Cordyceps militaris fruit body activates myeloid dendritic cells via a Dectin-1-mediated pathway

IF 3.2 3区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular immunology Pub Date : 2024-09-27 DOI:10.1016/j.molimm.2024.09.011

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Abstract

Cordyceps militaris, an entomopathogenic fungus, has been traditionally used in East Asian medicine. Recent research indicates that the fruit bodies of C. militaris are rich in bioactive compounds, such as polysaccharides and nucleosides, which may offer health benefits. However, the specific components responsible for its immunostimulatory effects and the mechanisms involved remain unclear. This study explored the immunomodulatory activity of a fruit body extract from C. militaris, named Ryukyu-kaso (RK), and examined the effect of the β-glucan receptor Dectin-1 on bone marrow-derived dendritic cells (BMDCs). Our results demonstrated that RK, which contains 1,3-β-glucan, effectively stimulated BMDCs to secrete pro-inflammatory and immunoregulatory cytokines and upregulated surface markers indicative of maturation and activation. Notably, these immunostimulatory effects were completely absent in BMDCs derived from Dectin-1-knockout mice, confirming that Dectin-1 is crucial for RK-induced immunomodulation. These findings provide new insights into the immunostimulatory mechanisms of C. militaris and underscore the potential of RK as a natural immunomodulatory agent for various therapeutic applications.

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冬虫夏草子实体通过 Dectin-1 介导的途径激活髓系树突状细胞

冬虫夏草是一种昆虫病原真菌，历来被用于东亚医药。最近的研究表明，冬虫夏草的子实体富含生物活性化合物，如多糖和核苷，可能对健康有益。然而，其免疫刺激作用的具体成分和相关机制仍不清楚。本研究探讨了一种名为琉球卡索（Ryukyu-kaso，RK）的琉球杉果体提取物的免疫调节活性，并研究了β-葡聚糖受体 Dectin-1 对骨髓树突状细胞（BMDCs）的影响。我们的研究结果表明，含有 1,3-β 葡聚糖的 RK 能有效刺激骨髓树突状细胞分泌促炎和免疫调节细胞因子，并上调表明其成熟和活化的表面标志物。值得注意的是，Dectin-1 基因敲除小鼠的 BMDCs 完全没有这些免疫刺激作用，这证实了 Dectin-1 对 RK 诱导的免疫调节至关重要。这些研究结果为我们提供了关于绿茶藨草免疫刺激机制的新见解，并强调了绿茶藨草作为天然免疫调节剂在各种治疗应用中的潜力。

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来源期刊

Molecular immunology 医学-免疫学

CiteScore

6.90

自引率

2.80%

发文量

324

审稿时长

50 days

期刊介绍： Molecular Immunology publishes original articles, reviews and commentaries on all areas of immunology, with a particular focus on description of cellular, biochemical or genetic mechanisms underlying immunological phenomena. Studies on all model organisms, from invertebrates to humans, are suitable. Examples include, but are not restricted to: Infection, autoimmunity, transplantation, immunodeficiencies, inflammation and tumor immunology Mechanisms of induction, regulation and termination of innate and adaptive immunity Intercellular communication, cooperation and regulation Intracellular mechanisms of immunity (endocytosis, protein trafficking, pathogen recognition, antigen presentation, etc) Mechanisms of action of the cells and molecules of the immune system Structural analysis Development of the immune system Comparative immunology and evolution of the immune system "Omics" studies and bioinformatics Vaccines, biotechnology and therapeutic manipulation of the immune system (therapeutic antibodies, cytokines, cellular therapies, etc) Technical developments.