUCELLA abortus, VETERINARY medicine, PUBLIC hospitals, DOG owners, BLOOD collection, INFECTIOUS disease transmission, BRUCELLOSIS

Abstract

Copyright of Acta Veterinaria Brasilica is the property of Acta Veterinaria Brasilica 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

44. Aggression

Author

de Boer, Sietse F., Koolhaas, Jaap, Pfaff, Donald W., editor, Volkow, Nora D., editor, and Rubenstein, John L., editor

Published

2022

45. Neurobiological Approach to Stress

Author

Tafet, Gustavo E. and Tafet, Gustavo E.

Published

2022

46. Aberrant serotonergic signaling contributes to the hyperexcitability of CA1 pyramidal neurons in a mouse model of Alzheimer's disease.

Author

Wang, Jing, Mei, Yufei, Zhang, Xiaoqin, Wei, Xiaojie, Zhang, Yiping, Wang, Dongpi, Huang, Jinjin, Zhu, Keqing, Peng, Guoping, and Sun, Binggui

Abstract

Hyperactivity of pyramidal neurons (PNs) in CA1 is an early event in Alzheimer's disease. However, factors accounting for the hyperactivity of CA1 PNs remain to be completely investigated. In the present study, we report that the serotonergic signaling is abnormal in the hippocampus of hAPP-J20 mice. Interestingly, chemogenetic activation of serotonin (5-hydroxytryptamine; 5-HT) neurons in the median raphe nucleus (MRN) attenuates the activity of CA1 PNs in hAPP-J20 mice by regulating the intrinsic properties or inhibitory synaptic transmission of CA1 PNs through 5-HT3aR and/or 5-HT1aR. Furthermore, activating MRN 5-HT neurons improves memory in hAPP-J20 mice, and this effect is mediated by 5-HT3aR and 5-HT1aR. Direct activation of 5-HT3aR and 5-HT1aR with their selective agonists also improves the memory of hAPP-J20 mice. Together, we identify the impaired 5-HT/5-HT3aR and/or 5-HT/5-HT1aR signaling as pathways contributing to the hyperexcitability of CA1 PNs and the impaired cognition in hAPP-J20 mice. [Display omitted] • CA1 PNs are hyperexcitable in J20 mice • Serotonergic signaling from MRN to the hippocampus is abnormal in J20 mice • Aberrant 5-HT signaling contributes to the hyperexcitability of CA1 PNs in J20 mice • Modulating MRN-hippocampus 5-TH signaling improves cognition in J20 mice In this study, Wang et al. show that the serotonergic pathway from medial raphe nucleus to the hippocampus is abnormal. This abnormal pathway is closely associated with the hyperexcitability of CA1 pyramidal neurons and the impaired cognitive functions of hAPP-J20 mice. [ABSTRACT FROM AUTHOR]

Published

2023

47. Acute and Chronic Ethanol Effects during Adolescence on Neuroimmune Responses: Consequences and Potential Pharmacologic Interventions.

Author

Nwachukwu, Kala N., Mohammed, Hassan E., Mebane, DaQuan R., Barber, Andrew W., Swartzwelder, H. Scott, and Marshall, S. Alex

Subjects

ETHANOL, ADOLESCENCE, TOLL-like receptors, ALCOHOL drinking, MICROGLIA, ANIMAL models in research

Abstract

Heavy ethanol consumption during adolescence has been linked to neuroimmune response dysregulation and cognitive deficits in the developing adolescent brain. During adolescence, the brain is particularly susceptible to the pharmacological effects of ethanol that are induced by acute and chronic bouts of exposure. Numerous preclinical rodent model studies have used different ethanol administration techniques, such as intragastric gavage, self-administration, vapor, intraperitoneal, and free access, and while most models indicated proinflammatory neuroimmune responses in the adolescent brain, there are various factors that appear to influence this observation. This review synthesizes the most recent findings of the effects of adolescent alcohol use on toll-like receptors, cytokines, and chemokines, as well as the activation of astrocytes and microglia with an emphasis on differences associated with the duration of ethanol exposure (acute vs. chronic), the amount of exposure (e.g., dose or blood ethanol concentrations), sex differences, and the timing of the neuroimmune observation (immediate vs. persistent). Finally, this review discusses new therapeutics and interventions that may ameliorate the dysregulation of neuroimmune maladaptations after ethanol exposure. [ABSTRACT FROM AUTHOR]

Published

2023

48. Expression of SATB1 and SATB2 in the brain of bony fishes: what fish reveal about evolution.

Author

Lozano, Daniel, López, Jesús M., Jiménez, Sara, Morona, Ruth, Ruíz, Víctor, Martínez, Ana, and Moreno, Nerea

Subjects

OSTEICHTHYES, SOLITARY nucleus, RETICULAR formation, PREOPTIC area, HOMEOBOX proteins

