Hydrophobic Poly(divinylbenzene) Polymer-Supported Ruthenium Catalysts for Efficient Hydrogenation of Pyridines in Water.

Gas-liquid-solid triphase reactions are limited by poor gas solubility and mass transfer, especially in water. The low solubility of hydrogen in water severely hinders the hydrogenation, therefore requiring high temperature and pressure to increase the activity, which have safety and cost concerns. Herein, we report a hydrophobic poly(divinylbenzene) polymer-supported Ru nanoparticle catalyst (Ru/PDVB) with both high activity and excellent stability for the hydrogenation of pyridines in water, even at ambient hydrogen pressure (0.

Identifying the determinants of natural, anthropogenic factors and precursors on PM pollution in urban agglomerations in China: Insights from optimal parameter-based geographic detector and robust geographic weighted regression models.

Revealing the spatial disparities and driving factors of PM pollution is crucial for controlling atmospheric pollution. However, the nexus between PM pollution and driving forces has rarely been examined, traditional geographic detector models ignore the shortcomings of data discretization methods determined by experience, and the spatial nonstationary effect of dominant factors on PM has not been considered. In this study, a comprehensive modelling framework was proposed that integrated optimal parameter-based geographic detector (OPGD) and robust geographic weighted regression (RGWR) models to explore the influence intensities, interactions and spatial heterogeneity effects of natural factors, anthropogenic factors and precursors on PM at the urban agglomeration scale in China.

Reprogramming to restore youthful epigenetics of senescent nucleus pulposus cells for mitigating intervertebral disc degeneration and alleviating low back pain.

Aging is a pivotal risk factor for intervertebral disc degeneration (IVDD) and chronic low back pain (LBP). The restoration of aging nucleus pulposus cells (NPCs) to a youthful epigenetic state is crucial for IVDD treatment, but remains a formidable challenge. Here, we proposed a strategy to partially reprogram and reinstate youthful epigenetics of senescent NPCs by delivering a plasmid carrier that expressed pluripotency-associated genes (Oct4, Klf4 and Sox2) in Cavin2-modified exosomes (OKS@M-Exo) for treatment of IVDD and alleviating LBP.

An anti-senescence hydrogel with pH-responsive drug release for mitigating intervertebral disc degeneration and low back pain.

Oxidative stress and aging lead to progressive senescence of nucleus pulposus (NP) cells, resulting in intervertebral disc (IVD) degeneration (IVDD). In some cases, degenerative IVD can further cause low back pain (LBP). Several studies have confirmed that delaying and rejuvenating the senescence of NP cells can attenuate IVDD.

Injectable pathological microenvironment-responsive anti-inflammatory hydrogels for ameliorating intervertebral disc degeneration.

Chronic local inflammation and resulting cellular dysfunction of nucleus pulposus (NP) cells are important pathogenic factors of intervertebral disc degeneration (IDD). Injectable pathological microenvironment-responsive hydrogels hold significant potential for treating IDD by adapting to dynamic microenvironment of IDD. Herein, we proposed an injectable gelatin-based hydrogel drug delivery system that could respond to the pathological microenvironment of IDD for controlled release of anti-inflammatory drug to promote degenerative NP repair.

Meniscus-Inspired Self-Lubricating and Friction-Responsive Hydrogels for Protecting Articular Cartilage and Improving Exercise.

Meniscus injuries are associated with the degeneration of cartilage and development of osteoarthritis (OA). It is challenging to protect articular cartilage and improve exercise when a meniscus injury occurs. Herein, inspired by the components and functions of the meniscus, we developed a self-lubricating and friction-responsive hydrogel that contains nanoliposomes loaded with diclofenac sodium (DS) and Kartogenin (KGN) for anti-inflammation and cartilage regeneration.

Rapidly forming an injectable Chitosan/PEG hydrogel for intervertebral disc repair.

Intervertebral disc (IVD) degeneration occurred with the increasing age or accidents has puzzled peoples in daily life. To seal IVD defect by injectable hydrogels is a promising method for slowing down IVD degeneration. Herein, we reported a rapidly forming injectable chitosan/PEG hydrogel (CSMA-PEGDA-L) through integrating photo-crosslink of methacrylate chitosan (CSMA) with Schiff base reaction between CSMA and aldehyde polyethylene glycol (PEGDA).

Epigenetics-inspired photosensitizer modification for plasma membrane-targeted photodynamic tumor therapy.

In recent years, epigenetics has attracted great attentions in the field of biomedicine, which is used to denote the heritable changes in gene expression without any variation in DNA sequence, including DNA methylation, histone modification and so on. Inspired by it, a simple and versatile amino acids modification strategy is proposed in this paper to regulate the subcellular distribution of photosensitizer for plasma membrane targeted photodynamic therapy (PDT). Particularly, the plasma membrane anchoring ability and photo toxicity of the photosensitizer against different cell lines could be effectively manipulated at a single amino acid level.

Chimeric peptide engineered exosomes for dual-stage light guided plasma membrane and nucleus targeted photodynamic therapy.

Targeted delivery of the drug to its therapeutically active site with low immunogenicity and system toxicity is critical for optimal tumor therapy. In this paper, exosomes as naturally-derived nano-sized membrane vesicles are engineered by chimeric peptide for plasma membrane and nucleus targeted photosensitizer delivery and synergistic photodynamic therapy (PDT). Importantly, a dual-stage light strategy is adopted for precise PDT by selectively and sequentially destroying the plasma membrane and nucleus of tumor cells.

Ratiometric theranostic nanoprobe for pH imaging-guided photodynamic therapy.

An abnormal pH microenvironment results from the development of tumors, and also affects the therapeutic efficiency of anti-tumor drugs. In this work, a Förster resonance energy transfer (FRET)-based theranostic fluorescent nanoprobe was constructed for simultaneous ratiometric pH sensing and tumor-targeted photodynamic therapy. Based on the FRET process between rhodamine B and protoporphyrin IX (PpIX), the fabricated nanoprobe exhibited excellent pH responsiveness in both solutions and live cells with the ratiometric fluorescence changes.

A Self-Delivery Chimeric Peptide for Photodynamic Therapy Amplified Immunotherapy.

In this paper, a self-delivery chimeric peptide PpIX-PEG -KVPRNQDWL is designed for photodynamic therapy (PDT) amplified immunotherapy against malignant melanoma. After self-assembly into nanoparticles (designated as PPMA), this self-delivery system shows high drug loading rate, good dispersion, and stability as well as an excellent capability in producing reactive oxygen species (ROS). After cellular uptake, the ROS generated under light irradiation could induce the apoptosis and/or necrosis of tumor cells, which would subsequently stimulate the anti-tumor immune response.

Mitochondria and plasma membrane dual-targeted chimeric peptide for single-agent synergistic photodynamic therapy.

Mitochondria and cell membrane play important roles in maintaining cellular activity and stability. Here, a single-agent self-delivery chimeric peptide based nanoparticle (designated as M-ChiP) was developed for mitochondria and plasma membrane dual-targeted photodynamic tumor therapy. Without additional carrier, M-ChiP possessed high drug loading efficacy as well as the excellent ability of producing reactive oxygen species (ROS).

An azobenzene-based heteromeric prodrug for hypoxia-activated chemotherapy by regulating subcellular localization.

An azobenzene-based heteromeric prodrug (hNDP) was prepared for targeted chemotherapy against hypoxic tumor. hNDP could divert the parent drug from nucleus to cytoplasm with lower toxicity, while the azoreduction of hNDP in hypoxia would activate the drug with a robust anti-tumor effect by initiating the apoptosis-related biochemical cascades.