Discovery of a Chimeric Polyketide Family as Cancer Immunogenic Chemotherapeutic Leads.

Discovery of cancer immunogenic chemotherapeutics represents an emerging, highly promising direction for cancer treatment that uses a chemical drug to achieve the efficacy of both chemotherapy and immunotherapy. Herein, we report a high-throughput screening platform and the subsequent discovery of a new class of cancer immunogenic chemotherapeutic leads. Our platform integrates informatics-based activity metabolomics for the rapid identification of microbial natural products with both novel structures and potent activities.

Network pharmacology-based strategy to reveal Acacetin against lipopolysaccharide-induced lung injury.

Background: Acacetin, a flavonoid isolated from Agastache rugosa, exhibits diverse biological activities, such as anti-tumor, anti-inflammatory and antioxidant activities. Its role in treating Lipopolysaccharide (LPS)-induced acute lung injury (ALI) remains incompletely illuminated.

Objective: To explore the potential molecular mechanisms of Acacetin in alleviating ALI.

Involvement of gut microbiota in chlorpyrifos-induced subchronic toxicity in mice.

Chlorpyrifos (CPF) is one of the most widely used organophosphorus pesticides all over the world. Unfortunately, long-term exposure to CPF may cause considerable toxicity to organisms. Some evidence suggests that the intestinal microbial community may be involved in regulating the toxicity of CPF.

A selenium-based fluorescent sensor for the reversible detection of ClO and HS in foods.

HClO/ClO and HS are two kinds of momentous biological small molecules in the organism, and the redox balance between them is considerable for the physiological and pathological properties of organisms. Hence, it is very crucial to monitor the redox course between HClO and HS. Herein, a reversible fluorescent sensor (IPSe) for ClO and HS was firstly constructed with the selenium atom as the response site and the dicyanoisophorone as the fluorophore.

Discovery of A Chimeric Polyketide Family as Cancer Immunogenic Chemotherapeutic Leads.

Discovery of cancer immunogenic chemotherapeutics represents an emerging, highly promising direction for cancer treatment that uses a chemical drug to achieve the efficacy of both chemotherapy and immunotherapy. Herein we report a high-throughput screening platform and the subsequent discovery of a new class of cancer immunogenic chemotherapeutic leads. Our platform integrates informatics-based activity metabolomics for rapid identification of microbial natural products with both novel structures and potent activities.

Piezoelectric nanocomposite electrospun dressings: Tailoring mechanics for scar-free wound recovery.

Rational wound management and enhancing healing quality are critical in clinical practice. Electrical stimulation therapy (EST) has emerged as a valuable adjunctive treatment due to its safety and cost-effectiveness. Integrating piezoelectric materials into dressings offers a way to miniaturize and personalize electrotherapy, enhancing convenience.

Phosphor-in-Ceramic-Converted Laser-Driven Near-Infrared Light Sources for Multiple Intelligent Spectroscopy Applications.

Ultrabright broadband near-infrared (NIR) phosphor-converted laser diode (pc-LD) as a light source is increasingly essential for improving the sensitivity and spatial resolution of intelligent NIR spectroscopy technologies. However, the performance of NIR pc-LD is greatly hindered by the low external quantum efficiency (EQE) and poor thermal resistance of phosphor materials. Herein, a highly stable phosphor-in-ceramic (PiC) film deposited on high thermal conductivity substrate, in which the NIR-emitting CaMgHfGeO:Cr phosphor is incorporated into a glass-crystallized CaGaGeO ceramic matrix, along with the formation of a new type PiC composite material with high efficiency, absorbance, and thermal conductivity, is designed and prepared.

Wireless matrix metalloproteinase-9 sensing by smart wound dressing with controlled antibacterial nanoparticles release toward chronic wound management.

Chronic wounds cause serious health and economic burdens on patients and society. Herein, a wireless and flexible smart wound dressing was developed for matrix metalloproteinase-9 (MMP-9) monitoring and antimicrobial treatment toward chronic wound management. The highly sensitive radio frequency MMP-9 sensor was realized based on a bioresponsive hydrogel with the bioactive peptide sequences.

Biosynthetic enzyme analysis identifies a protective role for TLR4-acting gut microbial sulfonolipids in inflammatory bowel disease.

The trillions of microorganisms inhabiting the human gut are intricately linked to human health. While specific microbes have been associated with diseases, microbial abundance alone cannot reveal the molecular mechanisms involved. One such important mechanism is the biosynthesis of functional metabolites.

Enhancing the Efficacy of Breast Cancer Immunotherapy Using a Smac-Armed Oncolytic Virus.

It has been shown that the response rate of TNBC is dependent on the level of PD-L1 and the tumor microenvironment (TME). Approaches that alter the TME can improve the efficacy of ICIs. : We have engineered a Smac-armed oncolytic virus by inserting a Smac transgene into the genome of a vesicular stomatitis virus to generate VSV-S.

Sb dopant triggered highly efficient emission in zero-dimensional organic-inorganic hybrid metal halides.

