Gut metabolites and functional recovery after ischemic stroke: a genetic perspective.

The current study explores the relationship between genetically predicted gut metabolites and functional outcomes following ischemic stroke, utilizing the Mendelian Randomization (MR) framework. Genetic information regarding gut microbiota-derived metabolites was sourced from 2076 participants of European descent participating in the Framingham Heart Study. Data on functional outcomes 90 days post-ischemic stroke were acquired from the Genetics of Ischemic Stroke Functional Outcomes Network (n = 6,021).

Low-intensity pulsed ultrasound promotes proliferation and differentiation of neural stem cells to enhance spinal cord injury recovery.

Background: Neural stem cells (NSCs) are known for their high capacity for proliferation, self-renewal, and multidirectional differentiation. However, they often fail to survive or differentiate into mature neurons capable of replacing lost neurons. This study evaluated the potential role of low-intensity pulsed ultrasound (LIPUS) in promoting NSC proliferation and differentiation both in vitro and in vivo, as well as its role in enhancing spinal cord injury (SCI) recovery.

Gut bacterial L-lysine alters metabolism and histone methylation to drive dendritic cell tolerance.

Dendritic cells (DCs) are responsible for maintaining tolerance to harmless antigens in the gut; however, the mechanism by which bacterial metabolites induce DC tolerance remains to be studied. Here, we observed that gut commensal bacterium-derived L-lysine stimulated the serine, glycine, one-carbon (SGOC) metabolism through the adenosine monophosphate (AMP)-activated protein kinase (AMPK)/acetyl-coenzyme A (AcCoA)-mechanistic target of rapamycin (mTOR) axis in DCs. This activation led to an increase in S-adenosyl methionine (SAM) and disruptor of telomeric silencing 1-like (DOT1L) expression, resulting in enhanced dimethylation on H3 lysine 79 (H3K79me2) enrichment at Tgfb and signal transducers and activator of transcription 3 (Stat3) gene promoters, which promote immune tolerance characteristics in DCs.

The transcription factor STAT3 and aging: an intermediate medium.

Aging is a physiological/pathological process accompanied by progressive impairment of cellular function, leading to a variety of aging-related diseases. STAT3 is one of the core regulatory factors of aging. It is involved in body metabolism, development and senescence, cell apoptosis and so on.

DEmiRNA-mRNA regulatory network reveals miR-122-5p as a regulatory factor of arginine metabolism in necrotizing enterocolitis.

Objective: Necrotizing enterocolitis (NEC) is a gastrointestinal emergency with relatively high morbidity and mortality in neonates. The role of microRNAs (miRNAs) in NEC is not yet entirely clear. This study aimed to explore the mechanism of miR-122-5p in NEC.

Efficacy of non-invasive brain stimulation interventions on cognitive impairment: an umbrella review of meta-analyses of randomized controlled trials.

Background: The impact of noninvasive brain stimulation (NIBS) on cognitive and mental outcomes in Alzheimer's disease (AD) and mild cognitive impairment (MCI) remains under debate due to contradictory findings from systematic reviews and meta-analyses (SRMAs). To synthesize evidence from SRMAs assessing the effectiveness of NIBS techniques on cognitive and mental outcomes in AD and MCI populations. By comparing our findings to recent reviews and clinical guidelines, we highlight how this study addresses current limitations in the literature, provides a more holistic perspective on NIBS interventions, and guides future research and clinical practice.

Revisiting the Role of Mitochondrial DNA Mutations in Aging: Bridging Theoretical Expectations with Empirical Observations.

Since the association between mitochondria and aging was first identified, significant efforts have been devoted to elucidating the role of mitochondrial DNA mutations in the aging process. Due to their age-dependent accumulation, intrinsically high mutation rates, and defective replication mechanisms, mtDNA mutations have often been regarded as pivotal drivers of aging. This has led to certain intuitive yet inherently limited conclusions.

Neuronal Injury after Ischemic Stroke: Mechanisms of Crosstalk Involving Necroptosis.

Ischemic stroke is a leading cause of disability and death worldwide, largely due to its increasing incidence associated with an aging population. This condition results from arterial obstruction, significantly affecting patients' quality of life and imposing a substantial economic burden on healthcare systems. While current treatments primarily focus on the rapid restoration of blood flow through thrombolytic therapy or surgical interventions, a limited understanding of neuronal injury mechanisms hampers the development of more effective treatments.

