Ferroptosis-related genes participate in the microglia-induced neuroinflammation of spinal cord injury via NF-κB signaling: evidence from integrated single-cell and spatial transcriptomic analysis.

Background: Ferroptosis and immune responses are critical pathological events in spinal cord injury (SCI), whereas relative molecular and cellular mechanisms remain unclear.

Methods: Micro-array datasets (GSE45006, GSE69334), RNA sequencing (RNA-seq) dataset (GSE151371), spatial transcriptome datasets (GSE214349, GSE184369), and single cell RNA sequencing (scRNA-seq) datasets (GSE162610, GSE226286) were available from the Gene Expression Omnibus (GEO) database. Through weighted gene co-expression network analysis and differential expression analysis in GSE45006, we identified differentially expressed time- and immune-related genes (DETIRGs) associated with chronic SCI and differentially expressed ferroptosis- and immune-related genes (DEFIRGs), which were validated in GSE151371.

Low clinical activity score, 'progressive' thyroid eye disease: presentations of 1439 patients from a tertiary centre in Hong Kong.

Background: To report the presenting clinical, serological and treatment profiles of 1439 patients with thyroid eye disease (TED) from a tertiary centre in Hong Kong.

Study Populations: Consecutive patients with TED presented to the Thyroid Eye Clinic (TEC), the Chinese University of Hong Kong between 2014 and 2023.

Methods: Prospective cohort and masked review of medical records and orbital images.

Strychni Semen and two alkaloidal components cause apoptosis in HK-2 cells through TRADD-MAPK/NF-κB Pathway.

Strychni Semen is the dried ripe seeds of the plant Strychnos nux-vomica L, and has great medicinal value and developmental potential.However, Strychni Semen is severely toxic, with adverse effects on the central nervous system, urinary system, and other organ systems, and severe cases can be life-threatening. The present study was to reveal the mechanism of nephrotoxicity induced by Strychni Semen and its alkaloid components using experiments.

Bifunctional modified bacterial cellulose-based hydrogel through sequence-dependent crosslinking towards enhanced antibacterial and cutaneous wound healing.

Chronic wounds caused by microbial infection have emerged as a major challenge on patients and medical health system. Bacterial cellulose (BC) characterized by its excellent biocompatibility and porous network, holds promise for addressing complex wound issues. However, lack of inherent antibacterial activity and cross-linking sites in the molecular network of BC have constrained its efficacy in hydrogel design and treatment of bacterial-infected wounds.

Promoted expression of a lipase for its application in EPA/DHA enrichment and mechanistic insights into its substrate specificity.

Expanding toolkits of EPA/DHA enrichment from natural sources is essential for better satisfying increasing demands for them. Lipase K80, from Proteus vulgaris K80, showed an application potential in EPA/DHA enrichment, whereas no desired heterologous expression in generally regarded as safe (GRAS) hosts restricted its relevant applications. In this study, expression of lipase K80 in a well-reputed GRAS host, Pichia pastoris, was achieved and further enhanced via combining disruption of its C-terminal KKL motif with co-expression of N-Acetyltransferase Mpr1, with a cumulative increment of nearly 200 % in the secretion level and the volumetric activity.