Hybrid luminescent metal halides have attracted considerable attention for their structural diversity and versatility in photonic applications. Herein, we fabricate Sb doped organic-inorganic hybrid metal halides (DMA)CsInCl (DMA = [CHNHCH]) single crystal. Under ultraviolet light excitation, the crystals yield bright green emission at 550 nm with near-unity photoluminescence quantum efficiency (PLQY), which is attributed to the strong electronegativity and ns lone pairs of Sb dopants.

Development and validation of a risk prognostic model based on the infection phenotype for stomach adenocarcinoma.

Background: Stomach adenocarcinoma (STAD) is one of the most common malignancies. Infection of helicobacter pylori () is a major risk factor that leads to the development of STAD. This study constructed a risk model based on the -related macrophages for predicting STAD prognosis.

Seabuckthorn polysaccharides mitigate hepatic steatosis by modulating the Nrf-2/HO-1 pathway and gut microbiota.

Non-alcoholic fatty liver disease (NAFLD) is becoming a significant global public health threat. Seabuckthorn (Hippophae rhamnoides L.) has been used in traditional Chinese medicine (TCM).

Hybrid Eu(II)-bromide scintillators with efficient 5d-4f bandgap transition for X-ray imaging.

Luminescent metal halides are attracting growing attention as scintillators for X-ray imaging in safety inspection, medical diagnosis, etc. Here we present brand-new hybrid Eu(II)-bromide scintillators, 1D type [EtN]EuBr·MeOH and 0D type [MeN]EuBr·MeOH, with spin-allowed 5d-4f bandgap transition emission toward simplified carrier transport during scintillation process. The 1D/0D structures with edge/face -sharing [EuBr] octahedra further contribute to lowing bandgaps and enhancing quantum confinement effect, enabling efficient scintillation performance (light yield ~73100 ± 800 Ph MeV, detect limit ~18.

Development of ROS-sensitive capofungin hydrogel by crosslinking chitosan with four-arm polyethylene glycol derivative for treatment of vulvovaginal candidiasis.

Both exogenous and endogenous reactive oxygen species (ROS) in vulvovaginal candidiasis (VVC) play pivotal roles in promoting the hyphal formation of Candida albicans (CA), which suggests that clearing ROS could inhibit CA hyphae formation. A ROS-sensitive hydrogel (CAS@4Arm-PB/CS) was formulated by using a novel four-arm polyethylene glycol (4Arm-PEG) derivative (4Arm-PB) as a crosslinking agent, chitosan (CS) as the hydrogel matrix, and caspofungin (CAS) as the antifungal drug against CA. The ROS-sensitivity, disintegration mechanism, crosslinking action, swelling degree, microstructure, modulus, and rheological properties of 4Arm-PB were characterized.

miR-106b-5p protects against drug-induced liver injury by targeting vimentin to stimulate liver regeneration.

Understanding the endogenous mechanism of adaptive response to drug-induced liver injury (arDILI) may discover innovative strategies to manage DILI. To gain mechanistic insight into arDILI, we investigated exosomal miRNAs in the adaptive response to toosendanin-induced liver injury (TILI) of mice. Exosomal miR-106b-5p was identified as a specific regulator of arDILI by comprehensive miRNA profiling.

Reactive oxygen species sensitive nanomicelles promote the antifungal activity of ketoconazole against Candida albicans in vulvovaginal candidiasis.

Excessive local accumulation of reactive oxygen species (ROS) in vulvovaginal candidiasis (VVC) leads to oxidative stress and aggravates inflammation. This study aimed to optimize and synthesize four ROS-sensitive polyethylene glycol (PEG)-boride polymers (PB, PCB, BPB, and BCPCB). A nanomicelle (BCPCB-K) was constructed using BCPCB-encapsulated ketoconazole (KTZ).

Tim-4 alleviates acute hepatic injury by modulating homeostasis and function of NKT cells.

T-cell immunoglobulin and mucin domain-containing molecule 4 (Tim-4) is an immune checkpoint molecule, which involves in numerous inflammatory diseases. Tim-4 is mainly expressed on antigen-presenting cells. However, increasing evidence has shown that Tim-4 is also expressed on natural killer T (NKT) cells.

Walnut protein isolate-epigallocatechin gallate nanoparticles: A functional carrier enhanced stability and antioxidant activity of lycopene.

Walnut isolate protein (WPI)-epigallocatechin gallate (EGCG) conjugates can be employed to creat food-grade delivery systems for preserving bioactive compounds. In this study, WPI-EGCG nanoparticles (WENPs) were developed for encapsulating lycopene (LYC) using the ultrasound-assisted method. The results indicated successful loading of LYC into these WENPs, forming the WENPs/LYC (cylinder with 200-300 nm in length and 14.

Additive-free Absorbable Keratin Sponge With Procoagulant Activity for Noncompressible Hemostasis.

The development of a natural, additive-free, absorbable sponge with procoagulant activity for noncompressible hemostasis remains a challenging task. In this study, we extracted high molecular weight keratin (HK) from human hair and transformed it into a hemostatic sponge with a well-interconnected pore structure using a foaming technique, freeze-drying, and oxidation cross-linking. By controlling the cross-linking degree, the resulting sponge demonstrated excellent liquid absorption ability, shape recovery characteristics, and robust mechanical properties.