Structural characterization and potential antitumor and immunostimulatory activities of mycelial polysaccharides from Ophiocordyceps gracilis

IF 3.7 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Process Biochemistry Pub Date : 2024-11-07 DOI:10.1016/j.procbio.2024.11.001

Lingling Tong, Xinya Qi, Hui Lian, Haisheng Liu, Zilei Chen, Linhui Yang, Bo Ren, Suxing Jin, Dongsheng Guo

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引用次数: 0

Abstract

Ophiocordyceps gracilis (O. gracilis), the same genus as Ophiocordyceps sinensis, has been used as an edible medicinal fungus for many years. However, the active ingredients of O. gracilis polysaccharides remain relatively unknown. To address this, a 310.1 kDa novel polysaccharide (PDP-1a) was isolated from O. gracilis. The structural characteristics of PDP-1a were determined by different spectroscopy analyses, revealing that PDP-1a was α-glucan homologs with →4)-α-Glcp(1→ as the main chain. Furthermore, PDP-1a inhibited tumor cell proliferation, particularly in the A549 cell line, with a cell death mechanism involving cell cycle blockage, mitochondrial membrane potential reduction, and increased reactive oxygen species, thereby leading to apoptosis. Importantly, PDP-1a promotes antitumor cytokine secretion and enhances macrophage phagocytosis concentration-dependently. These findings provide a theoretical foundation for the use of O. gracilis and emphasize the potential application of PDP-1a in antitumor immunomodulatory therapy.

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草履虫菌丝多糖的结构特征及潜在抗肿瘤和免疫刺激活性

与冬虫夏草同属的麦角菌（Ophiocordyceps gracilis）多年来一直被用作食用药用真菌。然而，人们对蟛蜞菊多糖的有效成分仍然知之甚少。为了解决这个问题，我们从冬虫夏草中分离出了一种 310.1 kDa 的新型多糖（PDP-1a）。通过不同的光谱分析确定了PDP-1a的结构特征，发现PDP-1a是以→4)-α-Glcp(1→为主链的α-葡聚糖同源物。此外，PDP-1a 还能抑制肿瘤细胞的增殖，尤其是在 A549 细胞系中，其细胞死亡机制包括细胞周期阻滞、线粒体膜电位降低和活性氧增加，从而导致细胞凋亡。重要的是，PDP-1a 能促进抗肿瘤细胞因子的分泌，并能增强巨噬细胞的吞噬能力，其浓度具有依赖性。这些发现为使用O. gracilis提供了理论基础，并强调了PDP-1a在抗肿瘤免疫调节疗法中的潜在应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Process Biochemistry 生物-工程：化工

CiteScore

8.30

自引率

4.50%

发文量

374

审稿时长

53 days

期刊介绍： Process Biochemistry is an application-orientated research journal devoted to reporting advances with originality and novelty, in the science and technology of the processes involving bioactive molecules and living organisms. These processes concern the production of useful metabolites or materials, or the removal of toxic compounds using tools and methods of current biology and engineering. Its main areas of interest include novel bioprocesses and enabling technologies (such as nanobiotechnology, tissue engineering, directed evolution, metabolic engineering, systems biology, and synthetic biology) applicable in food (nutraceutical), healthcare (medical, pharmaceutical, cosmetic), energy (biofuels), environmental, and biorefinery industries and their underlying biological and engineering principles.