Article
Neurosciences
Michael Jay, Malcolm A. MacIver, David L. McLean
Summary: This study investigates how spinal circuits contribute to direction control during ongoing locomotion in larval zebrafish. The results show that directed swimming involves changes in motor output duration and increased recruitment of motor neurons, without affecting the timing of spiking along the body. The study also reveals different recruitment patterns in excitatory and inhibitory interneurons, supporting the modular control of steering and propulsion by spinal premotor circuits.
JOURNAL OF NEUROSCIENCE
(2023)
Article
Biotechnology & Applied Microbiology
Aurelie Louit, Marie-Josee Beaudet, Francois Gros-Louis, Francois Berthod
Summary: This study investigated the role of Schwann cells in the pathogenesis of amyotrophic lateral sclerosis (ALS) using a 3D in vitro model. The results showed that healthy Schwann cells enhanced axonal migration in normal conditions but had no effect in the ALS model, suggesting that cell therapy using healthy Schwann cells may not be effective for ALS. The 3D ALS model could be used to study the impact of other cell types on ALS.
BIOTECHNOLOGY AND BIOENGINEERING
(2022)
Article
Cell Biology
Maurizio Mazzoni, Filippo Caremoli, Luis Cabanillas, Janira de los Santos, Mulugeta Million, Muriel Larauche, Paolo Clavenzani, Roberto De Giorgio, Catia Sternini
Summary: The distribution and density of enteric neurons in the pig colon varies in different regions, indicating that different parts may play different roles in gastrointestinal function. This provides important insights for investigating the mechanisms underlying human colonic diseases.
CELL AND TISSUE RESEARCH
(2021)
Article
Biochemistry & Molecular Biology
Ryan Hamnett, Lori B. Dershowitz, Vandana Sampathkumar, Ziyue Wang, Julieta Gomez-Frittelli, Vincent De Andrade, Narayanan Kasthuri, Shaul Druckmann, Julia A. Kaltschmidt
Summary: The cellular structure and regional differences of the enteric nervous system (ENS) in mice have been described, revealing that enteric neurons are organized in circumferential neuronal stripes. These stripes form gradually during the perinatal period, with the small intestine showing them earlier than the colon. The width of the neuronal stripes varies throughout the gastrointestinal tract, and different subtypes of neurons populate specific regions with distinct contrasts between the small intestine and colon.
Article
Multidisciplinary Sciences
Kazuya Morita, Naoyuki Matsumoto, Kengo Saito, Toshihide Hamabe-Horiike, Keishi Mizuguchi, Yohei Shinmyo, Hiroshi Kawasaki
Summary: The study revealed that AQP4 is selectively expressed in astrocytes in the mouse cerebral cortex during development, and that BMP signaling plays a role in altering AQP4 levels in the cortex.
SCIENTIFIC REPORTS
(2021)
Article
Multidisciplinary Sciences
Mor R. Alkaslasi, Zoe E. Piccus, Sangeetha Hareendran, Hanna Silberberg, Li Chen, Yajun Zhang, Timothy J. Petros, Claire E. Le Pichon
Summary: The study reveals the comprehensive heterogeneity of cholinergic neurons in the adult spinal cord, with different functional roles including cholinergic interneurons, visceral, and skeletal motor neurons. Visceral motor neurons can be divided into multiple transcriptomic classes with distinct anatomical localization, while skeletal motor neurons show complexity with alpha, gamma, and a possible third subtype.
NATURE COMMUNICATIONS
(2021)
Article
Cell Biology
Maurizio Mazzoni, Luis Cabanillas, Anna Costanzini, Filippo Caremoli, Mulugeta Million, Muriel Larauche, Paolo Clavenzani, Roberto De Giorgio, Catia Sternini
Summary: This study demonstrates the distribution and neurochemical characteristics of substance P (SP) neurons in the ascending and descending colon of pigs. The study reveals functional differences and varying proportions of SP-IR neurons in different plexuses of the colon.