Abstract

Satb1 and Satb2 belong to a family of homeodomain proteins with highly conserved functional and regulatory mechanisms and posttranslational modifications in evolution. However, although their distribution in the mouse brain has been analyzed, few data exist in other non-mammalian vertebrates. In the present study, we have analyzed in detail the sequence of SATB1 and SATB2 proteins and the immunolocalization of both, in combination with additional neuronal markers of highly conserved populations, in the brain of adult specimens of different bony fish models at key evolutionary points of vertebrate diversification, in particular including representative species of sarcopterygian and actinopterygian fishes. We observed a striking absence of both proteins in the pallial region of actinopterygians, only detected in lungfish, the only sarcopterygian fish. In the subpallium, including the amygdaloid complex, or comparable structures, we identified that the detected expressions of SATB1 and SATB2 have similar topologies in the studied models. In the caudal telencephalon, all models showed significant expression of SATB1 and SATB2 in the preoptic area, including the acroterminal domain of this region, where the cells were also dopaminergic. In the alar hypothalamus, all models showed SATB2 but not SATB1 in the subparaventricular area, whereas in the basal hypothalamus the cladistian species and the lungfish presented a SATB1 immunoreactive population in the tuberal hypothalamus, also labeled with SATB2 in the latter and colocalizing with the gen Orthopedia. In the diencephalon, all models, except the teleost fish, showed SATB1 in the prethalamus, thalamus and pretectum, whereas only lungfish showed also SATB2 in prethalamus and thalamus. At the midbrain level of actinopterygian fish, the optic tectum, the torus semicircularis and the tegmentum harbored populations of SATB1 cells, whereas lungfish housed SATB2 only in the torus and tegmentum. Similarly, the SATB1 expression in the rhombencephalic central gray and reticular formation was a common feature. The presence of SATB1 in the solitary tract nucleus is a peculiar feature only observed in non-teleost actinopterygian fishes. At these levels, none of the detected populations were catecholaminergic or serotonergic. In conclusion, the protein sequence analysis revealed a high degree of conservation of both proteins, especially in the functional domains, whereas the neuroanatomical pattern of SATB1 and SATB2 revealed significant differences between sarcopterygians and actinopterygians, and these divergences may be related to the different functional involvement of both in the acquisition of various neural phenotypes. [ABSTRACT FROM AUTHOR]

Published

2023

49. Hippocampal 4-Hz oscillations emerge during stationary running in a wheel and are resistant to medial septum inactivation.

Author

de Lima, Ivan Alisson Cavalcante Nunes and Belchior, Hindiael

Subjects

RUNNING speed, OSCILLATIONS, PYRAMIDAL neurons, HIPPOCAMPUS (Brain), ANIMAL locomotion, WHEELS

Abstract

Recent studies described 2–4 Hz oscillations in the hippocampus of rats performing stationary locomotion on treadmills and other apparatus. Since the 2–4 Hz rhythm shares common features with theta (5–12 Hz) oscillations—such as a positive amplitude-running speed relationship and modulation of spiking activity—many have questioned whether these rhythms are related or independently generated. Here, we analyzed local field potentials and spiking activity from the dorsal CA1 of rats executing a spatial alternation task and running for ~15 s in a wheel during the intertrial intervals both before and after muscimol injection into the medial septum. We observed remarkable 4-Hz oscillations during wheel runs, which presented amplitude positively correlated with running speed. Surprisingly, the amplitude of 4-Hz and theta oscillations were inversely related. Medial septum inactivation abolished hippocampal theta but preserved 4-Hz oscillations. It also affected the entrainment of pyramidal cells and interneurons by 4-Hz rhythmic activity. In all, these results dissociate the underlying mechanism of 4-Hz and theta oscillations in the rat hippocampus. [ABSTRACT FROM AUTHOR]

Published

2023

50. Nonphotic entrainment of central and peripheral circadian clocks in mice by scheduled voluntary exercise under constant darkness.

Author

Sato, Ren Y. and Yujiro Yamanaka

Subjects

SUPRACHIASMATIC nucleus, MOLECULAR clock, CLOCK genes, CIRCADIAN rhythms, MICE

Abstract

In mammals, the central circadian pacemaker in the suprachiasmatic nucleus (SCN) entrains to an environmental light-dark (LD) cycle and organizes the temporal order of circadian rhythms in physiology and behavior. Previously, some studies have demonstrated that scheduled exercise could entrain the free-running behavior rhythm in nocturnal rodents. However, it remains unknown whether entrainment by scheduled exercise alters the internal temporal order of the behavioral circadian rhythms or clock gene expression in the SCN, extra-SCN brain regions, and peripheral organs when mice are entrained to the scheduled exercise under constant darkness (DD). In the present study, we examined circadian rhythms in locomotor activity and clock gene Per1 expression by bioluminescence reporter (Per1-luc) in the SCN, arcuate nucleus (ARC), liver, and skeletal muscle of mice entrained to an LD cycle, mice free-running under DD, and mice entrained to daily exposure to a new cage with a running wheel (NCRW) under DD. All mice showed a steady-state entrainment of behavioral circadian rhythms to NCRW exposure under DD in parallel with shortening of the α when compared with that under DD. The temporal order of behavioral circadian rhythms and the Per1-luc rhythms in the SCN and peripheral tissues but not in the ARC were maintained in the mice entrained to the NCRW and LD cycles; in contrast, the temporal order was altered in the mice under DD. The present findings reveal that the SCN entrains to daily exercise, and daily exercise reorganizes the internal temporal order of behavioral circadian rhythms and clock gene expression in the SCN and peripheral tissues. [ABSTRACT FROM AUTHOR]

Published

2023