Neutrophil Elastase and Neutrophil Extracellular Traps in the Tumor Microenvironment.

Huang H ，Zhang H ，Onuma AE ，Tsung A ... -  《-》

Erratum: Eyestalk Ablation to Increase Ovarian Maturation in Mud Crabs.

《Jove-Journal of Visualized Experiments》

Blockade of neutrophil extracellular trap components ameliorates cholestatic liver disease in Mdr2 (Abcb4) knockout mice.

Primary sclerosing cholangitis (PSC) is an (auto)immune-mediated cholestatic liver disease with a yet unclear etiology. Increasing evidence points to an involvement of neutrophils in chronic liver inflammation and cirrhosis but also liver repair. Here, we investigate the role of the neutrophil extracellular trap (NET) component myeloperoxidase (MPO) and the therapeutic potential of DNase I and of neutrophil elastase (NE) inhibitor GW311616A on disease outcome in the multidrug resistance 2 knockout (Mdr2-/-) mouse, a PSC animal model. Initially, we observed the recruitment of MPO expressing cells and the formation of NETs in liver biopsies of PSC patients and in Mdr2-/- livers. Furthermore, sera of Mdr2-/- mice contained perinuclear anti-neutrophil cytoplasmic antibody (p-ANCA)-like reactivity similar to PSC patient sera. Also, hepatic NE activity was significantly higher in Mdr2-/- mice than in wild type littermates. Flow cytometry analyses revealed that during disease development a highly active neutrophil subpopulation established specifically in the liver of Mdr2-/- mice. However, absence of their MPO activity, as in MPO-deficient Mdr2-/- mice, showed no effect on hepatobiliary disease severity. In contrast, clearance of extracellular DNA by DNase I reduced the frequency of liver-resident neutrophils, plasmacytoid dendritic cells (pDCs) and CD103+ conventional DCs and decreased cholangiocyte injury. Combination of DNase I with a pDC-depleting antibody was additionally hepatocyte-protective. Most importantly, GW311616A, an orally bioavailable inhibitor of human NE, attenuated hepatobiliary injury in a TNFα-dependent manner and damped hyperproliferation of biliary epithelial cells. Further, hepatic immigration and activity of CD11b+ DCs as well as the secretion of IFNγ by hepatic CD4 and CD8 T cells were reduced. Our findings delineate neutrophils as important participants in the immune cell crosstalk that drives cholestatic liver disease and identify NET components as potential therapeutic targets.

Hintermann E ，Tondello C ，Fuchs S ，Bayer M ，Pfeilschifter JM ，Taubert R ，Mollenhauer M ，Elferink RPJO ，Manns MP ，Christen U ... -  《-》

Role of microRNAs in neutrophil extracellular trap formation and prevention: Systematic narrative review.

Active neutrophils play a variety of roles in both innate and adaptive immune responses, and one of the most vital roles is the formation and release of neutrophil extracellular traps (NETs). NETs are created when neutrophils release their chromatin contents to get and eradicate pathogenic organisms essentially. While NET helps fight bacteria, viruses, parasites, and infections, it is also linked to asthma, atherosclerosis, and cancer metastasis. Thus, understanding the molecular mechanisms behind NETosis formation and its inhibition is crucial for developing safe and effective therapies. This systematic review aims to identify the list of miRNAs that are associated with the formation of NETosis and illustrate the mechanism of action by classifying them based on their expression site. Moreover, it summarizes the list of miRNAs that can be targeted therapeutically to reduce NETosis in various disorders. The current study entailed the searching of PubMed and Google Scholar for articles related to the research topic role of miRNAs in NETosis in all types of disorders. The search terms and phrases included "NETs," "neutrophil extracellular traps," "NETosis," "miRNA," "miR," and "micro-RNA." The search was limited to articles published in English since October 2024 in both databases. Following a review of 23 papers, 19 of them met the inclusion and exclusion criteria of this study. Four papers have been removed as they are duplicated or do not meet our criteria. According to the published articles till October 2024, there are 14 miRNAs involved in the molecular pathway of NETosis which are miR-155, miR-1696, miR-7, miR-223, miR-146a, miR-142a-3p, miR-3146, miR-505, miR-4512, miR-15b-5p, miR-16-5p, miR-26b-5p, miR-125a-3p and miR-378a-3p. Moreover, eight miRNAs have been identified as possible therapeutic targets for the suppression of NETosis based on in-vivo studies carried out in various organisms, which are miR-155, miR-146a, miR-1696, miR-223, miR-142a-3p, miR-3146, miR-4512, miR-16-5p. Different miRNAs that are expressed inside or outside of neutrophils can regulate and influence NETosis. Eight miRNAs have also been identified as potential therapeutic targets, which can be utilized to inhibit the molecular pathways associated with NETosis and prevent its negative effects, such as asthma, atherosclerosis, cancer metastasis, and cancer recurrence. However, further human-based research is necessary to completely understand the role of miRNAs in the development of NETosis in humans.

Hussen BM ，Rasul MF ，Faraj GSH ，Abdullah SR ，Sulaiman SH ，Pourmoshtagh H ，Taheri M ... -  《-》

Neutrophil extracellular traps in tumor progression of gynecologic cancers.

This article delves into the intricate interplay between tumors, particularly gynecologic malignancies, and neutrophil extracellular traps (NETs). The relationship between tumors, specifically gynecologic malignancies, and NETs is a multifaceted and pivotal area of study. Neutrophils, pivotal components of the immune system, are tasked with combating foreign invaders. NETs, intricate structures released by neutrophils, play a vital role in combating systemic infections but also play a role in non-infectious conditions such as inflammation, autoimmune diseases, and cancer. Cancer cells have the ability to attract neutrophils, creating tumor-associated neutrophils, which then stimulate the release of NETs into the tumor microenvironment. The impact of NETs within the tumor microenvironment is profound and intricate. They play a significant role in influencing cancer development and metastasis, as well as modulating tumor immune responses. Through the release of proteases and pro-inflammatory cytokines, NETs directly alter the behavior of tumor cells, increasing invasiveness and metastatic potential. Additionally, NETs can trigger epithelial-mesenchymal transition in tumor cells, a process associated with increased invasion and metastasis. The interaction between tumors and NETs is particularly critical in gynecologic malignancies such as ovarian, cervical, and endometrial cancer. Understanding the mechanisms through which NETs operate in these tumors can offer valuable insights for the development of targeted therapeutic interventions. Researchers are actively working towards harnessing this interaction to impede tumor progression and metastasis, opening up new avenues for future treatment modalities. As our understanding of the interplay between tumors and NETs deepens, it is anticipated that novel treatment strategies will emerge, potentially leading to improved outcomes for patients with gynecologic malignancies. This article provides a comprehensive overview of the latest research findings on the interaction between NETs and cancer, particularly in gynecologic tumors, serving as a valuable resource for future exploration in this field.

Chen H ，Zhou Y ，Tang Y ，Lan J ，Lin C ，Chen Q ，Kuang H ... -  《Frontiers in Immunology》