Planet Neuroscience

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Rethinking Alzheimer's: Harnessing Cannabidiol to Modulate IDO and cGAS Pathways for Neuroinflammation Control

Alzheimer's disease (AD) has traditionally been associated with amyloid-β plaques, but growing evidence underscores the role of neuroinflammation in disease progression. The autoinflammatory hypothesis of AD suggests chronic immune dysfunction contributes to neuronal damage, making immune modulation a promising therapeutic strategy. Cannabidiol (CBD), a phytocannabinoid with anti-inflammatory properties, may offer therapeutic potential. This study investigates how CBD independently influences two key neuroinflammatory regulators in AD: the indoleamine 2,3-dioxygenase (IDO) pathway and the cyclic GMP-AMP synthase (cGAS) pathway. Though mechanistically distinct, both shape CNS immune responses. Targeting these immune-metabolic axes provides a mechanistic alternative to amyloid- or tau-based approaches by addressing upstream drivers of neuroinflammation and immune dysregulation. Using the male 5XFAD transgenic AD mouse model, we administered CBD via inhalation and assessed IDO and cGAS expression using flow cytometry, immunofluorescence (IF), and gene expression analysis. We evaluated cytokine levels and used STRING-based bioinformatics to identify CBD-target interactions. CBD treatment significantly reduced IDO and cGAS expression, correlating with decreased proinflammatory cytokines, including TNF-α, IL-1β, and IFN-. Bioinformatics identified potential interactions between CBD and immune targets such as AKT1, TRPV1, and GPR55. These targets were prioritized based on their roles in neuroinflammatory signaling and high-confidence interactions with CBD. AKT1 regulates inflammatory signaling and cell survival, TRPV1 modulates nociception and neuroinflammation, and GPR55 influences immune cell activation. These findings support CBD as a potential monotherapy or adjunctive treatment for AD by targeting distinct neuroinflammatory pathways, including IDO and cGAS. Further studies are warranted to fully explore its therapeutic potential.

in eNeuro on 2025-10-10 16:30:19 UTC.

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Energy Constraints Determine the Selection of Reaching Movement Trajectories in Macaque Monkeys

Reaching movements, while seemingly simple, involve complex motor control mechanisms that select specific trajectories from infinite possibilities. Despite inherent variability in volitional movements, both humans and monkeys frequently exhibit stereotyped trajectories. The literature has offered numerous explanations for invariant trajectory shapes, including a common planning space in hand space or joint space, as well as factors like kinetic energy (KE) minimization and sensory feedback. However, since most studies have relied on single-session data, crucial insights into the motor principles guiding trajectory selection and their evolution through extended practice remain underexplored. This study fills this gap by investigating how specific trajectories are selected and evolve with practice across multiple sessions, using data from two rhesus monkeys (one male, one female) performing a reaching task in a biomechanically constrained 2D setup. Our behavioral study challenges the idea of a common planning space, revealing instead a significant influence of KE on trajectory shapes. Through a novel biomechanical modeling, we quantified KE for a wide range of trajectory shapes. We discovered that trajectory selection and evolution are not simply about minimizing KE or achieving straight paths. Instead, the monkeys’ motor systems appear to prioritize maintaining a "safe KE range," where slight changes in trajectory shapes have minimal impact on energy expenditure. These findings provide new insights into the adaptive motor control strategies, suggesting that trajectory selection involves balancing energy efficiency and flexibility. Our study enhances the understanding of trajectory selection principles, with implications for rehabilitation strategies, robotics, and broader study of motor control mechanisms.

in eNeuro on 2025-10-10 16:30:19 UTC.