CELL AND TISSUE RESEARCH
(2023)
Article
Biology
Evdokia Menelaou, Sandeep Kishore, David L. McLean, Markus Meister
Summary: This study unravels the impact of mixed synapses within the spinal locomotor circuitry of larval zebrafish and finds that differences in mixed synapse density can contribute to excitability underestimations and connectivity overestimations, explaining the "violations" of the size principle.
Review
Cell Biology
Claudia Alia, Daniele Cangi, Verediana Massa, Marco Salluzzo, Livia Vignozzi, Matteo Caleo, Cristina Spalletti
Summary: Ischemic damage in brain tissue leads to plastic changes in cell-to-cell interactions, influencing a wide range of molecular and structural interactions. Understanding and manipulating these intercellular connections is crucial for post-stroke neurorehabilitation.
Article
Multidisciplinary Sciences
Daniel E. Russ, Ryan B. Patterson Cross, Li Li, Stephanie C. Koch, Kaya J. E. Matson, Archana Yadav, Mor R. Alkaslasi, Dylan Lee, Claire E. Le Pichon, Vilas Menon, Ariel J. Levine
Summary: Single-cell RNA sequencing data is used to generate a comprehensive cell atlas of mouse post-natal spinal cord, revealing the hierarchical relationships among cell types and providing spatial analysis of their distribution. Additionally, an open-source cell type classifier, SeqSeek, is developed to facilitate standardized cell type identification.
NATURE COMMUNICATIONS
(2021)
Article
Neurosciences
Tsai-Yi Lu, Priyanka Hanumaihgari, Eric T. Hsu, Amit Agarwal, Riki Kawaguchi, Peter A. Calabresi, Dwight E. Bergles
Summary: This study demonstrates that calcium dynamics in oligodendrocyte precursor cells (OPCs) are modulated by norepinephrine and influence OPC proliferation. The findings highlight the important role of neurotransmitter signaling in OPCs.
NATURE NEUROSCIENCE
(2023)
Article
Biochemistry & Molecular Biology
Kelby M. Killoy, Benjamin A. Harlan, Mariana Pehar, Marcelo R. Vargas
Summary: NR1D1 dysregulation in ALS mouse models affects astrocyte-motor neuron interaction, leading to a pro-inflammatory phenotype and decreased survival of motor neurons.
Article
Cell Biology
Fei Liu, Yijie Zhang, Fuliang Chen, Jiacheng Yuan, Sanlan Li, Sue Han, Dengyu Lu, Junlan Geng, Zhiping Rao, Li Sun, Jianhua Xu, Yuhan Shi, Xiaojing Wang, Yueguang Liu
Summary: The study utilized the AAV(2/8) delivery system to overexpress Neurog2 into astrocytes, successfully converting them into neurons with mature electrophysiological properties, glutamatergic identity, and synapse-like configuration. Furthermore, evidence also proved that Neurog2-iNs in the intact spinal cord are capable of responding to diverse afferent inputs.
CELL DEATH & DISEASE
(2021)
Article
Biochemistry & Molecular Biology
Rafael Lopez-Blanch, Rosario Salvador-Palmer, Jose M. Estrela, Elena Obrador
Summary: Oxidative stress is proposed as a major mechanism of motor neuron damage in the progression of ALS. The reactive phenotype of astrocytes may both protect neurons and contribute to oxidative stress that can harm motor neurons. Increased proinflammatory interleukin 6 levels in ALS may facilitate GSH release from the liver to blood circulation, providing antioxidant protection to motor neurons.
Article
Neurosciences
Joseph Cichon, Andrzej Z. Wasilczuk, Loren L. Looger, Diego Contreras, Max B. Kelz, Alex Proekt
Summary: This study demonstrates that ketamine can cause a switch in the active population of excitatory neurons in the cortical layers, which leads to impairments in sensory processing and dissociative-like state. These findings provide insights into how the brain can become disconnected from the environment while maintaining internal subjective experiences.
