Failure of femoral internal fixation device secondary to phosphaturic mesenchymal tumor: a case report and literature review.

Background: Tumor-induced osteomalacia (TIO) is a rare paraneoplastic syndrome caused by mesenchymal tumors that secrete fibroblast growth factor 23 (FGF23). Phosphaturic mesenchymal tumor (PMT) is a novel histopathologic entity that has been identified as a separate cause of TIO. Clinically, PMT is typically diagnosed late due to its rarity.

Lactate-Modulating Nanoreactors Facilitate Self-Amplifying Pyroptosis and the cGAS-STING Cascade for Potentiated Catalytic-Immunotherapy.

The strategic induction of pyroptosis, coupled with the targeted potentiation of cGAS-STING activation, represents a promising immunostimulatory approach. Herein, an intelligent lactate-depleting LOCoF nanoreactor system is developed that orchestrated self-amplifying pyroptosis induction and cGAS-STING signaling potentiation for enhanced catalytic immunotherapy. This nanoplatform integrated cobalt fluoride (CoF) nanoparticles with lactate oxidase (LOx), endowing it with dual enzymatic capabilities.

Metabolic modulation-driven self-reinforcing pyroptosis-STING nanoadjuvant for potentiated metalloimmunotherapy.

Pyroptosis is a critical process that triggers inflammatory responses and mitochondrial DNA (mtDNA) release, thereby activating the cGAS-STING pathway. However, tumor metabolism, particularly glycolysis, often suppresses immune activation. To address this, we developed GOCoF, a self-amplifying pyroptosis-STING nanoadjuvant that integrates glucose oxidase (GOx) with cobalt fluoride (CoF) nanoenzymes.

Engineered Nano-Micro Pyroptosis Generators: A Magnetic-Metallo-Immunotherapeutic Strategy to Reinforce Transarterial Embolization.

Gasdermin-mediated pyroptosis represents a promising immunotherapeutic strategy, yet requires precise tumor-specific activation. Magnetic hyperthermia therapy (MHT) has the potential to induce pyroptosis in hepatocellular carcinoma (HCC), while its efficacy is limited by suboptimal heating efficiency and tumor resistance. Herein, we developed an innovative magnetic-metallo-immunotherapeutic platform by engineering nanomicro pyroptosis generators, thereby enhancing transarterial embolization (TAE).

Tailored Liposomal Nanomedicine Suppresses Incomplete Radiofrequency Ablation-Induced Tumor Relapse by Reprogramming Antitumor Immunity.

Radiofrequency ablation (RFA), a thermoablative treatment for small hepatocellular carcinoma (HCC), has limited therapeutic benefit for advanced HCC patients with large, multiple, and/or irregular tumors owing to incomplete RFA (iRFA) of the tumor mass. It is first identified that iRFA-treated tumors exhibited increased pyruvate kinase M2 (PKM2) expression, exacerbated tumor immunosuppression featured with increased tumor infiltration of suppressive immune cells and increased proliferation, and programmed cell death ligand 1 expression of cancer cell and ultimately a poor prognosis. Herein, a multifunctional nanomedicine is fabricated by encapsulating nanoassemblies of anti-PD-L1 and spermidine-grafted oxidized dextran with shikonin-containing lipid bilayers to reverse iRFA-induced treatment failure.

Pickering emulsion with tumor vascular destruction and microenvironment modulation for transarterial embolization therapy.

In the clinic, Lipiodol chemotherapeutic emulsions remain a main choice for patients diagnosed with hepatocellular carcinoma (HCC) via the mini-invasive transarterial chemoembolization (TACE) therapy. However, the poor stability of conventional Lipiodol chemotherapeutic emulsions would result in the fast drug diffusion and incomplete embolization, inducing systemic toxicity and impairing the efficacy of TACE therapy. Therefore, it is of great importance to construct alternative formulations based on commercial Lipiodol to achieve the improved efficacy and safety of HCC treatment.

Profiling immune cell-related gene features and immunoregulatory ceRNA in ischemic stroke.

Molecules in immune cells plays a vital role in the pathogenesis of ischemic stroke (IS). The aim of this study is to profile the landscape of molecules on the basis of immune cells in IS peripheral blood and construct an immunoregulatory competing endogenous RNA (ceRNA) network. We collected and combined multiple public transcriptome datasets from the peripheral blood of IS patients and healthy controls.

Arginine-Loaded Nano-Calcium-Phosphate-Stabilized Lipiodol Pickering Emulsions Potentiates Transarterial Embolization-Immunotherapy.

Transarterial chemoembolization (TACE) continues to stand as a primary option for treating unresectable hepatocellular carcinoma (HCC). However, the increased tumor hypoxia and acidification will lead to the immunosuppressive tumor microenvironment (TME) featuring exhausted T cells, limiting the effectiveness of subsequent therapies following TACE. Herein, a stable water-in-oil lipiodol Pickering emulsion by employing calcium phosphate nanoparticles (CaP NPs) as stabilizers is developed and used to encapsulate L-arginine (L-Arg), which is known for its ability to modulate T-cell metabolism.

Enteral Route Nanomedicine for Cancer Therapy.