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Single-cell RNA sequencing of cerebrospinal fluid reveals the expansion of innate lymphoid cells with upregulated transposable elements in multiple sclerosis [version 1; peer review: awaiting peer review]

Background Multiple sclerosis (MS) is a chronic and often immune-mediated demyelinating disease with no definitive treatment. Transposable elements (TEs) are receiving increasing attention as potential contributors to neurodegenerative diseases. However, to the best of our knowledge, no studies have examined the possible association of TE expression and its potential role in MS pathogenesis at the single-cell level. Results In this study, we reanalyzed single-cell RNA sequencing data from human cerebrospinal fluid (CSF) samples. Our results revealed that TEs are overexpressed in a cluster of cells annotated as innate lymphoid cells (ILCs). Furthermore, enrichment analysis of the associated transcription factors (TFs) with highly upregulated TEs in ILCs revealed the relevance of these TFs to immune pathways and cis-regulatory regions in DNA. Conclusions We propose that upregulated TEs in ILCs are consistent with the plasticity of these cells, as TEs can insert themselves in coding or regulatory regions of immune-related genes and represent themselves as immune-related TF binding sites. We also hypothesize that ILCs with overexpressed TEs could present TE-derived antigens, potentially reactivating T cell-mediated immunity in the central nervous system (CNS) of MS patients. Therefore, this study indicates a possible mechanism involving TEs in ILC plasticity and their potential role in MS pathogenicity. Additionally, we suggest that repurposing nucleoside reverse transcriptase inhibitors (NRTIs) or developing new high-efficacy NRTIs could be a feasible approach to treating MS.

in F1000Research on 2025-10-10 16:13:14 UTC.

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Evaluating artificial intelligence for accurate detection of hand and wrist fractures: a systematic review and meta-analysis [version 1; peer review: awaiting peer review]

Background and Objectives Hand and wrist fractures are among the most frequently encountered injuries in emergency departments and are often misdiagnosed, particularly when interpreted by non-specialist clinicians. These diagnostic errors can lead to treatment delays and long-term complications. Artificial intelligence (AI), particularly deep learning algorithms, is emerging as a promising adjunct to improve diagnostic accuracy in radiographic fracture detection. This study aims to evaluate the effectiveness of Artificial Intelligence (AI) in detecting hand and wrist fractures compared to manual radiographic interpretation by clinicians. Materials and Methods A systematic review and meta-analysis were conducted to assess the diagnostic performance of AI models in detecting hand and wrist fractures compared to conventional radiographic interpretation by clinicians. A comprehensive search of PubMed, Google Scholar, Science Direct, and Wiley Online Library was performed. Eligible studies included those utilizing AI for fracture detection with sensitivity and specificity data. Pooled estimates were calculated using fixed- and random-effects models. Heterogeneity was assessed via I2 statistics, and publication bias was examined using funnel plots and Egger’s test. Results Eighteen studies met inclusion criteria. The pooled sensitivity and specificity under the random-effects model were 0.910 and 0.912, respectively, indicating high diagnostic accuracy of AI models. However, substantial heterogeneity (I2 = 99.09% for sensitivity; 96.43% for specificity) and publication bias were observed, likely due to variations in AI algorithms, sample sizes, and study designs. Conclusions Most AI models demonstrated good diagnostic accuracy, with high sensitivity and specificity scores (≥90%). However, some models fell short in sensitivity and specificity (≤90%), indicating performance variations across different AI models or algorithms. From a clinical perspective, AI models with lower sensitivity scores may fail to detect hand and wrist fractures, potentially delaying treatment, while those with lower specificity scores could lead to unnecessary interventions—treating hands and wrists that are not fractured.

in F1000Research on 2025-10-10 16:11:04 UTC.

