Uncovering the antiinflammatory potential of Lactiplantibacillus Plantarum fermented Cannabis Sativa L seeds

IF 6.3 1区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
LingYue Shan, Akanksha Tyagi, Hun-Ju Ham, Deog Hwan Oh
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Abstract

Inflammation acts as a dual role in disease initiation and progression, while Cannabis sativa L. (hemp) seeds, known for their abundance of anti-inflammatory phytochemicals, present a promising food source. Additionally, fermentation may optimize the food matrix, thereby augmenting its developmental prospects. This study explores the anti-inflammatory potential of hemp seeds fermented with 10 different probiotic strains. Among these, Lactiplantibacillus plantarum fermented hemp seeds (FHS) demonstrated a significant anti-inflammatory ability, accompanied by a reduction in the expression of critical inflammatory markers such as TLR4, NF-κBp65, and iNOS. Moreover, there is a noteworthy dose-dependent inhibition of inflammatory cytokines TNF-α, IL-6, IL-1β, and NO within a concentration range of 50 to 500 µg/mL. Subsequently, metabolomics analysis using UHPLC-QTOF-MS highlighted significant metabolic alterations in FHS compared to raw hemp seeds (RHS). Through multivariate, univariate, and correlation analyses, indolelactic acid (IA) and homovanillic acid (HVA) emerged as the main anti-inflammatory metabolites in FHS. Validation via HPLC confirmed the concentration of IA and HVA in RHS and FHS and both organic acids demonstrated lower IC50 values for TNF-α, IL-1β, IL-6, IL-18, and NO inhibition, showcasing their potent anti-inflammatory abilities. Furthermore, in vitro gastro-intestinal digestion coupled with the Caco-2 cell monolayer model validates the uptake and bioaccessibility of FHS, further affirming IA and HVA as major anti-inflammatory compounds. Overall, this research sets the stage for the development of novel hemp seed-based products targeting inflammation-associated disorders.

Abstract Image

Abstract Image

发现植物乳杆菌发酵大麻籽的抗炎潜力
炎症在疾病的发生和发展中起着双重作用,而大麻籽因含有丰富的抗炎植物化学物质而闻名,是一种很有前景的食物来源。此外,发酵可优化食物基质,从而增强其发展前景。本研究探讨了用 10 种不同益生菌株发酵的大麻籽的抗炎潜力。其中,植物乳杆菌(Lactiplantibacillus plantarum)发酵大麻籽(FHS)表现出显著的抗炎能力,同时降低了关键炎症标志物(如 TLR4、NF-κBp65 和 iNOS)的表达。此外,在 50 至 500 微克/毫升的浓度范围内,对炎症细胞因子 TNF-α、IL-6、IL-1β 和 NO 的抑制具有显著的剂量依赖性。随后,利用 UHPLC-QTOF-MS 进行的代谢组学分析显示,与生大麻籽(RHS)相比,FHS 的代谢发生了显著变化。通过多变量、单变量和相关分析,吲哚乳酸(IA)和高香草酸(HVA)成为 FHS 中主要的抗炎代谢物。通过高效液相色谱验证,确认了吲哚乳酸(IA)和高香草酸(HVA)在 RHS 和 FHS 中的浓度,这两种有机酸对 TNF-α、IL-1β、IL-6、IL-18 和 NO 抑制作用的 IC50 值较低,显示了其强大的抗炎能力。此外,体外胃肠道消化和 Caco-2 细胞单层模型验证了 FHS 的吸收和生物可及性,进一步肯定了 IA 和 HVA 作为主要抗炎化合物的作用。总之,这项研究为开发针对炎症相关疾病的新型大麻籽产品奠定了基础。
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
NPJ Science of Food
NPJ Science of Food FOOD SCIENCE & TECHNOLOGY-
CiteScore
7.50
自引率
1.60%
发文量
53
期刊介绍: npj Science of Food is an online-only and open access journal publishes high-quality, high-impact papers related to food safety, security, integrated production, processing and packaging, the changes and interactions of food components, and the influence on health and wellness properties of food. The journal will support fundamental studies that advance the science of food beyond the classic focus on processing, thereby addressing basic inquiries around food from the public and industry. It will also support research that might result in innovation of technologies and products that are public-friendly while promoting the United Nations sustainable development goals.
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