Room-temperature magnetocapacitance spanning 97 K hysteresis in molecular material.

Magnetic capacitor, as a new type of device, has broad application prospects in fields such as magnetic field sensing, magnetic storage, magnetic field control, power electronics and so on. Traditional magnetic capacitors are mostly assembled by magnetic and capacitive materials. Magnetic capacitor made of a single material with intrinsic properties is very rare. This intrinsic property is magnetocapacitance (MC). The studies on MC effect have mainly focused on metal oxides so far. No study was reported in molecular materials. Herein, two complexes: (CETAB)2[CuCl4] (1) and (CETAB)2[CuBr4] (2) (CETAB = (2-chloroethyl)trimethylammonium) are reported. There exist strong H-Br and Br-Br interactions and other weak interactions in complex 2, so the phase transition energy barrier is high, resulting in the widest thermal hysteresis loop on a molecular level to date. Furthermore, complexes 1 and 2 show large MC parameters of 0.247 and 1.614, respectively, which is the first time to observe MC effect in molecular material.

Building a Chinese ancient architecture multimodal dataset combining image, annotation and style-model.

In this rapidly evolving era of multimodal generation, diffusion models exhibit impressive generative capabilities, significantly enhancing the realm of creative image synthesis by intricately textual prompts. Yet, their effectiveness is limited in certain niche sectors, like depicting Chinese ancient architecture. This limitation is primarily due to the insufficient data that fails to encompass the unique architectural features and corresponding text information. Hence, we build an extensive multimodal dataset capturing the essence of Chinese architectures mostly from the Tang to the Yuan Dynasties. The dataset is categorized on the types, including image&text, video, and style models. In details, images and videos are methodically categorized based on locations. All images are annotated at two levels: initial annotations and descriptive terms based on distinctive characteristics and official information. Moreover, seven artistic styles fine-tuning models are provided in our dataset for further innovations. Significantly, this is the first Chinese ancient architecture dataset and the instance of using the Pinyin system to annotate unique terms related to Chinese architectural styles.

ExGAT: Context extended graph attention neural network.

As an essential concept in attention, context defines the overall scope under consideration. In attention-based GNNs, context becomes the set of representation nodes of graph embedding. Current approaches choose immediate neighbors of the target or its subset as the context, which limits the ability of attention to capture long-distance dependency. To address this deficiency, we propose a novel attention-based GNN framework with extended contexts. Concretely, multi-hop nodes are first selected for context expansion according to information transferability and the number of hops. Then, to reduce the computational cost and fit the graph representation learning process, two heuristic context refinement policies are designed by focusing on local graph structure. One is for the graphs with high degrees, multi-hop neighbors with fewer connections to the target are removed to acquire accurate diffused information. The other is for the graphs with low degrees or uniform degree distribution, low-transferability neighbors are dislodged to ensure the graph locality is not obscured by the global information induced by the extended context. Finally, multi-head attention is employed in the refined context. Numerical comparisons with 23 baselines demonstrate the superiority of our method. Extensive model analysis shows that extending context with the informative multi-hop neighbors properly indeed promotes the performance of attention-based GNNs.

KLF15 Transcription Activated Tachykinin Precursor 1 to Induce Perineural Invasion in Head and Neck Squamous Cell Carcinoma.

OBJECTIVE: In this study, we aimed to identify novel biomarkers related to Peripheral Neural Invasion (PNI) in head and neck squamous cell carcinoma (HNSCC). METHODS: The PNI-related differentially expressed mRNAs (DE-mRNAs) in HNSCC were identified to construct a PNI-related risk score model. The expression level and ROC curve for Tachykinin Precursor 1 (TAC1) were calculated. Additionally, two kinds of in vitro models of PNI were established for investigation, including the Matrigel-PNI model and the Transwell-PNI model. Furthermore, the transcription factor of the TAC1 was predicted and verified by qRTPCR. RESULTS: A total of 139 DE-mRNAs were identified in PNI positive and negative groups of HNSCC patients. The risk-score marker model incorporating 20 PNI-related DE-mRNAs was established. The TAC1 was identified as a potential highly expressed PNI marker, which exhibited good performance in predicting PNI events. Patients with higher TAC1 expressions demonstrated significantly shorter survival rates compared to those with lower TAC1 expressions in HNSCC. Besides, the knockdown of TAC1 significantly repressed neural invasion in HNSCC cells in vitro, according to the Matrigel-PNI model and Transwell-PNI model. Furthermore, KLF15 was predicted and verified as a transcription activator of TAC1 in HNSCC. CONCLUSION: This study highlights that the activation of KLF15 transcription of TAC1 promotes PNI in HNSCC cells, which provides guidance regarding the molecular diagnosis of PNI in HNSCC cells.