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Hypoglycemic effect of the aqueous extract from Acalypha argomuelleri Briq. (Euphorbiaceae) 'Sweet stick' leaves in Rattus rattus var. albinus [version 3; peer review: 2 approved, 1 not approved]

Introduction Diabetes mellitus (DM) is a chronic metabolic disease representing a global public health concern and is associated with severe complications such as cardiovascular and renal diseases. Although several species of the genus Acalypha have demonstrated biological activity, no prior studies have evaluated the hypoglycemic effect of Acalypha argomuelleri Briq., making this study relevant. Method The hypoglycemic effect of the aqueous leaf extract of A. argomuelleri Briq. (AAAE) was evaluated in an experimental model using Rattus rattus var. albinus (males). A randomized, prospective design was employed, consisting of a control group and three treatment groups receiving doses of 100, 150, and 300 mg/kg of the extract, respectively. Hyperglycemia was induced via oral glucose administration. Results The qualitative phytochemical analysis of AAAE revealed the presence of flavonoids, phenols, cardiotonic glycosides, and diterpenes, with no reducing sugars. The 300 mg/kg dose produced a significant and sustained reduction in blood glucose levels, reaching near-normal values at 90 minutes, demonstrating a dose- and time-dependent hypoglycemic effect. Discussion The study confirmed that AAAE has a dose-dependent hypoglycemic effect, with optimal efficacy at 300 mg/kg. This dose showed a faster and more sustained reduction in glucose levels compared to 100 and 150 mg/kg, suggesting higher efficacy at elevated concentrations. The identified flavonoids and phenols, associated with glucose metabolism modulation and pancreatic β-cell protection, likely explain the observed effect. The absence of reducing sugars indicates the hypoglycemic effect is linked to secondary metabolites. Conclusions The AAAE exhibited a significant dose- and time-dependent hypoglycemic effect, with optimal efficacy at 300 mg/kg after 90 minutes. These findings support the potential of A. argomuelleri Briq. as a natural alternative for blood glucose control, though further studies are needed to assess its safety and efficacy in clinical models.

in F1000Research on 2025-10-10 16:09:26 UTC.

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Project-based learning in mathematics and science: a review of contributions, prevalence, and challenges [version 1; peer review: awaiting peer review]

The integration of project-based learning (PjBL) in Mathematics and Science has received much attention because of its potential to engage students and expose them in real-world problem-solving. However, research examining the contributions, prevalence, and challenges of Project-Based Learning in mathematics and science remains limited. This review employed a systematic review approach, with articles systematically retrieved from multiple academic databases to investigate the contributions, prevalence, and challenges of PjBL in Mathematics and science education. Thus, 202 articles downloaded from Google Scholar, Academia, Search 4 Life, Scopus, and Web of Science databases. Through the filtering process, 20 articles fell into the study’s scope and were considered and used for analysis. The results from the reviewed studies showed that project-based learning contributes to enhancing students’ engagement, creativity, communication, and conceptual understanding in Mathematics and Sciences. Also, the reviewed literature showed that PjBL dominates in Mathematics and Physics with the highest prevalence of 35% each in applying PjBL pedagogy. Integrated Science shows 10% of prevalence, while Chemistry records the least with only 5%. Nevertheless, challenges such as limited resources, rigid curriculum, and inadequate teacher training on monitoring students’ projects and providing adequate assessment were also identified. This study recommends a need for teacher training and resources mobilization in schools support educators to effectively embrace Project-based learning pedagocy in mathematics and science subjects.

in F1000Research on 2025-10-10 16:08:13 UTC.

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Exploring the relationship between student-content interaction, student-student interaction, self-efficacy, and learning achievements in a student-centered classroom [version 2; peer review: 1 approved, 1 approved with reservations]

Background With the growing mismatch between traditional academic training and the demands of the modern workforce, student-centered education has emerged as a key reform in higher education. This study examines the relationships among student-content interaction, student-student interaction, self-efficacy, and learning achievement in student-centered classrooms at Chinese application-oriented universities. Methods Data were collected from 524 undergraduate students via online questionnaires and analyzed using Confirmatory Factor Analysis (CFA) and Structural Equation Modeling (SEM). Results The results indicate that both student-content and student-student interactions significantly enhance learning achievement, with self-efficacy playing a critical mediating role. Higher levels of self-efficacy were also directly associated with improved academic achievement, underscoring its central importance in student success. Conclusions These findings highlight the value of fostering interactive learning environments and promoting the development of self-efficacy to improve educational outcomes. Educators are encouraged to implement instructional strategies that facilitate meaningful engagement, thereby supporting both the cognitive and motivational dimensions of learning. This study provides empirical evidence to inform the design of effective student-centered teaching practices in higher education.

in F1000Research on 2025-10-10 16:07:03 UTC.

