GPR30-driven fatty acid oxidation targeted by ginsenoside Rd maintains mitochondrial redox homeostasis to restore vascular barrier in diabetic retinopathy.

Blood-retinal barrier (BRB) breakdown, a pivotal contributor to multiple retinal vascular diseases, manifests as a progressive increase in vascular permeability induced by various pathological stimuli. The functional plasticity of retinal endothelial cells can be intricately shaped by metabolic alteration. However, little is known about the mechanisms through which endothelial metabolic disorders trigger the dissolution of inter-vascular junctions and the selective approaches to targeting metabolic homeostasis.

Antibody-drug conjugate combinations in cancer treatment: clinical efficacy and clinical study perspectives.

Antibody-drug conjugates have emerged as a promising cancer treatment, combining targeted delivery of cytotoxic agents with the specificity of monoclonal antibodies. Despite their potential, ADCs face limitations such as resistance and off-target effects. To enhance their efficacy, ADCs are increasingly being combined with other therapeutic strategies, including immune checkpoint inhibitors, chemotherapy, small-molecule inhibitors, anti-angiogenic agents, and CAR-T cell therapies.

Mirror substrates specificity of a 2, 3-dihydroxypropanesulfonate degrading enzyme in sulfate-reducing bacteria.

Ubiquitous R- and S-enantiomers of 2,3-dihydroxypropanesulfonate (DHPS), organic sulfur compounds produced by photosynthetic organisms, serve as common nutrient and energy sources for specific bacteria. While most known DHPS-degrading enzymes exhibit enantioselectivity, this study introduces a unique dehydrogenase, DhpA from the sulfate-reducing bacterium Desulfovibrio sp. DF1, capable of efficiently metabolizing both R- and S-DHPS to 3-sulfolactaldehyde (SLA).

Sphingosinicella rhizophila sp. nov., Isolated from Oat (Avena sativa L.) Rhizosphere Soil.

A Gram-stain-negative, aerobic, rod-shaped, and yellow-colored bacterium, designated strain GR2756, was isolated from a rhizosphere soil sample of oat (Avena sativa L.). The strain GR2756 was able to grow at 15-35 °C, pH 6.

Polarization-sensitive, self-powered photodetector based on a SnO/MoS van der Waals heterojunction.

Polarization-sensitive ultraviolet photodetectors have a wide range of applications in remote sensing, analytical imaging, information encryption, and anti-counterfeiting. Herein, one-dimensional tin dioxide (SnO) single crystals by using the chemical vapor deposition (CVD) method are reported. The high in-plane anisotropic structure, phonon vibrations, and refractive index of the SnO crystals are experimentally elucidated.

Local soft niches in mechanically heterogeneous primary tumors promote brain metastasis via mechanotransduction-mediated HDAC3 activity.

Tumor cells with organ-specific metastasis traits arise in primary lesions with substantial variations of local niche mechanics owing to intratumoral heterogeneity. However, the roles of mechanically heterogeneous primary tumor microenvironment in metastatic organotropism remain an enigma. This study reports that persistent priming in soft but not stiff niches that mimic primary tumor mechanical heterogeneity induces transcriptional reprogramming reminiscent of neuron and promotes the acquisition of brain metastatic potential.

Neoandrographolide inhibits mature osteoclast differentiation to alleviate bone loss and treat osteoporosis.

Background: Osteoporosis (OP), as the prevalent systemic metabolic bone disease worldwide, progresses insidiously and slowly. The clinical discomfort and complications associated with OP impose a significant burden on patients. Therefore, finding more effective treatments for OP remains an urgent challenge.

Spatiotemporal Dynamics of Bacterial Community Assembly and Co-Occurrence Patterns in Biological Soil Crusts of Desert Ecosystems.

Biological soil crusts (BSCs) play a fundamental role in desert ecosystems by stabilizing soil, cycling nutrients, and retaining moisture. However, the assembly processes governing bacterial communities within BSCs remain largely unknown. This study aimed to reveal the spatiotemporal variations in the bacterial community diversity, co-occurrence patterns, and ecological assembly processes of BSCs and their underlying soils across different desert and seasonal conditions.

A patent review of hepatitis B virus core protein allosteric modulators (2019-present).

Introduction: The hepatitis B virus (HBV) core protein is a significant therapeutic target due to its essential role in HBV replication. Over the past five years, numerous structurally unique CpAMs have been patented. However, no compounds have been approved due to various issues such as poor pharmacokinetics (PK) and hepatotoxicity.