Puerarin improves Dioscorea bulbifera L.-induced liver injury by regulating drug transporters and the Nrf2/NF-κB/Bcl-2 signaling pathway.

PURPOSE: Investigate the protective effect and mechanism of Puerarin (PU) against Dioscorea bulbifera L. (DB)-induced liver injury. MATERIALS AND METHODS: The protective effect of PU against DB-induced liver injury was evaluated by the present animal experiment, which assessed the pathological changes in the liver of mice and detected Alanine aminotransferase (ALT), Aspartate aminotransferase (AST), Alkaline phosphatase (AKP), as well as inflammation and oxidative stress-related indexes. Finally, the transcription and expression of related proteins were detected using western blot and quantitative reverse transcription (PCR) techniques. RESULTS: PU significantly increased body weight, reduced liver index, and attenuated pathological changes in the liver compared to the DB group. It also decreased levels of AST, ALT, AKP, tumor necrosis factor-α, interleukin-1ß, and malondialdehyde while increasing interleukin-10 levels and superoxide dismutase activity. Additionally, it upregulated inhibitor of NF-κB (IκB-α), B-cell lymphoma-2 (Bcl-2), Nuclear respiratory factor 2 (Nrf2), and Heme oxygenase 1 (HO-1) expression while down-regulating p-NF-κB p65 and bcl2-associated x (Bax) expression in the liver. Furthermore, PU upregulated protein and gene expression levels of Multidrug resistance-associated protein2, bile salt export pump, p-glycoprotein, and UDP-glucuronyltransferase 1A1 (UGT1A1) as well. CONCLUSION: PU mitigates DB-induced liver injury by regulating the expression of drug transporters and modulating the Nrf2/NF-κB/Bcl-2 signaling pathway.

Sudden Blindness as the Only Symptom Caused by a Small Sphenoid Sinus Mucocele in a Young Child.

Background: Sphenoid sinus mucocele (SSM) represents a relatively rare disease among pediatric population as compared to adults, with a 1% to 3% incidence of all paranasal sinus mucoceles. Since the initial symptoms varied often, SSM caused blindness was scarcely seen. Case Presentation: Here we described an unusual case of small, isolated SSM causing acute visual loss in a 9-year-old girl. The patient first consulted an ophthalmologist for her right blindness. A diagnosis of SSM was suspected indicated by an orbital MRI scan. Thereafter the patient was referred to our department and an endoscopic sphenoidotomy and optic nerve decompression was performed. Surprisingly, her vision was relieved immediately after surgery, followed by dramatic improvement during the postoperative 20-month follow-up period. Conclusion: To our knowledge, a better understanding of SSM in pediatrics is essential for clinicians, including neurologists, ophthalmologists, and otolaryngologists to make early diagnoses and correct treatment by MRI and CT scan. Prompt surgical intervention of endoscopic transnasal sphenoidectomy is a quite safe, effective, and minimally invasive method for patients.

Spatially resolved subcellular protein-protein interactomics in drug-perturbed lung-cancer cultures and tissues.

Protein-protein interactions (PPIs) regulate signalling pathways and cell phenotypes, and the visualization of spatially resolved dynamics of PPIs would thus shed light on the activation and crosstalk of signalling networks. Here we report a method that leverages a sequential proximity ligation assay for the multiplexed profiling of PPIs with up to 47 proteins involved in multisignalling crosstalk pathways. We applied the method, followed by conventional immunofluorescence, to cell cultures and tissues of non-small-cell lung cancers with a mutated epidermal growth-factor receptor to determine the co-localization of PPIs in subcellular volumes and to reconstruct changes in the subcellular distributions of PPIs in response to perturbations by the tyrosine kinase inhibitor osimertinib. We also show that a graph convolutional network encoding spatially resolved PPIs can accurately predict the cell-treatment status of single cells. Multiplexed proximity ligation assays aided by graph-based deep learning can provide insights into the subcellular organization of PPIs towards the design of drugs for targeting the protein interactome.

