An in vitro model demonstrating homeostatic interactions between reconstructed human gingiva and a saliva-derived multispecies biofilm.

IF 13.8 1区生物学 Q1 MICROBIOLOGY

Microbiome Pub Date : 2025-02-28 DOI:10.1186/s40168-025-02033-w

Lin Shang, Sanne Roffel, Vera Slomka, Eleanor M D'Agostino, Aline Metris, Mark J Buijs, Bernd W Brandt, Dongmei Deng, Susan Gibbs, Bastiaan P Krom

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引用次数: 0

Abstract

Background: In the oral cavity, host-microbe interactions (HMI) continuously occur and greatly impact oral health. In contrast to the well-studied disease-associated HMI during, for example, periodontitis, HMI that are essential in maintaining oral health have been rarely investigated, especially in a human-relevant context. The aim of this study was to extensively characterize homeostatic HMI between saliva-derived biofilms and a reconstructed human gingiva (RHG). RHG was reconstructed following the structure of native gingiva, composed of a multilayered epithelium formed by keratinocytes and a fibroblast-populated compartment. To mimic the oral environment, RHG were inoculated with pooled human saliva resuspended in different saliva substitute media and incubated for 2 or 4 days. The co-cultured biofilms were retrieved and characterized by viable bacterial counting and compositional profiling (16S rRNA gene sequencing). RHG was investigated for metabolic activity (MTT assay), tissue histology (hematoxylin and eosin staining), epithelial proliferation (Ki67 staining), antimicrobial peptide expression, and cytokine secretion.

Results: Viable biofilms were detected up to day 4 of co-culturing. Bacterial counts indicated biofilm growth from the inoculation to day 2 and maintained thereafter at a similar level until day 4. All biofilms shared similar composition throughout 4 days, independent of co-culture time and different saliva substitute media used during inoculation. Biofilms were diverse with Streptococcus, Haemophilus, and Neisseria being the dominating genera. While supporting biofilm development, RHG displayed no significant changes in metabolic activity, tissue histology, or epithelial proliferation. However, in the presence of biofilms, the antimicrobial peptides elafin and human β-defensin-2 were upregulated, and the secretion of cytokines IL-6, CXCL1, CXCL8, CCL5, and CCL20 increased.

Conclusion: This model mimicked homeostatic HMI where a healthy gingiva supported a viable, diverse, and stable microbial community, incorporating bacterial genera found on native gingiva. The gingiva model maintained its tissue integrity and exerted protective responses in the presence of biofilms over time. This study adds to the evidence that shows the important role of the host in maintaining homeostatic HMI that are essential for oral health. Video Abstract.

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一个体外模型，展示了重建的人类牙龈与唾液衍生的多物种生物膜之间的同态相互作用。

背景：在口腔中，宿主与微生物之间的相互作用（HMI）不断发生，并对口腔健康产生重大影响。与研究较多的牙周炎等疾病相关的宿主-微生物相互作用相比，对维持口腔健康至关重要的宿主-微生物相互作用却鲜有研究，尤其是在与人类相关的情况下。本研究旨在广泛描述唾液衍生生物膜与重建人类牙龈（RHG）之间的同态 HMI。RHG 是按照原生牙龈的结构重建的，由角质形成的多层上皮细胞和成纤维细胞组成。为了模拟口腔环境，将汇集的人类唾液重新悬浮在不同的唾液替代培养基中接种到 RHG 上，并培养 2 或 4 天。回收共培养的生物膜，并通过存活细菌计数和成分分析（16S rRNA 基因测序）对其进行鉴定。对 RHG 的代谢活性（MTT 试验）、组织组织学（苏木精和伊红染色）、上皮细胞增殖（Ki67 染色）、抗菌肽表达和细胞因子分泌进行了研究：结果：在共培养的第 4 天就能检测到有活力的生物膜。细菌计数显示，从接种到第 2 天，生物膜一直在生长，此后直到第 4 天，生物膜一直保持在类似水平。所有生物膜在 4 天内都有相似的组成，与共培养时间和接种时使用的不同唾液替代培养基无关。生物膜种类繁多，链球菌、嗜血杆菌和奈瑟氏菌是主要的菌属。在支持生物膜发展的同时，RHG 在代谢活动、组织学或上皮增殖方面没有显示出明显的变化。然而，在生物膜存在的情况下，抗菌肽 elafin 和人β-防御素-2 上调，细胞因子 IL-6、CXCL1、CXCL8、CCL5 和 CCL20 的分泌增加：该模型模拟了健康牙龈支持有活力、多样化和稳定的微生物群落的同态 HMI，其中包含了在本地牙龈上发现的细菌属。随着时间的推移，该牙龈模型能保持组织的完整性，并在生物膜的存在下发挥保护作用。这项研究提供了更多证据，表明宿主在维持对口腔健康至关重要的同态 HMI 方面发挥着重要作用。视频摘要。

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

Microbiome MICROBIOLOGY-

CiteScore

21.90

自引率

2.60%

发文量

198

审稿时长

4 weeks

期刊介绍： Microbiome is a journal that focuses on studies of microbiomes in humans, animals, plants, and the environment. It covers both natural and manipulated microbiomes, such as those in agriculture. The journal is interested in research that uses meta-omics approaches or novel bioinformatics tools and emphasizes the community/host interaction and structure-function relationship within the microbiome. Studies that go beyond descriptive omics surveys and include experimental or theoretical approaches will be considered for publication. The journal also encourages research that establishes cause and effect relationships and supports proposed microbiome functions. However, studies of individual microbial isolates/species without exploring their impact on the host or the complex microbiome structures and functions will not be considered for publication. Microbiome is indexed in BIOSIS, Current Contents, DOAJ, Embase, MEDLINE, PubMed, PubMed Central, and Science Citations Index Expanded.