A dataset of prokaryotic diversity in the surface layer of the China Seas.

Coastal and nearshore zones, severing as a connection between the land and the open ocean, are some of the most productive and complex ecosystems, where prokaryotes are abundant and highly diverse. However, the systematic study of the diversity of prokaryotes on a large-scale range in coastal and nearshore zones is limited due to scattered sampling sites, various sampling collection methods, and different data processing methods across various studies. Here, we provide a dataset of 16S rRNA gene sequences obtained from the surface water samples across the China Seas, including the Bohai Sea, the Yellow Sea, the East China Sea, and the South China Sea.

H-bonded organic frameworks as ultrasound-programmable delivery platform.

The precise control of mechanochemical activation within deep tissues using non-invasive ultrasound holds profound implications for advancing our understanding of fundamental biomedical sciences and revolutionizing disease treatments. However, a theory-guided mechanoresponsive materials system with well-defined ultrasound activation has yet to be explored. Here we present the concept of using porous hydrogen-bonded organic frameworks (HOFs) as toolkits for focused ultrasound (FUS) programmably triggered drug activation to control specific cellular events in the deep brain, through on-demand scission of the supramolecular interactions.

Single-center experience with ultra-early cranioplasty within 3 weeks after decompressive craniectomy.

Background: The optimal timing of cranioplasty (CP) after decompressive craniectomy (DC) is inconclusive. This article aims to investigate the effect of different timing of CP on the neurologic prognosis of patients, and to explore the feasibility and safety of ultra-early CP (within 3 weeks) following DC.

Methods: The duration time of surgery, intraoperative bleeding volume, surgery-related complications, and activities of daily living (ADL) scores were retrospectively analyzed in 23 patients underwent ultra-early CP performed within 3 weeks, and compared with 136 patients with non-ultra-early CP performed within the same time period.

The inhibition of anammox system under Cu stress and mechanisms of biochar-mediated recovery.

Copper (Cu)-containing wastewater has proven difficult to effectively treat using the anammox process. In this study, the nitrogen removal efficiency (NRE), sludge characteristics, microbial community and recovery mechanisms of biochar-mediated anammox under Cu stress were elucidated. At a Custress of 5 mg/L, a 73.

A Coordination Nanosystem Enables Endogenous Ferric Ion-Initiated Multi-Catalysis for Synergistic Tumor-Specific Ferroptosis and Gene Therapy.

Emerging evidence demonstrates that inducing ferroptosis, a nonapoptotic programmed cell death mode, holds significant potential for tumor treatment. However, current ferroptosis strategies utilizing exogenous Fenton-type heavy metal species or introducing glutathione (GSH)/glutathione peroxidase 4 (GPX4) suppressants are hampered by latent adverse effects toward organisms, while utilizing endogenous iron may cause undesirable tumor angiogenesis through specific signaling pathways. Here, a ferric ion (Fe)-responsive and DNAzyme-delivered coordination nanosystem (ZDD) is developed to achieve a novel scheme of synergistic tumor-specific ferroptosis and gene therapy, which modulates and harnesses the endogenous iron in tumors for inducing ferroptosis while intercepting tumor angiogenesis to enhance therapeutic efficacy.

Nucleoside antiviral agents with atypical structures and new targets.

Nucleoside analogs (NAs), as antiviral drugs, play a significant role in clinical medicine, constituting approximately 50 % of all antiviral therapies in current use. Nucleoside inhibitors function by mimicking the structure of natural nucleosides, integrating themselves into viral genetic material during replication, and subsequently inhibiting the virus's ability to reproduce. They are used to treat a variety of viral infections, including herpes simplex, hepatitis B, and acquired immunodeficiency syndrome (AIDS).

The differential physiological responses to heat stress in the scleractinian coral Pocillopora damicornis are affected by its energy reserve.

The scleractinian corals conduct various responses upon heat stress such as bleaching and tissue loss, and colonies from the same coral species can conduct differential physiological activities with the biochemical basis unknown. In the present study, factors that influence the heat stress responses in coral Pocillopora damicornis were investigated. It was observed that P.

Ahmed glaucoma valve implantation for congenital ectropion uveae with glaucoma: A case report.

Rationale: Congenital ectropion uveae (CEU) is a rare, nonprogressive anomaly characterized by the proliferation of the iris pigment epithelium on the anterior surface of the iris, often associated with glaucoma. Due to its rarity and complexity, standardized glaucoma surgical management is limited. To our knowledge, the application of glaucoma drainage devices in CEU is rarely documented.