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Exploring the Potential of Peptides Derived from the Coelomic Fluid of Echinometra lucunter Targeting Inflammatory Cytokines in Placental Syndromes: In Silico Study [version 1; peer review: awaiting peer review]

Background Placental syndromes—encompassing pregnancy loss, preterm birth, gestational diabetes mellitus, and preeclampsia—have been strongly linked to dysregulated inflammatory responses at the maternal–fetal interface. This study aims to explore the potential of peptides derived from the coelomic fluid of Echinometra lucunter targeting the inflammatory cytokines involved in placental syndromes using in silico approaches. Methods The 3D molecular structure of peptides was modeled using the UCSF Chimera application. The absorption, distribution, metabolism, and excretion (ADMET) properties were analysed using SwissADME and the ProTox web server. The PerMM web server was used to estimate membrane permeability. Crystal structures of target proteins—including c-Met, Interleukin-1β (IL-1β), Interleukin-10 (IL-10), Macrophage Migration Inhibitory Factor (MIF), Platelet-Derived Growth Factor (PDGF), and TNF-Related Apoptosis-Inducing Ligand (TRAIL)—were obtained from the Protein Data Bank Japan (PDBj). Molecular docking and structural visualization were conducted using Molecular Operating Environment (MOE) software, while molecular dynamics simulations were subsequently performed using the YASARA Dynamics software to assess the stability and conformational behavior of the ligand-receptor complexes. Results Peptide A was selected based on favorable ADMET properties. Molecular docking results revealed that Peptide A exhibits low binding affinities toward pro-inflammatory mediators, including TRAIL (–10.02 kcal/mol), MIF (–9.32 kcal/mol), IL-1β (–8.29 kcal/mol), and PDGF (–10.44 kcal/mol). Furthermore, Peptide A showed potential agonistic interactions with IL-10 (–10.26 kcal/mol) and c-Met (–9.27 kcal/mol), indicating a possible role in restoring anti-inflammatory and angiogenic signaling. Molecular dynamics simulations supported the stability of the peptide–receptor complexes. Conclusions Peptide A holds promise as a dual-function therapeutic agent in placental syndromes. However, experimental validation is necessary to confirm its biological efficacy and safety.

in F1000Research on 2025-10-10 16:04:04 UTC.

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Differential equation modeling of cell population dynamics in skeletal muscle regeneration from single-cell transcriptomic data

by Renad Al-Ghazawi, Hassan Lezzeik, Xiaojian Shao, Theodore J. Perkins

Skeletal muscle regeneration is a complex process orchestrated by diverse cell populations within a dynamic niche. In response to muscle damage and intercellular signaling, these cells undergo cell fate and migration decisions including quiescence, activation, proliferation, differentiation, infiltration, apoptosis, and exfiltration. The emergence of single-cell RNA sequencing (scRNA-seq) studies of muscle regeneration offers a significant opportunity to refine models of regeneration and enhance our understanding of cellular interactions. To better understand how crosstalk between cell types governs cell fate decisions and cell population dynamics, we developed a novel non-linear ordinary differential equation model guided by scRNA-seq data. Our model consists of 9 variables and 17 parameters, capturing the dynamics of key myogenic lineage and immune cell types. We calibrated time-series scRNA-seq data to units of cells per cubic millimeter of tissue and fit our model’s parameters to capture the observed dynamics, validating on an independent time series. The model successfully captures key features of regeneration dynamics, particularly after incorporating a novel regulatory interaction between M2 macrophages and satellite cells that has been hypothesized in the literature. Our model lays a foundation for future computational explorations of muscle regeneration, modeling of disease conditions, and in silico testing of therapeutic strategies.

in PLoS Computational Biology on 2025-10-10 14:00:00 UTC.