Environmental high temperature affects pre-implantation embryo development by impairing the DNA repair ability.

Environmental high temperature poses a significant threat to human health, however, limited information is available for understanding the relationship between the hot weather and infertility. This study aims to assess the adverse effect of the hot weather to early embryonic cells. Our results indicated that environmental high temperature exposure could cause the decline of early embryo quality and implantation ability. In detail, it led to early embryonic development retardation, embryo degeneration rate increased, the rate of blastocyst and hatching decreased, and reduced the number of implants. And the finding also the impairment of environmental high temperature on early embryonic cells may be due to oxidative damage of DNA caused by ROS, while BER repair ability is decreased, failing to repair oxidative damage of DNA in time, resulting in a large number of early embryonic apoptosis. The work underscored that pregnant women should stay away from high-temperature environments.

SHP2 ablation mitigates osteoarthritic cartilage degeneration by promoting chondrocyte anabolism through SOX9.

Articular cartilage phenotypic homeostasis is crucial for life-long joint function, but the underlying cellular and molecular mechanisms governing chondrocyte stability remain poorly understood. Here, we show that the protein tyrosine phosphatase SHP2 is differentially expressed in articular cartilage (AC) and growth plate cartilage (GPC) and that it negatively regulates cell proliferation and cartilage phenotypic program. Postnatal SHP2 deletion in Prg4+ AC chondrocytes increased articular cellularity and thickness, whereas SHP2 deletion in Acan+ pan-chondrocytes caused excessive GPC chondrocyte proliferation and led to joint malformation post-puberty. These observations were verified in mice and in cultured chondrocytes following treatment with the SHP2 PROTAC inhibitor SHP2D26. Further mechanistic studies indicated that SHP2 negatively regulates SOX9 stability and transcriptional activity by influencing SOX9 phosphorylation and promoting its proteasome degradation. In contrast to published work, SHP2 ablation in chondrocytes did not impact IL-1-evoked inflammation responses, and SHP2's negative regulation of SOX9 could be curtailed by genetic or chemical SHP2 inhibition, suggesting that manipulating SHP2 signaling has translational potential for diseases of cartilage dyshomeostasis.

Activation of D2-like dopamine receptors improves the neuronal network and cognitive function of PPT1KI mice.

Palmitoyl-protein thioesterase 1 (PPT1) is a lysosomal depalmitoylation enzyme that mediates protein posttranslational modifications. Loss-of-function mutation of PPT1 causes a failure of the lysosomal degradation of palmitoylated proteins and results in a congenital disease characterized by progressive neuronal degeneration referred to as infantile neuronal ceroid lipofuscinosis (INCL). A mouse knock-in model of PPT1 (PPT1-KI) was established by introducing the R151X mutation into exon 5 of the PPT1 gene, which exhibited INCL-like pathological lesions. We previously reported that hippocampal γ oscillations were impaired in PPT1 mice. Hippocampal γ oscillations can be enhanced by selective activation of the dopamine D4 receptor (DR4), a dopamine D2-like receptor. In this study, we investigated the changes in DR expression and the effects of dopamine and various DR agonists on neural network activity, cognition and motor function in PPT1KI mice. Cognition and motor defects were evaluated via Y-maze, novel object recognition and rotarod tests. Extracellular field potentials were elicited in hippocampal slices, and neuronal network oscillations in the gamma frequency band (γ oscillations) were induced by perfusion with kainic acid (200 nM). PPT1KI mice displayed progressive impairments in γ oscillations and hippocampus-related memory, as well as abnormal expression profiles of dopamine receptors with preserved expression of DR1 and 3, increased membrane expression of DR4 and decreased DR2 levels. The immunocytochemistry analysis revealed the colocalization of PPT1 with DR4 or DR2 in the soma and large dendrites of both WT and PPT1KI mice. Immunoprecipitation confirmed the interaction between PPT1 and DR4 or DR2. The impaired γ oscillations and cognitive functions were largely restored by the application of exogenous dopamine, the selective DR2 agonist quinpirole or the DR4 agonist A412997. Furthermore, the administration of A412997 (0.5 mg/kg, i.p.) significantly upregulated the activity of CaMKII in the hippocampus of 5-month-old PPT1KI mice. Collectively, these results suggest that the activation of D2-like dopamine receptors improves cognition and network activity in PPT1KI mice and that specific DR subunits may be potential targets for the intervention of neurodegenerative disorders, such as INCL.