NATURE NEUROSCIENCE
(2023)
Article
Biochemistry & Molecular Biology
Fatema B. Salem, Wyatt P. Bunner, Vishwanath V. Prabhu, Abu-Bakarr Kuyateh, Collin T. O'Bryant, Alexander K. Murashov, Erzsebet M. Szatmari, Robert M. Hughes
JOURNAL OF BIOLOGICAL CHEMISTRY
(2020)
Article
Endocrinology & Metabolism
Eugenia L. Harbachova, Elena V. Chernigovskaya, Margarita V. Glazova, Liubov S. Nikitina
JOURNAL OF NEUROENDOCRINOLOGY
(2020)
Article
Neurosciences
Alexandra A. Naumova, Ekaterina A. Oleynik, Elena Chernigovskaya, Margarita Glazova
Article
Cell Biology
Anna S. Berezovskaya, Sergey A. Tyganov, Svetlana D. Nikolaeva, Alexandra A. Naumova, Natalia S. Merkulyeva, Boris S. Shenkman, Margarita Glazova
Summary: The study found that short-term simulated microgravity can disrupt the glutamatergic system of the hippocampus while also activating neuroprotective mechanisms. Additionally, dynamic foot stimulation was shown to normalize hippocampal function, possibly through regulation of neurotransmitter exocytosis.
CELLULAR AND MOLECULAR NEUROBIOLOGY
(2021)
Article
Biochemistry & Molecular Biology
A. A. Kulikov, E. Nasluzova, N. A. Dorofeeva, M. Glazova, E. A. Lavrova, E. Chernigovskaya
Summary: Research indicates that in the early stages of epilepsy, the p53 protein inhibitor pifithrin-alpha can promote the proliferation and migration of newborn cells, but a week after the last seizure, it results in a decrease in the neural differentiation rate of newborn cells.
JOURNAL OF EVOLUTIONARY BIOCHEMISTRY AND PHYSIOLOGY
(2021)
Article
Biology
Anna S. Berezovskaya, Sergey A. Tyganov, Svetlana D. Nikolaeva, Alexandra A. Naumova, Boris S. Shenkman, Margarita V. Glazova
Summary: Research shows that simulated microgravity environment leads to a decrease in hippocampal neurogenesis, while dynamic foot stimulation can restore the number of neural progenitor cells. In addition, the microgravity environment inhibits signaling pathways related to neurogenesis, while dynamic foot stimulation can prevent this inhibition.
Article
Behavioral Sciences
Alexey A. Kulikov, Alexandra A. Naumova, Ekaterina P. Aleksandrova, Margarita Glazova, Elena Chernigovskaya
Summary: Temporal lobe epilepsy is associated with significant structural changes in the hippocampus. Studies using audiogenic kindling in rats prone to audio genic seizures suggest that seizure activity accelerates aberrant neurogenesis and glutamatergic differentiation of neural progenitors, leading to reorganization of hippocampal circuits and generation of new synaptic contacts, ultimately contributing to the progression of epilepsy.
EPILEPSY & BEHAVIOR
(2021)
Article
Multidisciplinary Sciences
Elena S. Pak, Alexander K. Murashov
Summary: This study introduces a new paradigm to analyze aversive associative learning in adult fruit flies through passive avoidance behavior. The results demonstrate that flies successfully formed long-term memory about avoiding the electric shock zone. Furthermore, the Western diet impaired learning and memory in male flies, while flight exercise counterbalanced this effect.
