Curcuma longa rhizome extract: a potential antibiofilm agent against antibiotic-resistant foodborne pathogens.

IF 2.6 3区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biofouling Pub Date : 2024-11-01 Epub Date: 2024-12-03 DOI:10.1080/08927014.2024.2432963

Abeni Beshiru, Isoken H Igbinosa, Joshua O Salami, Kate E Uwhuba, Abraham G Ogofure, Gift M Azazi, Bright E Igere, Bala Anegbe, Uduenevwo F Evuen, Etinosa O Igbinosa

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Abstract

The traditional medicinal value of Curcuma longa (turmeric) and its potential relevance in modern healthcare suggests that traditional remedies and natural products can provide valuable solutions to contemporary challenges, such as combating biofilms and antibiotic-resistant pathogens, potentially offering new strategies for addressing health and safety issues in the fields of food and medicine. This study assessed the antibiofilm and antibacterial characterization of Curcuma longa rhizome extract against antibiotic-resistant foodborne pathogens. Gas Chromatography-Mass Spectrometry (GC-MS) and Fourier-transform infrared (FTIR) analysis were determined to check for the compounds, functional groups, and constituents of the plant extract. In-vitro antibiofilm and antibacterial bioassay of the extract were determined using standard bacteriological procedures. Potential mechanisms of the plant extract were also studied using standard biological methods. The important chemical constituents from the GC-MS extract of C. longa are arturmerone, cinnamyl angelate, tumerone, γ-atlantone, atlantone, α-atlantone, γ-atlantone and curlone. The FTIR analysis of the extract comprises alkyl halides, bromoalkanes, alkanes, ethylene molecules, arenes, amines, alcohols, sulfones, carboxylic acids and their derivatives, aromatic compounds, and phenols. The MIC of C. longa crude extract ranges from ethanol extract (0.03125 - 0.5 mg/mL) and acetone extract (0.0625 - 0.5 mg/mL). The MBC range is as follows: ethanol extract (0.125 - 1 mg/mL), acetone extract (0.125 - 1 mg/mL). The time-kill kinetics showed significant cell reduction with time. The bacterial isolates' nucleic acids and protein leakage were consistent with increased extract concentration and time. There was a reduction in the biofilm cell on the shrimp surface and EPS with increased concentration and time. C. longa exerted significant anti-biofilm activity by removing existing biofilms, disrupting cell connections, and decreasing cells in biofilms. These findings can aid food protection from microbial contamination and prevent biofilms-related infections.

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姜黄根茎提取物：抗耐药食源性病原体的潜在抗生素膜剂。

姜黄的传统药用价值及其在现代医疗保健中的潜在相关性表明，传统疗法和天然产品可以为当代挑战提供有价值的解决方案，例如对抗生物膜和耐抗生素病原体，可能为解决食品和医药领域的健康和安全问题提供新的战略。本研究评价了姜黄根茎提取物对耐药食源性病原菌的抗菌膜及抑菌特性。采用气相色谱-质谱（GC-MS）和傅里叶变换红外（FTIR）分析检查植物提取物的化合物、官能团和成分。采用标准细菌学方法测定提取物的体外抗菌膜和抗菌生物测定。用标准的生物学方法研究了植物提取物的潜在作用机制。GC-MS提取液中主要化学成分有：黄酮、肉桂基天使酸酯、黄酮、γ-亚特兰大酮、亚特兰大酮、α-亚特兰大酮、γ-亚特兰大酮和屈酮。提取物的FTIR分析包括烷基卤化物、溴烷、烷烃、乙烯分子、芳烃、胺、醇、砜、羧酸及其衍生物、芳香族化合物和酚类。龙骨粗提物的MIC为乙醇提取物（0.03125 ~ 0.5 mg/mL）和丙酮提取物（0.0625 ~ 0.5 mg/mL）。MBC范围为：乙醇提取物（0.125 ~ 1 mg/mL），丙酮提取物（0.125 ~ 1 mg/mL）。时间杀伤动力学显示细胞随时间显著减少。分离菌的核酸和蛋白渗漏与提取液浓度和时间的增加一致。随着浓度和时间的增加，虾表面的生物膜细胞和EPS减少。C. longa通过去除已有的生物膜、破坏细胞连接、减少生物膜中的细胞数量，发挥了显著的抗生物膜活性。这些发现有助于食品免受微生物污染和预防生物膜相关感染。

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来源期刊

Biofouling 生物-海洋与淡水生物学

CiteScore

5.00

自引率

7.40%

发文量

审稿时长

1.7 months

期刊介绍： Biofouling is an international, peer-reviewed, multi-discliplinary journal which publishes original articles and mini-reviews and provides a forum for publication of pure and applied work on protein, microbial, fungal, plant and animal fouling and its control, as well as studies of all kinds on biofilms and bioadhesion. Papers may be based on studies relating to characterisation, attachment, growth and control on any natural (living) or man-made surface in the freshwater, marine or aerial environments, including fouling, biofilms and bioadhesion in the medical, dental, and industrial context. Specific areas of interest include antifouling technologies and coatings including transmission of invasive species, antimicrobial agents, biological interfaces, biomaterials, microbiologically influenced corrosion, membrane biofouling, food industry biofilms, biofilm based diseases and indwelling biomedical devices as substrata for fouling and biofilm growth, including papers based on clinically-relevant work using models that mimic the realistic environment in which they are intended to be used.