摘要: Interleukin-12 (IL-12) holds significant potential in cancer therapy; however, its clinical applicability is hindered by dose-limiting toxicity. Delivery of the IL-12 gene directly to tumours for constitutive IL-12 expression is a possible strategy to enhance its effectiveness while minimizing systemic toxicity. In this study, we investigate the potential of red blood cell-derived extracellular vesicles (RBCEVs) as a carrier for Il-12 plasmid delivery. We demonstrate that RBCEVs can be loaded with minicircle plasmid encoding IL-12 and delivered to MB49 bladder cancer cells for IL-12 expression. The expression of transgenes from minicircles was significantly higher than from the parental plasmids. RBCEV-mediated IL-12 expression stimulated immune responses in mouse splenocytes. Intratumoral delivery of Il-12 plasmid-loaded RBCEVs suppressed bladder cancer tumour growth, stimulated immune responses and promoted immune cell infiltration. In conclusion, our study demonstrates the promising potential of RBCEVs as an effective, safe and redosable nucleic acid drug delivery platform for IL-12.

摘要: This study aimed to investigate the impact of repetitive transcranial magnetic stimulation (rTMS) on cognitive recovery in Alzheimer's disease (AD) by exploring the role of GABAergic neuron activation and modulation of the Cx3cl1-Cx3cr1 signalling axis. The 5xFAD mouse model was utilised for scRNA-seq analysis to examine changes in gene expression post-rTMS. Microglial phagocytic activity, amyloid plaque burden, cell-cell communication, microglial morphology and neuroinflammation markers were assessed. Following rTMS, upregulation of Cx3cl1 in GABAergic neurons was observed, leading to enhanced microglial phagocytosis, reduced amyloid plaque burden, improved cell-cell communication, altered microglial morphology and decreased neuroinflammation markers. This study demonstrates that rTMS promotes A beta clearance and cognitive recovery in AD by activating GABAergic neurons and enhancing Cx3cl1-Cx3cr1 signalling, providing a novel molecular target for non-invasive AD therapy. These findings support the transition from invasive to non-invasive AD treatments, improving patient adherence and therapeutic outcomes. Furthermore, the elucidation of cellular and molecular mechanisms facilitates drug development targeting the Cx3cl1-Cx3cr1 axis, offering new opportunities for AD intervention.

摘要: Abnormalities in alternative splicing are a hallmark of cancer formation. In this study, we investigated the role of the splicing factor PHD finger protein 5A (PHF5A) in melanoma. Malignant melanoma is the deadliest form of skin cancer, and patients with a high PHF5A expression show poor overall survival. Our data revealed that an siRNA-mediated downregulation of PHF5A in different melanoma cell lines leads to massive splicing defects of different tumour-relevant genes. The loss of PHF5A results in an increased rate of apoptosis by triggering Fas- and unfolded protein response (UPR)-mediated apoptosis pathways in melanoma cells. These findings are tumour-specific because we did not observe this regulation in fibroblasts. Our study identifies a crucial role of PHF5A as driver for melanoma malignancy and the described underlying splicing network provides an interesting basis for the development of new therapeutic targets for this aggressive form of skin cancer.

摘要: Bone metastasis (BM) is a mortality-related event of late-stage cancer, with non-small cell lung cancer (NSCLC) being a common origin for BM. However, the detailed molecular profiling of the metastatic bone ecosystem is not fully understood, hindering the development of effective therapies for advanced patients. In this study, we examined the cellular heterogeneity between primary tumours and BM from tissues and peripheral blood by single-cell transcriptomic analysis, which was verified using multiplex immunofluorescence staining and public datasets. Our results demonstrate a senescent microenvironment in BM tissues of NSCLC. BM has a significantly higher infiltration of malignant cells with senescent characteristics relative to primary tumours, accompanied by aggravated metastatic properties. The endothelial-mesenchymal transition involved with SOX18 activation is related to the cellular senescence of vascular endothelial cells from BM. CD4Tstr cells, with pronounced stress and senescence states, are preferentially infiltrated in BM, indicating stress-related dysfunction contributing to the immunocompromised environment during tumour metastasis to bone. Moreover, we identify the SPP1 pathway-induced cellular crosstalk among T cells, vascular ECs and malignant cells in BM, which activates SOX18 and deteriorates patient survival. Our findings highlight the roles of cellular senescence in modulating the microenvironment of BM and implicate anti-senescence therapy for advanced NSCLC patients. The NSCLC bone metastases demonstrate a senescent microenvironment characterized by aggravated metastatic properties of cancer cells, vascular ECs undergoing EndMT and increased infiltration of CD4Tstr cells. The SPP1 pathway may induce cellular communication among T cells, vascular ECs and malignant cells, shaping a pro-angiogenic microenvironment that contributes to bone metastasis.image

摘要: The aim is to explore the mechanisms underlying pain development in chronic prostatitis and identify therapeutic targets for pain management in patients with chronic prostatitis. RNA sequence of the spinal cord dorsal horns and proteomic analysis of spinal macrophages of experimental autoimmune prostatitis (EAP) mice were conducted to identify pain-related genes, proteins and signalling pathways. The clodronate liposome, CXCR3 and P-STAT3 inhibitors, NGF antibody and cromolyn sodium were used to investigate the roles of the CXCL10/CXCR3, JAK/STAT3 and NGF/TrKA pathways in spinal macrophage recruitment and pain response. Finally, prostate tissues from benign prostate hyperplasia (BPH) patients were collected to validate the aforementioned results. Neuron and astrocyte-derived CXCL10 was associated with spinal macrophage recruitment, and CXCL10/CXCR3 axis could regulate the chemotaxis of macrophage to the spinal cord in EAP mice. Results of proteomic analysis found that CXCL10 could regulate the JAK/STAT3 pathway to mediate neuroinflammation in EAP, which was validated in vivo and in vitro experiments. The number of mast cells and expressions of NGF, TrKA and PGP9.5 increased in the prostates of EAP mice and BPH patients, and targeting NGF could reduce spinal macrophage recruitment and pain response. NGF was the triggering factor to induce chemotaxis of spinal macrophages and neuroinflammation, and the CXCL10/CXCR3 axis and JAK/STAT3 pathway was involved in spinal macrophage recruitment and infiltration, which provided therapeutic targets for pain management.