JOVE-JOURNAL OF VISUALIZED EXPERIMENTS
(2021)
Article
Biology
Vitaliy E. Kalashnikov, Sergey A. Tyganov, Olga Turtikova, Ekaterina P. Kalashnikova, Margarita Glazova, Timur M. Mirzoev, Boris S. Shenkman
Summary: The study found that rat soleus muscle electromyographic (EMG) activity increased gradually after hindlimb suspension/unloading. Using prochlorperazine (KCC2 activator) can prevent a decrease in KCC2 protein expression in motoneurons and significantly reduce the level of HS-induced soleus muscle electrical activity.
Article
Behavioral Sciences
Alexey A. Kulikov, Alexandra A. Naumova, Nadezhda A. Dorofeeva, Andrey P. Ivlev, Margarita V. Glazova, Elena V. Chernigovskaya
Summary: In this study, the dynamics and mechanisms of cell death in the hippocampus of audiogenic KrM rats during the development of TLE were analyzed. The results showed that cell death occurred in the granular layer after 7 audiogenic stimulations, which was associated with apoptosis and autophagy. Furthermore, continued audiogenic stimulation led to further cell death, but no recovery of cell numbers was observed.
EPILEPSY & BEHAVIOR
(2022)
Article
Biochemistry & Molecular Biology
Alexander K. Murashov, Elena S. Pak, Jordan Mar, Kevin O'Brien, Kelsey Fisher-Wellman, Krishna M. Bhat
Summary: Multiple lines of evidence suggest that ancestral diet plays a crucial role in determining the metabolic traits of offspring. However, its impact on offspring's food choices and feeding behavior remains unclear. Using a Drosophila model system, this study demonstrates that a paternal Western diet (WD) increases food consumption in offspring up to the fourth generation and induces alterations in brain proteome. Further analysis reveals that the upregulated proteins are associated with translation and translation factors, while the downregulated proteins are related to small molecule metabolic processes, TCA cycles, and electron transport chain (ETC). The identification of miR-10 as a potential factor in programming feeding behavior suggests that ancestral nutrition may influence offspring's feeding behavior through alterations in miRNAs.
Article
Developmental Biology
Alexandra A. Naumova, Ekaterina A. Oleynik, Anna V. Khramtsova, Svetlana D. Nikolaeva, Elena V. Chernigovskaya, Margarita V. Glazova
Summary: The effect of 3-day hindlimb unloading and social isolation on dopamine transmission in the nigrostriatal system of CD1 mice was analyzed. Hindlimb unloading led to a decrease in dopamine synthesis, while social isolation mainly affected dopamine phosphorylation. Overall, hindlimb unloading was identified as the main factor impairing dopamine transmission in the nigrostriatal system.
DEVELOPMENTAL NEUROBIOLOGY
(2023)
Article
Biochemistry & Molecular Biology
E. A. Oleynik, Yu S. Naumova, Yu S. Grigorieva, V. T. Bakhteeva, E. A. Lavrova, E. Chernigovskaya, M. Glazova
Summary: Long-term spaceflights and simulated microgravity have a negative impact on cognitive functions, such as memory, learning, spatial orientation, and decision making. This study analyzed the effect of 3-day hindlimb unloading on hippocampal neurogenesis in male mice. The results showed that hindlimb unloading did not affect cell proliferation and immature neuron population, but decreased the number of early neural progenitors. Analysis of signaling cascades involved in neurogenesis regulation revealed an increase in CREB transcription factor activity but no change in ERK1/2 protein kinase activity. Mice exposed to hindlimb unloading also experienced increased stress response. These findings suggest that stress caused by hindlimb unloading may play a crucial role in impairing hippocampal neurogenesis during short-term simulated microgravity.
