Screening of serum biomarkers in patients with PCOS through lipid omics and ensemble machine learning.

Polycystic ovary syndrome (PCOS) is a primary endocrine disorder affecting premenopausal women involving metabolic dysregulation. We aimed to screen serum biomarkers in PCOS patients using untargeted lipidomics and ensemble machine learning. Serum from PCOS patients and non-PCOS subjects were collected for untargeted lipidomics analysis.

Sarcopenia and risk of postoperative pneumonia: a systematic review and meta-analysis.

Background: Identifying patients at risk for postoperative pneumonia and preventing it in advance is crucial for improving the prognoses of patients undergoing surgery. This review aimed to interpret the predictive value of sarcopenia on postoperative pneumonia.

Methods: Science Citation Index Expanded (SCIE), Embase, Medline, and Cochrane Central Register of Controlled Trials were searched from inception to August 2nd, 2023 to retrieve eligible studies.

Visible-Light-Absorbing Photosensitizer Nanostructures for Treatment of Pathogenic Bacteria and Induction of Systemic Acquired Resistance.

Induction of systemic acquired resistance (SAR) in plants to control bacterial diseases has become an effective solution to the problems of agrochemical resistance and ecological environment damage caused by long-term and large-scale use of traditional bactericides. However, current SAR-inducing compounds are often unable to rapidly eliminate pathogenic bacteria in infected plant tissues to prevent further spread of the disease, severely restraining the potential for extensive application in agriculture. Herein, we address the limitations by developing a series of visible-light-absorbing aggregation-induced emission photosensitizers suitable for agricultural use.

A Self-Reinforced "Microglia Energy Modulator" for Synergistic Amyloid-β Clearance in Alzheimer's Disease Model.

Microglial phagocytosis is a highly energy-consuming process that plays critical roles in clearing neurotoxic amyloid-β (Aβ) in Alzheimer's disease (AD). However, microglial metabolism is defective overall in AD, thereby undermining microglial phagocytic functions. Herein, we repurpose the existing antineoplastic drug lonidamine (LND) conjugated with hollow mesoporous Prussian blue (HMPB) as a "microglial energy modulator" (termed LND@HMPB-T7) for safe and synergistic Aβ clearance.

Effect of Protecting Groups and Activating Conditions on 3-Deoxy-d--d--2-nonulosonic Acid (Kdn) Glycosylation: Stereoselective Synthesis of α- and β-Kdn Glycosides.

Kdn is a common member of the sialic acid family. Carbohydrates containing Kdn residues are widely distributed in nature and embody important biological information. However, the methods for synthesizing Kdn glycosides are limited, which restricts their biological study.

Upconversion Nanoparticle-Anchored Metal-Organic Framework Nanostructures for Remote-Controlled Cancer Optogenetic Therapy.

Optogenetics, a revolutionary technique utilizing light-sensitive proteins to control cellular functions with high spatiotemporal precision, presents a promising avenue for disease treatment; however, its application in cancer therapy remains constrained by limited research. Herein, we introduce a pioneering strategy for remote-controlled optogenetic cancer therapy, synergistically merging optogenetics with ion therapy, which incorporates ion self-supply, in situ ion channel construction, and near-infrared (NIR) light-activated ion therapy, facilitating remote and noninvasive manipulation of cellular activities in deep tissues and living animals. We report the facile synthesis of water-dispersible upconversion nanoparticle (UCNP)-metal-organic framework (MOF) nanohybrids capable of effectively delivering plasmid DNA to cancer cells, thereby enabling the in situ expression of photoactivatable cation channels.

Cecal Microbial Diversity and Metabolome Reveal a Reduction in Growth Due to Oxidative Stress Caused by a Low-Energy Diet in Donkeys.

Dietary energy level plays an important role in animal growth and development. The present study investigated the effect of dietary energy on the growth performance, antioxidative state, and nutrient digestion of meat donkeys. It simultaneously explored the probable reason for cecal microbiota and metabolome.

Study on Electrochemical Behaviors of Heat-Treated and .

Evaluating the bacterial activity effectively is critical to addressing the challenges posed by bacterial infections. Electrochemistry offers significant advantages in accuracy and cost efficiency compared with methods that are more time-consuming or require expensive instrumentation. This study initially established an electrochemical method for detecting bacterial activity using heat treatment as the pretreatment step.

Metal-organic framework-based hybrids with photon upconversion.

Upconversion materials (UCMs) featuring an anti-Stokes type emission establish them as an important category of photoluminescent materials. Metal-organic frameworks (MOFs) are rapidly gaining prominence as a class of versatile materials with favourable physical and chemical properties, including high porosity, controllable pore size, flexible design, and diverse functional sites. To endow MOFs with upconversion capability and improve the properties and performance of UCMs, the hybrids integrating UCMs and MOFs are proven to be successful.

Pathway-directed recyclable chirality inversion of coordinated supramolecular polymers.

It remains challenging to elucidate the fundamental mechanisms behind the dynamic chirality inversion of supramolecular assemblies with pathway complexity. Herein, metal coordination driven assembly systems based on pyridyl-conjugated cholesterol (PVPCC) and metal ions (Ag or Al) are established to demonstrate pathway-directed, recyclable chirality inversion and assembly polymorphism. In the Ag(I)/PVPCC system, a competitive pathway leads Ag-Complex to form either kinetically controlled supramolecular polymer (Ag-SP I) or thermodynamically favored Ag-SP II, accompanied by reversible chiroptical inversion.

Priming of cancer-immunity cycle by alleviating hypoxia-induced ferroptosis resistance and immunosuppression.