Cu-Catalyzed Diastereo- and Enantioselective Synthesis of Borylated Cyclopropanes with Three Contiguous Stereocenters.

Direct synthesis of enantioenriched scaffolds with multiple adjacent stereocenters remains an important yet challenging task. Herein, we describe a highly diastereo- and enantioselective Cu-catalyzed alkylboration of cyclopropenes, with less reactive alkyl iodides as electrophiles, for the efficient synthesis of -substituted borylated cyclopropanes bearing three consecutive stereocenters. This protocol features mild conditions, a broad substrate scope, and good functional group tolerance, affording an array of chiral borylated cyclopropanes in good to high yields with excellent diastereo- and enantioselectivities.

Hydrogen-bonded organic framework nanotransducers enabled sono-optogenetics for Parkinsonian rats.

Cell-type-specific activation of parvalbumin (PV)-expressing neurons in the external globus pallidus (GPe) through optogenetics has shown promise in facilitating long-lasting movement dysfunction recovery in mice with Parkinson's disease. However, its translational potential is hindered by adverse effects stemming from the invasive implantation of optical fibers into the brain. In this study, we have developed a non-invasive optogenetics approach, utilizing focused ultrasound-triggered mechanoluminescent nanotransducers to enable remote photon delivery deep in the brain for genetically targeted neuromodulation.

Valence Electron: A Descriptor of Spinel Sulfides for Sulfur Reduction Catalysis.

Catalysts are essential for achieving high-performance lithium-sulfur batteries. The precise design and regulation of catalytic sites to strengthen their efficiency and robustness remains challenging. In this study, spinel sulfides and catalyst design principles through element doping are investigated.

Critical Role of Tetrahedral Coordination in Determining the Polysulfide Conversion Efficiency on Spinel Oxides.

Understanding the structure-property relationship and the way in which catalysts facilitate polysulfide conversion is crucial for the rational design of lithium-sulfur (Li-S) battery catalysts. Herein, a series of NiAlO, CoAlO, and CuAlO spinel oxides with varying Ni, Co, or Cu tetrahedral and octahedral site occupancy are studied as Li-S battery catalysts. Combined with experimental and theoretical analysis, the tetrahedral site is identified as the most active site for enhancing polysulfide adsorption and charge transfer.

Coral-Symbiodiniaceae symbiotic associations under antibiotic stress: Accumulation patterns and potential physiological effects in a natural reef.

Antibiotics threaten scleractinian corals, but their accumulation patterns and physiological effects on corals in natural reefs remain unclear. This study investigated antibiotic occurrence in seawater and two coral species, Galaxea fascicularis and Pocillopora damicornis, and explored the physiological effects of bioaccumulated antibiotics in a fringing reef of the South China Sea. Nineteen antibiotic components were detected in seawater, with total antibiotic concentrations (ΣABs) ranging from 17.

Preliminary exploration of metagenomic sequencing for pathogenic identification in infectious uveitis.

Purpose: To evaluate the advantages and clinical utility of metagenomic sequencing (MGS) in diagnosing infectious uveitis pathogens.

Methods: A retrospective study was conducted on 20 infectious uveitis patients (20 eyes) who received treatments at the Affiliated Eye Hospital of Shandong University of Traditional Chinese Medicine from May 2020 to February 2021. Anterior aqueous humor of the patients was collected and analyzed using MGS.

Treatment of Paraclinoid Aneurysms With Stent-Assisted Coiling Versus Flow Diversion Techniques: A Systematic Review and Meta-Analysis.

Background: The stent-assisted coiling (SAC) and flow-diverter stent (FDS) techniques are widely used in the endovascular treatment of paraclinoid aneurysms. This article compares the occlusion rate, periprocedural complications, and clinical outcomes of SAC and FDSs.

Methods: Between January 2010 and December 2020, a systematic search of electronic databases identified 2283 articles for screening.

miR-135a-5p alleviates cerebral ischemia-reperfusion injury by inhibiting pyroptosis mediated through the DDX3X/NLRP3 pathway.

MicroRNAs (miRNAs) are widely involved in signal transduction and regulation during cerebral ischemia-reperfusion injury (CIRI). This study investigates the molecular mechanisms of the specific miRNA/DDX3X/NLRP3 pathway in early-stage CIRI and explores its potential clinical applications. Through public database analysis, miR-135a-5p targeting DDX3X after CIRI was determined.