JOURNAL OF EVOLUTIONARY BIOCHEMISTRY AND PHYSIOLOGY
(2022)
Article
Biochemistry & Molecular Biology
Alexander K. Murashov, Elena S. Pak, Chien-Te Lin, Ilya N. Boykov, Katherine A. Buddo, Jordan Mar, Krishna M. Bhat, Peter Darrell Neufer
Summary: A Western diet high in saturated fat, sugar, and salt has detrimental effects on Drosophila simulans, affecting lifespan, activity, sleep, reproduction, and mitochondrial function, with females being more affected than males. Regular aerobic exercise can counteract these negative effects and mitigate changes in triglyceride levels and mitochondrial dysfunction caused by the diet. Additionally, pre-exposure to the diet increased fruit flies' preference for it, which was prevented by flight exercise. This study establishes Drosophila simulans as a novel model for studying the interaction between diet and exercise, mirroring aspects of obesity and eating disorders in humans.
Meeting Abstract
Cell Biology
Aleksey Kulikov, Margarita Glazova, Elena Chernigovskaya
CELL DEATH DISCOVERY
(2021)
Article
Neurosciences
Song Xue, Feng Kong, Yiying Song, Jia Liu
Summary: This study used resting-state functional magnetic resonance imaging to explore the relationship between individual's spontaneous neural activity and social interaction anxiety in a nonclinical population. The results showed that social interaction anxiety was correlated with the fractional amplitude of low-frequency fluctuations in several brain regions, and that emotional intelligence partially mediated this relationship. This study provides evidence for the neural basis of social interaction anxiety in the normal population and highlights the role of emotional intelligence in this anxiety.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Katsuyuki Yamaguchi, Takuya Yazawa
Summary: This study provides morphometric data on the development of the human medullary arcuate nucleus (AN) by examining the brains of preterm and perinatal infants. The results show that AN morphology demonstrates asymmetry and individual variability during the fetal period. The volume and neuronal number of AN increase exponentially with age, while neuronal density decreases exponentially. The AN may undergo neuron death and neuroblasts production after mid-gestation.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Zhan Zhou, Weixin Dai, Tianxiao Liu, Min Shi, Yi Wei, Lifei Chen, Yubo Xie
Summary: Studies have shown that propofol-induced neurotoxicity is caused by disruption of mitochondrial fission and fusion, leading to an energy supply imbalance for developing neurons. Healthy mitochondria released by astrocytes can migrate to compromised neurons to mitigate propofol-induced neurotoxicity, but the exact mechanisms involved still need further clarification.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
An Chen, Song Hao, Yongpeng Han, Yang Fang, Yibei Miao
Summary: This study explores the efficacy of two forms of BCI attention training games and finds that physical games may be more effective than video games. The research also offers valuable insights for future game design from a neuroscience perspective.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Lina Liu, Luran Liu, Yunting Lu, Tianyuan Zhang, Wenting Zhao
Summary: This study reveals that GDI1 serves as a potential diagnostic biomarker for AD and inhibition of GDI1 can attenuate Aβ-induced neurotoxicity. The findings offer new insights for the treatment of AD.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Zahra Gholami, Ava Soltani Hekmat, Ali Abbasi, Kazem Javanmardi
Summary: This study investigated the effects of alamandine on allodynia in a rat model and found the presence of MrgD receptors in the vlPAG and RVM regions. Microinjection of alamandine resulted in a significant increase in paw withdrawal threshold and could be blocked by an MrgD receptor antagonist. Upregulation of MrgD receptor expression following allodynia induction suggests a potential compensatory mechanism in response to pain.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Mingliang Xu, Lei Xia, Junjie Li, Yehong Du, Zhifang Dong
Summary: This study found that DHF effectively alleviates sevoflurane-induced cognitive impairment in developing mice by restoring the balance between tau O-GlcNAcylation and phosphorylation. Therefore, DHF has the potential to be a therapeutic agent for treating cognitive impairment associated with anesthetics, such as sevoflurane.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Tsubasa Mitsutake, Hisato Nakazono, Takanori Taniguchi, Hisayoshi Yoshizuka, Maiko Sakamoto