Plastic additives as a new threat to the global environment: Research status, remediation strategies and perspectives.

Discharge or leaching of plastic additives, which are an essential part of the plastic production process, can lead to environmental pollution with serious impacts on human and ecosystem health. Recently, the emission of plastic additives is increasing dramatically, but its pollution condition has not received enough attention. Meanwhile, the effective treatment strategy of plastic additive pollution is lack of systematic introduction. Therefore, it is crucial to analyze the harm and pollution status of plastic additives and explore effective pollution control strategies. This paper reviews the latest research progress on additives in plastics, describes the effects of their migration into packaged products and leaching into the environment, presents the hazards of four major classes of plastic additives (i.e., plasticizers, flame retardants, stabilizers, and antimicrobials), summarizes the existing abiotic/biotic strategies for accelerated the remediation of additives, and finally provides perspectives on future research on the removal of plastic additives. To the best of our knowledge, this is the first review that systematically analyzes strategies for the treatment of plastic additives. The study of these strategies could (i) provide feasible, cost-effective abiotic method for the removal of plastic additives, (ii) further enrich the current knowledge on plastic additive bioremediation, and (iii) present application and future development of plants, invertebrates and machine learning in plastic additive remediation.

Efficacy and safety of vonoprazan and high-dose amoxicillin dual therapy in eradicating Helicobacter pylori: A systematic review and meta-analysis.

BACKGROUND: Vonoprazan is a new acid-suppressing drug that provides an additional choice for eradicating Helicobacter pylori. The effectiveness and safety of vonoprazan and high-dose amoxicillin (VHA) dual therapy requires study in a systematic analysis. MATERIALS AND METHODS: A comprehensive search of the literature from the PubMed, Embase, Cochrane Library, and Web of Science databases was conducted up to 16 May 2024. Trials comparing H. pylori eradication rates, adverse events, and compliance of VHA dual therapy with that of other therapies were included. RevMan 5.4 was used for statistical analysis. RESULTS: Eleven randomised controlled trials (RCTs) and two retrospective clinical studies with 4570 samples were included. VHA dual therapy had superior H. pylori eradication rates (intention-to-treat [ITT]: 86.0% vs. 80.7%; odds ratio [OR]=1.36; 95% confidence interval [CI] 1.07-1.73; P=0.01; per-protocol [PP]: 90.6% vs. 85.7%; OR=1.42; 95% CI 1.07-1.88; P=0.02), fewer adverse events (15.4% vs. 27.7%; OR=0.49; 95% CI 0.35-0.68, P<0.0001), and similar compliance (94.6% vs. 93.2%; OR=1.27; 95% CI 0.98-1.64; P=0.07) compared with other guideline therapies. According to subgroup analysis with PP data, VHA dual therapy is more effective than bismuth quadruple therapy based on proton-pump inhibitors (P-BQT) (93.5% vs. 89.3%; OR=1.76; 95% CI 1.03-3.00; P=0.04). In addition, the eradication rates for 7-day, 10-day and 14-day VHA dual therapy were 65% (95% CI 0.55-0.75), 92% (95% CI 0.91-0.94) and 93% (95% CI 0.90-0.97), respectively. CONCLUSION: VHA dual therapy for 10 or 14 days showed superior efficacy and safety compared with therapies recommended by the guidelines and should be prioritised for adoption.

Isolation and characterization of genetic variants of Orthohantavirus hantanense from clinical cases of HFRS in Jiangxi Province, China.