Altered mitochondrial unfolded protein response and FGF21 secretion in MASLD progression and the effect of exercise intervention.

A high-calorie diet and lack of exercise are the most important risk factors contributing to metabolic dysfunction-associated steatotic liver disease (MASLD) initiation and progression. The precise molecular mechanisms of mitochondrial function alteration during MASLD development remain to be fully elucidated. In this study, a total of 60 male C57BL/6J mice were maintained on a normal or amylin liver NASH (AMLN) diet for 6 or 10 weeks.

Inotodiol induces hepatocellular carcinoma apoptosis by activation of MAPK/ERK pathway.

Hepatocellular carcinoma(HCC) has a high mortality and morbidity rate and seriously jeopardizes human life. Chemicals and chemotherapeutic agents have been experiencing problems such as side effects and drug resistance in the treatment of HCC, which cannot meet the needs of clinical treatment. Therefore, finding novel low-toxicity and high-efficiency anti-hepatocellular carcinoma drugs and exploring their mechanisms of action have become the current problems to be solved in the treatment of HCC.

Characteristics of different lipid droplet-mitochondrial contacts patterns during lipid droplet metabolism in T2DM-induced MASLD.

Mitochondrial function is crucial for hepatic lipid metabolism. Current research identifies two types of mitochondria based on their contact with lipid droplets: peridroplet mitochondria (PDM) and cytoplasmic mitochondria (CM). This work aimed to investigate the alterations of CM and PDM in metabolic dysfunction-associated steatotic liver disease (MASLD) induced by spontaneous type-2 diabetes mellitus (T2DM) in db/db mice.

Ryegrass root-soil composites mechanical properties and its slope stability: Experimental study and numerical analysis.

Urbanization and infrastructure projects generate huge amount of construction and demolition waste (CDW), posing significant challenges for the environment and human health. In order to reduce the environment and safety risks caused by the CDW landfills, this study was amid to utilize plant roots to develop a root-CDW-soil system for strengthening the CDW and enhancing the slope stability of CDW landfills. A series of experimental analyses were conducted, focusing on shear tests of root-soil composites under various moisture conditions and root content ratios.

DBU-catalyzed annulation strategy for modular assembly of 2,3-difunctionalized dihydrobenzofurans.

An organocatalytic approach for the construction of 2,3-dihydrobenzofuran scaffold through a formal [4 + 1] annulation of 2-(2-nitrovinyl)phenols and α-bromoacetophenones in the presence of 1,8-diazabicyclo[5.4.0]undec-7-ene (DBU) has been developed.

Warming accelerated phosphorus release from the sediment of Lake Chaohu during the decomposition of algal residues: A simulative study.

Algal decomposition plays an important role in affecting phosphorus (P) release from sediments in eutrophic lakes under global warming. Yet how rising air temperature affect endogenous P release from sediments during the algal decomposition is poorly understood. In this study, effect of increasing air temperature on endogenous P release was investigated.

Early and high-volume administration of sodium bicarbonate in sepsis-associated acute kidney injury in patients with malignancies, during continuous renal replacement therapy.

Introduction: Sepsis is an uncontrolled systemic response to infection that leads to life-threatening organ dysfunction. The in-hospital mortality rate remains significantly high in septic shock patients with malignancies. This study investigates whether early and high-volume administration of sodium bicarbonate during continuous renal replacement therapy (CRRT) can reduce 28-day mortality, increase shock reversal rates, and shorten the duration of CRRT, mechanical ventilation, and intensive care unit (ICU) stays.

Epigenetic Clocks: Beyond Biological Age, Using the Past to Predict the Present and Future.

Predicting health trajectories and accurately measuring aging processes across the human lifespan remain profound scientific challenges. Assessing the effectiveness and impact of interventions targeting aging is even more elusive, largely due to the intricate, multidimensional nature of aging-a process that defies simple quantification. Traditional biomarkers offer only partial perspectives, capturing limited aspects of the aging landscape.

Aging through the lens of mitochondrial DNA mutations and inheritance paradoxes.