Summary: The posterior parietal cortex plays a crucial role in postural stability, and transcranial electrical stimulation of this region can modulate physical control responses. This study found that cathodal stimulation significantly decreased joint angular velocity in multiple directions, while there were no significant differences with transcranial random noise stimulation.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Xishuai Yang, Wei Zhang, Xueli Chang, Zuopeng Li, Runquan Du, Junhong Guo
Summary: This study aims to evaluate the efficacy of low-dose rituximab (RTX) in patients with muscle-specific kinase antibody positive myasthenia gravis (MuSK-MG). The results showed that low-dose RTX treatment led to significant improvements in clinical symptoms and quality of life for patients with MuSK-MG.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Jian Zhang, Shunyuan Guo, Rong Tao, Fan Wang, Yihong Xie, Huizi Wang, Lan Ding, Yuejian Shen, Xiaoli Zhou, Junli Feng, Qing Shen
Summary: This study established an Alzheimer's disease (AD) model of zebrafish induced by AlCl3 and found that marine-derived plasmalogens (Pls) could alleviate cognitive impairments of AD zebrafish by reversing athletic impairment and altering the expression levels of genes related to oxidative stress, ferroptosis, synaptic dysfunction, and apoptosis.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Lu Li, Jiaqi Ren, Qi Fang, Liqiang Yu, Jintao Wang
Summary: ICU-AW is a common and severe neuromuscular complication in critically ill patients. Electrophysiological examination is essential for accurate diagnosis and early prediction of the disease. This study aimed to establish and validate an ICU-AW predictive model in SIRS patients, providing a practical tool for early clinical prediction.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Ahmad Alipour, Roghayeh Mohammadi
Summary: The present study aimed to investigate the separate and combined effects of anodal transcranial direct current stimulation (tDCS) over the primary motor cortex (M1) and left dorsolateral prefrontal cortex (F3) regions on pain relief in patients with type-2 diabetes suffering from neuropathic pain (NP). The results showed that tDCS had the potential to induce pain relief in patients with type-2 diabetes suffering from NP. The mean perceived pain intensity in the posttest was lower in the M1 stimulation group than in the F3 stimulation group. However, more trials with larger sample sizes are necessary to define clinically relevant effects.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Eduardo J. Fusse, Franciele F. Scarante, Maria A. Vicente, Mariana M. Marrubia, Flavia Turcato, Davi S. Scomparin, Melissa A. Ribeiro, Maria J. Figueiredo, Tamires A. V. Brigante, Francisco S. Guimaraes, Alline C. Campos
Summary: Repeated exposure to psychosocial stress alters the endocannabinoid system and affects brain regions associated with emotional distress. Enhancing the effects of endocannabinoids through pharmacological inhibition induces an anti-stress behavioral effect, possibly mediated by the mTOR signaling pathway.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Giulia Agostoni, Luca Bischetti, Federica Repaci, Margherita Bechi, Marco Spangaro, Irene Ceccato, Elena Cavallini, Luca Fiorentino, Francesca Martini, Jacopo Sapienza, Mariachiara Buonocore, Michele Francesco D'Incalci, Federica Cocchi, Carmelo Guglielmino, Roberto Cavallaro, Marta Bosia, Valentina Bambini
Summary: This study found a general impairment in humor comprehension in individuals with schizophrenia, with mental jokes being more difficult for both patients and controls. Humor comprehension was closely associated with the patients' overall pragmatic and linguistic profile, while the association with Theory of Mind (ToM) was minimal. Another notable finding was the increased appreciation of humor in individuals with schizophrenia, who rated jokes as funnier than controls did, regardless of whether they were correctly or incorrectly completed. The funniness ratings were not predicted by any measure, suggesting a dimension of humor untied to cognition or psychopathology.
NEUROSCIENCE LETTERS
(2024)
Article
Neurosciences
Xiuping Gong, Qi Li, Yang Liu
Summary: This study demonstrates that Sev targets CREBBP to inhibit ALG13 transcription, leading to hippocampal damage and cognitive impairment.
NEUROSCIENCE LETTERS
(2024)