BACKGROUND: Hemorrhagic fever with renal syndrome (HFRS) is a severe public health problem in Jiangxi province, China. Previous studies reported genetic variants of Orthohantavirus hantanense (Hantaan virus, HTNV) in rodents in this area. However, the relationship between HTNV variants and human infection needs to be confirmed. This study aimed to identify the HTNV variants in patients and to understand the clinical characteristics of HFRS caused by these variants. METHODS: Samples were collected from hospitalized suspected cases of HFRS during the acute phase. HFRS cases were confirmed using quantitative real-time RT-PCR. Peripheral blood mononuclear cells (PBMC) from patients with HFRS were inoculated into Vero-E6 cells for viral isolation. The genomic sequences of HTNV from patients were obtained by amplicon-based next-generation sequencing. A retrospective analysis was conducted on the clinical characteristics of the patients. RESULTS: HTNV RNA was detected in 53 of 183 suspected HFRS patients. Thirteen HTNVs were isolated from 32 PBMCs of HFRS cases. Whole genome sequences of 14 HTNVs were obtained, including 13 isolates in cell culture from 13 patients, and one from plasma of the fatal case which was not isolated successfully in cell culture. Genetic analysis revealed that the HTNV sequence from the 14 patients showed significant variations in nucleotide and amino acid to the HTNV strains found in other areas. Fever (100%, 53/53), thrombocytopenia (100%, 53/53), increased serum aspartate aminotransferase (100%, 53/53), and increased lactate dehydrogenase (96.2%, 51/53) were the most common characteristics. Severe acute kidney injury was observed in 13.2% (7/53) of cases. Clinical symptoms, such as pain, petechiae, and gastrointestinal or respiratory symptoms were uncommon. CONCLUSION: The HTNV genetic variants cause human infections in Jiangxi. The clinical symptoms of HFRS caused by the HTNV genetic variant during the acute phase are atypical. In addition to renal dysfunction, attention should be paid to the common liver injuries caused by these genetic variants.

Evolution of the Correlated Genomic Variation Landscape Across a Divergence Continuum in the Genus Castanopsis.

The heterogeneous landscape of genomic variation has been well documented in population genomic studies. However, disentangling the intricate interplay of evolutionary forces influencing the genetic variation landscape over time remains challenging. In this study, we assembled a chromosome-level genome for Castanopsis eyrei and sequenced the whole genomes of 276 individuals from 12 Castanopsis species, spanning a broad divergence continuum. We found highly correlated genomic variation landscapes across these species. Furthermore, variations in genetic diversity and differentiation along the genome were strongly associated with recombination rates and gene density. These results suggest that long-term linked selection and conserved genomic features have contributed to the formation of a common genomic variation landscape. By examining how correlations between population summary statistics change throughout the species divergence continuum, we determined that background selection alone does not fully explain the observed patterns of genomic variation; the effects of recurrent selective sweeps must be considered. We further revealed that extensive gene flow has significantly influenced patterns of genomic variation in Castanopsis species. The estimated admixture proportion correlated positively with recombination rate and negatively with gene density, supporting a scenario of selection against gene flow. Additionally, putative introgression regions exhibited strong signals of positive selection, an enrichment of functional genes, and reduced genetic burdens, indicating that adaptive introgression has played a role in shaping the genomes of hybridizing species. This study provides insights into how different evolutionary forces have interacted in driving the evolution of the genomic variation landscape.

Inhibition of hTERT/telomerase/telomere mediates therapeutic efficacy of osimertinib in EGFR mutant lung cancer.

The inevitable acquired resistance to osimertinib (AZD9291), an FDA-approved third-generation EGFR tyrosine kinase inhibitor (EGFR-TKI) for the treatment of patients with advanced non-small cell lung cancer (NSCLC) harboring EGFR activating or T790M resistant mutations, limits its long-term clinical benefit. Telomere maintenance via telomerase reactivation is linked to uncontrolled cell growth and is a cancer hallmark and an attractive cancer therapeutic target. Our effort toward understanding the action mechanisms, including resistance mechanisms, of osimertinib has led to the identification of a novel and critical role in maintaining c-Myc-dependent downregulation of hTERT, a catalytic subunit of telomerase, and subsequent inhibition of telomerase/telomere and induction of telomere dysfunction in mediating therapeutic efficacy of osimertinib. Consequently, osimertinib combined with the telomere inhibitor, 6-Thio-dG, which is currently tested in a phase II trial, effectively inhibited the growth of osimertinib-resistant tumors, regressed EGFRm NSCLC patient-derived xenografts, and delayed the emergence of acquired resistance to osimertinib, warranting clinical validation of this strategy to manage osimertinib acquired resistance.