Varying Properties of Extracellular Matrix Grafts Impact Their Durability and Cell Attachment and Proliferation in an In Vitro Chronic Wound Model

IF 3.1 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal of Tissue Engineering and Regenerative Medicine Pub Date : 2024-04-26 DOI:10.1155/2024/6632276
Katrina A. Harmon, Miranda D. Burnette, Justin T. Avery, Kelly A. Kimmerling, Katie C. Mowry
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Abstract

While acute wounds typically progress through the phases of wound healing, chronic wounds often stall in the inflammatory phase due to elevated levels of matrix metalloproteinases (MMPs) and proinflammatory cytokines. Dysregulated expression of MMPs can result in the breakdown of extracellular matrix (ECM) formed during the wound healing process, resulting in stalled wounds. Native collagen-based wound dressings offer a potential wound management option to sequester excess MMPs and support cellular interactions that allow wound progression through the natural healing process. Herein, we utilized commercially available ECM matrices, two derived from porcine small intestinal submucosa (PCMP, 2 layers; PCMP-XT, 5 layers) and one derived from propria submucosa (ovine forestomach matrix, OFM, 1 layer), to demonstrate the impact of processing methodologies (e.g., layering and crosslinking) on functional characteristics needed for the management of chronic wounds. Grafts were evaluated for structural composition using scanning electron microscopy and histology, ability to reduce MMPs using fluorometric assays, and durability in an in vitro degradation chronic wound model. Both intact (nondegraded) and partially degraded grafts were assessed for their ability to serve as a functional cell scaffold using primary human fibroblasts. Grafts differed in matrix substructure and composition. While all grafts demonstrated attenuation of MMP activity, PCMP and PCMP-XT showed larger reductions of MMP levels. OFM rapidly degraded in the in vitro degradation model (<3 hours), while PCMP and PCMP-XT were significantly more durable (>7 days). The ability of PCMP and PCMP-XT to serve as scaffolds for cellular attachment was not impacted by degradation in vitro. Three ECM grafts with varying structural and functional characteristics exhibited differential durability when degraded in a simulated chronic wound model. Those that withstood rapid degradation maintained their ability to function as a scaffold to support attachment and proliferation of fibroblasts, a cell type important for wound healing.

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细胞外基质移植物的不同特性影响其耐久性以及体外慢性伤口模型中细胞的附着和增殖
急性伤口通常会经历伤口愈合的各个阶段,而慢性伤口则常常由于基质金属蛋白酶(MMPs)和促炎细胞因子水平升高而停滞在炎症阶段。基质金属蛋白酶(MMPs)表达失调会导致伤口愈合过程中形成的细胞外基质(ECM)被破坏,造成伤口停滞。以原生胶原蛋白为基础的伤口敷料提供了一种潜在的伤口管理选择,它能隔离过量的 MMPs 并支持细胞间的相互作用,从而使伤口在自然愈合过程中不断进展。在此,我们利用市售的 ECM 基质(两种来自猪小肠粘膜下层(PCMP,2 层;PCMP-XT,5 层),一种来自固有粘膜下层(绵羊林胃基质,OFM,1 层))来展示加工方法(如分层和交联)对慢性伤口管理所需功能特性的影响。使用扫描电子显微镜和组织学方法对移植物的结构组成、使用荧光测定法降低 MMPs 的能力以及在体外降解慢性伤口模型中的耐久性进行了评估。使用原代人类成纤维细胞评估了完整(未降解)和部分降解移植物作为功能性细胞支架的能力。移植物的基质结构和组成各不相同。虽然所有移植物的 MMP 活性都有所降低,但 PCMP 和 PCMP-XT 的 MMP 水平降低幅度更大。OFM 在体外降解模型中迅速降解(3 小时),而 PCMP 和 PCMP-XT 的耐久性明显更高(7 天)。PCMP 和 PCMP-XT 作为细胞附着支架的能力不受体外降解的影响。三种具有不同结构和功能特性的 ECM 移植物在模拟慢性伤口模型中降解时表现出不同的耐久性。耐受快速降解的移植物仍能保持其作为支架的功能,以支持成纤维细胞的附着和增殖,而成纤维细胞是一种对伤口愈合非常重要的细胞类型。
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来源期刊
CiteScore
7.50
自引率
3.00%
发文量
97
审稿时长
4-8 weeks
期刊介绍: Journal of Tissue Engineering and Regenerative Medicine publishes rapidly and rigorously peer-reviewed research papers, reviews, clinical case reports, perspectives, and short communications on topics relevant to the development of therapeutic approaches which combine stem or progenitor cells, biomaterials and scaffolds, growth factors and other bioactive agents, and their respective constructs. All papers should deal with research that has a direct or potential impact on the development of novel clinical approaches for the regeneration or repair of tissues and organs. The journal is multidisciplinary, covering the combination of the principles of life sciences and engineering in efforts to advance medicine and clinical strategies. The journal focuses on the use of cells, materials, and biochemical/mechanical factors in the development of biological functional substitutes that restore, maintain, or improve tissue or organ function. The journal publishes research on any tissue or organ and covers all key aspects of the field, including the development of new biomaterials and processing of scaffolds; the use of different types of cells (mainly stem and progenitor cells) and their culture in specific bioreactors; studies in relevant animal models; and clinical trials in human patients performed under strict regulatory and ethical frameworks. Manuscripts describing the use of advanced methods for the characterization of engineered tissues are also of special interest to the journal readership.
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