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Learning spatial hearing via innate mechanisms

by Yang Chu, Wayne Luk, Dan F. M. Goodman

The acoustic cues used by humans and other animals to localise sounds are subtle, and change throughout our lifetime. This means that we need to constantly relearn or recalibrate our sound localisation circuit. This is often thought of as a “supervised” learning process where a “teacher” (for example, a parent, or your visual system) tells you whether or not you guessed the location correctly, and you use this information to update your localiser. However, there is not always an obvious teacher (for example in babies or blind people). Using computational models, we showed that approximate feedback from a simple innate circuit, such as that can distinguish left from right (e.g. the auditory orienting response), is sufficient to learn an accurate full-range sound localiser. Moreover, using this mechanism in addition to supervised learning can more robustly maintain the adaptive neural representation. We find several possible neural mechanisms that could underlie this type of learning, and hypothesise that multiple mechanisms may be present and provide examples in which these mechanisms can interact with each other. We conclude that when studying spatial hearing, we should not assume that the only source of learning is from the visual system or other supervisory signals. Further study of the proposed mechanisms could allow us to design better rehabilitation programmes to accelerate relearning/recalibration of spatial hearing.

in PLoS Computational Biology on 2025-10-10 14:00:00 UTC.

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Epstein–Barr Virus, Lower Vitamin D, Low Sun Exposure, and HLA‐DRB1*1501 Risk Variant Share Common Epigenetic Pathways Leading to Multiple Sclerosis Onset

Objectives

Multiple sclerosis (MS) onset risk factors include Epstein–Barr virus (EBV) indices (including host response), lower serum 25-vitamin D (25(OH)D) levels, low sun exposure, and HLA-DRB1*1501. The underlying molecular mechanisms are unclear. Here, we examined mediation through differential DNA methylation (DNAm) to better understand possible epigenetic programming.

Methods

Two case-control studies (Ausimmune Study, Australia = 206 cases + 348 controls; and Epidemiologic Investigations of MS [EIMS], Sweden = 140 cases + 139 controls). DNAm was measured using Illumina arrays. Dimension-reduction methods generated MS-associated DNAm modules. Pathway enrichment analyses were used to describe DNAm modules’ system-level biological characteristics. Individual and joint associations with MS risk were assessed using logistic regression. DNAm module mediation of risk factor-outcome associations were assessed using mediation analysis. A range of temporality analyses were used.

Results

EBV indices (infectious mononucleosis history and anti-EBNA IgG titer), lower 25(OH)D, low sun exposure, and HLA-DRB1*1501 risk variant were individually and jointly associated with MS risk. In each study, 2 DNAm modules were found which mediated multiple exposure-MS associations. Proportions mediated ranged from 21 to 47% in Ausimmune and 25 to 53% in EIMS. Results were robust to sensitivity analyses. Top-ranked genomewide association study (GWAS) MS risk-associated genes were over-represented in both Ausimmune DNAm modules, A1 3.5-fold (p = 0.004) and A2 3-fold (p = 0.015). Reactome pathways enriched for DNAm had cross-study overlap – 45% of pathways enriched in Ausimmune DNAm modules were also enriched in EIMS (4.82-fold, p < 0.001).

Interpretation

EBV, lower vitamin D, low sun exposure, and HLA-DRB1*1501 risk variant act in concert and through common epigenetic pathways to impact MS onset risk. ANN NEUROL 2025

in Annals of Neurology on 2025-10-10 11:21:01 UTC.

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Letter on the Role of Electroencephalography in Predicting Post‐Stroke Seizures and an Updated Prognostic Model (SeLECT‐EEG)

in Annals of Neurology on 2025-10-10 10:16:25 UTC.

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