Mitochondrial DNA encodes essential components of the respiratory chain complexes, serving as the foundation of mitochondrial respiratory function. Mutations in mtDNA primarily impair energy metabolism, exerting far-reaching effects on cellular physiology, particularly in the context of aging. The intrinsic vulnerability of mtDNA is increasingly recognized as a key driver in the initiation of aging and the progression of its related diseases.

Prognostic implications of increased and final quantitative flow ratios in patients treated with drug-coated balloons physiological evaluation after DCB in de novo lesions.

Background: Few studies investigated the implications of post-PCI QFR and post-PCI ΔQFR (absolute increase of QFR) in de novo lesions of small coronary disease after drug-coated balloon (DCB).

Objectives: We sought to investigate the prognostic implications of post-PCI QFR and post-PCI ΔQFR in patients who received DCB only.

Methods: Patients were divided according to the optimal cutoff value of the post-PCI QFR and the post-PCI ΔQFR.

Engineering Programmable Electroactive Living Materials for Highly Efficient Uranium Capture and Accumulation.

Uranium is the primary fuel for nuclear energy, critical for sustainable, carbon-neutral energy transitions. However, limited terrestrial resources and environmental risks from uranium contamination require innovative immobilization and recovery solutions. In this work, we present a novel uranium recovery method using programmable electroactive living materials (ELMs).

Rotational photonic spin Hall effect.

Multidimensional manipulation of photonic spin Hall effect (PSHE) has attracted considerable interest due to its potential in a wide variety of spin-based applications. Plenty of research efforts have been devoted to transverse or longitudinal spin-dependent splitting; however, the splitting pattern that can self-rotate in a three-dimensional (3-D) space appears to be missing in literature. In this paper, we introduce a novel 3-D rotational PSHE, which can be realized and tuned using well-designed Pancharatnam-Berry phase metasurfaces.

TCM-ADIP: A Multidimensional Database Linking Traditional Chinese Medicine to Functional Brain Zones of Alzheimer's Disease.

Alzheimer's disease (AD) is a complex neurodegenerative disorder, with existing therapeutic drugs typically targeting specific disease stages. Traditional Chinese medicine (TCM), known for its multi-target and multi-mechanism therapeutic approach, has demonstrated efficacy in treating various stages of AD. In the present work, through a systematic review of classical Chinese medical texts, the formulae for preventing and treating AD were identified.

Prioritizing conservation sites for multi-pond systems to maintain protection of water quality in a fragmented agricultural catchment.

Precise targeting of conservation practices to the most effective sites in multi-pond systems (MPSs) is critical for resource optimization and water quality improvement. Previous studies generally prioritized ponds for conservation practices considering nutrient removal efficiency. However, they have frequently overlooked the role of ponds in sediment interception and the impact of human activities and environmental factors around the pond.

Artificial intelligence empowering museum space layout design: Insights from China.

The floor plan layout of museum exhibition spaces is the skeleton network of the museum, which determines the internal circulation and spatial form of the museum. This paper studies the method and practice of using artificial intelligence technology to assist in the space design of exhibition halls in urban cultural museums. First, it introduces the limitations of traditional space design methods for exhibition halls in urban cultural museums and the superiority and application prospects of the CGAN (conditional generative adversarial network) model in space design.

The role of high mobility group proteins in cellular senescence mechanisms.

Aging is a universal physiological phenomenon, and chronic age-related diseases have become one of the leading causes of human mortality, accounting for nearly half of all deaths. Studies have shown that reducing the incidence of these diseases can not only extend lifespan but also promote healthy aging. In recent years, the potential role of non-histone high-mobility group proteins (HMGs) in the regulation of aging and lifespan has attracted widespread attention.

Fabricating an advanced electrogenic chassis by activating microbial metabolism and fine-tuning extracellular electron transfer.

Exploiting electrogenic microorganisms as unconventional chassis hosts offers potential solutions to global energy and environmental challenges. However, their limited electrogenic efficiency and metabolic versatility, due to genetic and metabolic constraints, hinder broader applications. Herein, we developed a multifaceted approach to fabricate an enhanced electrogenic chassis, starting with streamlining the genome by removing extrachromosomal genetic material.