3D Approaches to Culturing Bovine Skin: Explant Culture versus Organotypic Skin Model.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-01 Epub Date: 2024-03-21 DOI:10.1159/000538438
Christina-Marie Baumbach, Nadia Ayurini Anantama, Vuk Savkovic, Christoph K W Mülling, Jan Schinköthe, Jule Kristin Michler
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Abstract

Introduction: Digital dermatitis (DD) in cattle appears with high prevalence; nevertheless, the knowledge on its pathogenesis is still limited. In this context, in vitro skin models represent a valuable tool to facilitate the study of DD.

Methods: Two in vitro skin models were established using bovine distal limb skin: a skin explant model and an organotypic skin model. For the skin explant model, skin samples were cultured with an air-liquid interface for up to 7 days. Besides routine histopathological examination, readout parameters were Ki-67 and cleaved Caspase-3 stainings. For the organotypic model, primary keratinocytes were layered on top of a dermal equivalent containing mainly mitotically inactive fibroblasts and maintained for up to 21 days. At regular intervals (days 7, 14, and 21), cultured skin samples were taken for (immuno)histological analysis.

Results: Both cultures could be maintained for the entire duration of the intended culture period. In the histopathological assessment, explant skin cultures showed ballooning degeneration of keratinocytes and segmental necrosis starting at day 5 of culturing. Initially, basal keratinocytes in the organotypic model differentiated as demonstrated by positive Keratin 14, Desmoglein-1, Loricrin, and Involucrin immunofluorescent stainings. Ki-67 was observed occasionally and suprabasally still after 21 days of culture.

Conclusion: Both in vitro models proved dependable and constitute a viable option for replacing experiments on live animals, each with its own benefits. Whereas skin explants include all cell types available in vivo and can therefore reflect realistic cell-cell interactions and signaling pathways, the organotypic model offers a higher standardization and reproducibility. Depending on the focus of future studies, both models can be used for specific experimental purposes of bovine dermatological research in general or specialized questions concerning (infectious) claw diseases as, e.g., DD.

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牛皮肤的三维培养方法:外植体培养与有机皮肤模型。
导言:牛的数字皮炎(DD)发病率很高,但人们对其发病机理的了解仍然有限。在这种情况下,体外皮肤模型是促进 DD 研究的重要工具:方法:使用牛远端肢体皮肤建立了两种体外皮肤模型:皮肤外植体模型和有机皮肤模型。在皮肤外植体模型中,皮肤样本在空气-液体界面中培养长达 7 天。除常规组织病理学检查外,Ki-67和裂解Caspase-3染色也是读出参数。在有机模型中,原代角质形成细胞被分层置于主要含有无有丝分裂活性成纤维细胞的真皮等效物之上,并维持长达 21 天。每隔一段时间(第 7、14 和 21 天),采集培养的皮肤样本进行(免疫)组织学分析:结果:两种培养物都能在预定的整个培养期内保持稳定。在组织病理学评估中,外植体皮肤培养物在培养第 5 天开始出现角质细胞气球变性和节段性坏死。最初,器官型模型中的基底角质细胞分化,表现为角蛋白 14、Desmoglein-1、Loricrin 和 Involucrin 免疫荧光染色阳性。在培养 21 天后,偶尔仍能观察到 Ki-67,而且是在基底上:两种体外模型都证明是可靠的,是替代活体动物实验的可行选择,各有各的好处。皮肤外植体包括体内所有细胞类型,因此能反映真实的细胞-细胞相互作用和信号传导途径,而器官模型则具有更高的标准化和可重复性。根据未来研究的重点,这两种模型都可用于牛皮肤病研究的一般特定实验目的或有关(传染性)爪病(如 DD)的专门问题。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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