With the in-depth knowledge of the pathological and physiological characteristics of the intestinal barrier-portal vein/intestinal lymphatic vessels-systemic circulation axis, oral targeted drug delivery is frequently being renewed. With many advantages, such as high safety, convenient administration, and good patient compliance, many researchers have begun to explore targeted drug delivery from intravenous injections to oral administration. Over the past few decades, the fields of materials science and nanomedicine have produced various drug delivery platforms that hold great potential in overcoming the multiple barriers associated with oral drug delivery.

Thermal Exfoliation and Phosphorus Doping in Graphitic Carbon Nitride for Efficient Photocatalytic Hydrogen Production.

Photocatalytic H evolution has been regarded as a promising technology to alleviate the energy crisis. Designing graphitic carbon nitride materials with a large surface area, short diffusion paths for electrons, and more exposed reactive sites are beneficial for hydrogen evolution. In this study, a facile method was proposed to dope P into a graphitic carbon nitride framework by calcining melamine with 2-aminoethylphosphonic acid.

Targeting CD300ld to normalize the tumor microenvironment: an emerging insight in cancer immunotherapy.

In a recent Nature elegant study, Wang et al. identified CD300ld, a novel functionally highly conserved tumor immunosuppressive receptor, highly expressed specifically on polymorphonuclear myeloid-derived suppressor cells (PMN-MDSCs), as well as a key receptor in the regulation of recruitment and immunosuppressive function of PMN-MDSCs. Targeting CD300ld could remodel the tumor immune microenvironment, resulting in a broad-spectrum anti-tumor effect.

Association Between the Serum Copper Levels and Environmental Tobacco Exposure on the Risk of Overweight and Obesity in Children: a Study Based on the National Health and Nutrition Examination Survey.

This study was to assess the individual effects of serum copper levels and environmental tobacco exposure and their joint effects on the risk of overweight and obesity among children and adolescents of 6 to 19 year olds. We analyzed cross-sectional data from 1849 children and adolescents participating in the National Health and Nutrition Examination Survey (NHANES) collected between 2011 and 2016. Environmental tobacco exposure was determined by cotinine levels.

Gut microbiota and atopic dermatitis: a two-sample Mendelian randomization study.

Background: Accumulating evidence suggests that alterations in gut microbiota composition and diversity are associated with Atopic dermatitis (AD). But until now, the causal association between them has been unclear.

Methods: We employed a two-sample Mendelian Randomization (MR) study to estimate the potential causality of gut microbiota on AD risk.

N-1 improves autism-like behavior and gut microbiota in mouse.

Introduction: The gut-brain axis has been widely recognized in autism spectrum disorder (ASD), and probiotics are considered to potentially benefit the rescuing of autism-like behaviors. As a probiotic strain, () was utilized to investigate its effects on gut microbiota and autism-like behaviors in ASD mice constructed by maternal immune activation (MIA).

Methods: Adult offspring of MIA mice were given at the dosage of 2  ×  10  CFU/g for 4  weeks before subject to the behavior and gut microbiota evaluation.

Modification of Polymeric Carbon Nitride with Au-CeO Hybrids to Improve Photocatalytic Activity for Hydrogen Evolution.

The construction of a multi-component heterostructure for promoting the exciton splitting and charge separation of conjugated polymer semiconductors has attracted increasing attention in view of improving their photocatalytic activity. Here, we integrated Au nanoparticles (NPs) decorated CeO (Au-CeO) with polymeric carbon nitride (PCN) via a modified thermal polymerization method. The combination of the interfacial interaction between PCN and CeO via N-O or C-O bonds, with the interior electronic transmission channel built by the decoration of Au NPs at the interface between CeO and PCN, endows CeAu-CN with excellent efficiency in the transfer and separation of photo-induced carriers, leading to the enhancement of photochemical activity.

Translational Regulation by eIFs and RNA Modifications in Cancer.

Translation is a fundamental process in all living organisms that involves the decoding of genetic information in mRNA by ribosomes and translation factors. The dysregulation of mRNA translation is a common feature of tumorigenesis. Protein expression reflects the total outcome of multiple regulatory mechanisms that change the metabolism of mRNA pathways from synthesis to degradation.

Synthesis of Layered Carbonitrides from Biotic Molecules for Photoredox Transformations.

The construction of layered covalent carbon nitride polymers based on tri-s-triazine units has been achieved by using nucleobases (adenine, guanine, cytosine, thymine and uracil) and urea to establish a two-dimensional semiconducting structure that allows band-gap engineering applications. This biomolecule-derived binary carbon nitride polymer enables the generation of energized charge carrier with light-irradiation to induce photoredox reactions for stable hydrogen production and heterogeneous organosynthesis of C-O, C-C, C-N and N-N bonds, which may enrich discussion on chemical reactions in prebiotic conditions by taking account of the photoredox function of conjugated carbonitride semiconductors that have long been considered to be stable HCN-derived organic macromolecules in space.

Molecular Engineering of Conjugated Polybenzothiadiazoles for Enhanced Hydrogen Production by Photosynthesis.

The search for metal-free organic photocatalysts for H2 production from water using visible light remains a key challenge. Reported herein is a molecular structural design of pure organic photocatalysts, derived from conjugated polybenzothiadiazoles, for photocatalytic H2 evolution using visible light. By alternating the substitution position of the electron-withdrawing benzothiadizole unit on the phenyl unit as a comonomer, various polymers with either one- or three-dimensional structures were synthesized and the effect of the molecular structure on their catalytic activity was investigated.