Stimulating a robust cancer-immunity cycle (CIC) holds promising potential for eliciting potent and enduring immune responses for cancer immunotherapy. However, designing a therapeutic nanomaterial capable of both enhancing tumor immunogenicity and mitigating immunosuppression is challenging and often associated with complicated design paradigms and immune-related adverse effects. Herein, a multienzyme-mimetic alloy nanosheet incorporating palladium (Pd) and iron (Fe) is developed, which can prime effective CIC by overcoming ferroptosis resistance for enhancing tumor immunogenicity and reprograming the tumor microenvironment for enhanced second near-infrared (NIR-II) photoimmunotherapy.

Safety and effectiveness of weighted blankets for symptom management in patients with mental disorders: A systematic review and meta-analysis of randomized controlled trials.

Background: The current practice guideline regarding treatment for insomnia and sleep disturbances among children and adolescents with autism spectrum disorder (ASD) has been published and it suggests that the use of weighted blankets might not be an evidence-informed practice. However, limited guidance and evidence synthesis exist on the overall effectiveness of a weighted blanket for symptom management among patients with mental disorders, although it has been routinely recommended and prescribed for this population in many mental health care settings.

Objective: To systematically evaluate and synthesize existing data on the safety and effectiveness of weighted blankets for symptom management among patients with mental disorders.

Ruxolitinib plus steroids for acute graft versus host disease: a multicenter, randomized, phase 3 trial.

Newly diagnosed patients with high-risk acute graft-versus-host disease (aGVHD) often experience poor clinical outcomes and low complete remission rates. Ruxolitinib with corticosteroids showed promising efficacy in improving response and failure free survival in our phase I study. This study (ClinicalTrials.

[5]Helicene Based π-Conjugated Macrocycles with Persistent Figure-Eight and Möbius Shapes: Efficient Synthesis, Chiral Resolution and Bright Circularly Polarized Luminescence.

π-Conjugated chiral shape-persistent molecular nanocarbons hold great potential as chiroptical materials, though their synthesis remains a considerable challenge. Here, we present a simple approach using Suzuki coupling of a [5]helicene building block with various aromatic units, enabling the one-pot synthesis of a series of chiral macrocycles with persistent figure-eight and Möbius shapes. Single-crystal structures of 7 compounds were solved, and 22 enantiomers were separated by preparative chiral HPLC.

Pancreatic β-Cells, Diabetes and Autophagy.

Purpose: Pancreatic β-cells play a critical role in regulating plasma insulin levels and glucose metabolism balance, with their dysfunction being a key factor in the progression of diabetes. This review aims to explore the role of autophagy, a vital cellular self-maintenance process, in preserving pancreatic β-cell functionality and its implications in diabetes pathogenesis.

Methods: We examine the current literature on the role of autophagy in β-cells, highlighting its function in maintaining cell structure, quantity, and function.

N-Methyl-d-Aspartate Receptor Antibody and Sensory Gating Deficits in Non-smoking, Minimal Antipsychotic Medication Exposure, and First-Episode Patients With Schizophrenia.

Background And Hypothesis: Sensory gating deficit is considered a pathophysiological feature of schizophrenia, which has been linked to N-methyl-d-aspartate receptor (NMDAR) hypofunction as one of the potential underlying mechanisms. Here, we hypothesize that higher levels of NMDAR antibody (Ab) may contribute to the sensory gating deficits in schizophrenia.

Study Design: We enrolled 72 non-smoking inpatients with first-episode schizophrenia (FES), most of them with only a relatively short duration of exposure to antipsychotic medications, and 51 non-smoking healthy controls (HC).

Electrochemical response mechanism of DNA damaged cells: DNA damage repair and purine metabolism activation.

In modern society, due to the sharp increase in pollutants that cause DNA damage, there is a growing demand for innovative detection techniques and biomarkers. In this paper, the electrochemical behavior of HepG2 cells exposed to CdCl was investigated, and the electrochemical response mechanism of DNA damage was identified by exploring the correlation between the DNA damage response and purine metabolism. Western blot analysis revealed that the expression levels of ATM and Ku70 increased at 0.

Facile and scale-up syntheses of high-performance enzyme@meso-HOF biocatalysts.

Facile immobilization is essential for the wide application of enzymes in large-scale catalytic processes. However, exploration of suitable enzyme supports poses an unmet challenge, particularly in the context of scale-up biocatalyst fabrication. In this study, we present facile and scale-up syntheses of high-performance enzyme biocatalysts encapsulation of cytochrome c (Cyt-c) as mono-enzyme and glucose oxidase (GOx)-horseradish peroxidase (HRP) as dual-enzyme cascade (GOx&HRP) systems, respectively, into a stable mesoporous hydrogen-bonded organic framework (meso-HOF) matrix.

Polyphenol-Based Self-Assembled Nanomedicine for a Three-Pronged Approach to Reversing Tumor Immunosuppression.

The challenges of multi-pathway immune resistance and systemic toxicity caused by the direct injection of immune checkpoint inhibitors are critical factors that compromise the effectiveness of clinical immune checkpoint blockade therapy. In this context, natural polyphenols have been employed as the primary component to construct a targeted and acid-responsive PD-L1 antibody (αPD-L1) delivery nanoplatform. This platform incorporates garcinol, an inhibitor of the Nuclear Factor Kappa-B (NF-κB) signaling pathway, to regulate pro-tumor immune escape cytokines and regulatory T cells.

Investigating the molecular mechanisms between type 1 diabetes and mild cognitive impairment using bioinformatics analysis, with a focus on immune response.

The immune system is involved in the development and progression of several diseases. Type 1 diabetes mellitus (T1DM), an autoimmune disorder, influences the progression of several other conditions; however, the link between T1DM and mild cognitive impairment (MCI) remains unclear. This study investigated the underlying immune response mechanisms that contribute to the development and progression of T1DM and MCI.