Self-assembled peptide-substance P hydrogels alleviate inflammation and ameliorate the cartilage regeneration in knee osteoarthritis.

IF 11.3 1区医学 Q1 Medicine

Biomaterials Research Pub Date : 2023-05-04 DOI:10.1186/s40824-023-00387-6

Sang Jun Kim, Ji Eun Kim, Goeun Choe, Da Hyun Song, Sun Jeong Kim, Tae Hee Kim, Jin Yoo, Soo Hyun Kim, Youngmee Jung

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引用次数: 1

Abstract

Background: Self-assembled peptide (SAP)-substance P (SP) hydrogels can be retained in the joint cavity longer than SP alone, and they can alleviate inflammation and ameliorate cartilage regeneration in knee osteoarthritis (OA). We conducted a preclinical study using diverse animal models of OA and an in vitro study using human synoviocytes and patient-derived synovial fluids to demonstrate the effect of SAP-SP complex on the inflammation and cartilage regeneration.

Methods: Surgical induction OA model was prepared with New Zealand white female rabbits and chemical induction, and naturally occurring OA models were prepared using Dunkin Hartely female guinea pigs. The SAP-SP complex or control (SAP, SP, or saline) was injected into the joint cavities in each model. We performed micro-computed tomography (Micro-CT) analysis, histological evaluation, immunofluorescent analysis, and terminal deoxynucleotidyl transferase deoxyuridine triphosphate nick-end labeling (TUNEL) assay and analyzed the recruitment of intrinsic mesenchymal stem cells (MSCs), macrophage activity, and inflammatory cytokine in each OA model. Human synoviocytes were cultured in synovial fluid extracted from human OA knee joints injected with SAP-SP complexes or other controls. Proliferative capacity and inflammatory cytokine levels were analyzed.

Results: Alleviation of inflammation, inhibition of apoptosis, and enhancement of intrinsic MSCs have been established in the SAP-SP group in diverse animal models. Furthermore, the inflammatory effects on human samples were examined in synoviocytes and synovial fluid from patients with OA. In this study, we observed that SAP-SP showed anti-inflammatory action in OA conditions and increased cartilage regeneration by recruiting intrinsic MSCs, inhibiting progression of OA.

Conclusions: These therapeutic effects have been validated in diverse OA models, including rabbits, Dunkin Hartley guinea pigs, and human synoviocytes. Therefore, we propose that SAP-SP may be an effective injectable therapeutic agent for treating OA. In this manuscript, we report a preclinical study of novel self-assembled peptide (SAP)-substance P (SP) hydrogels with diverse animal models and human synoviocytes and it displays anti-inflammatory effects, apoptosis inhibition, intrinsic mesenchymal stem cells recruitments and cartilage regeneration.

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自组装肽- P物质水凝胶减轻膝关节骨性关节炎的炎症和改善软骨再生。

背景:自组装肽(SAP)- P物质(SP)水凝胶在关节腔内的滞留时间比单独SP的滞留时间长，可以减轻膝关节骨性关节炎(OA)的炎症，改善软骨再生。我们使用不同的OA动物模型进行了临床前研究，并使用人滑膜细胞和患者衍生的滑膜液进行了体外研究，以证明SAP-SP复合物对炎症和软骨再生的影响。方法:采用新西兰白母兔手术诱导OA模型，化学诱导OA模型，采用Dunkin hartly雌性豚鼠自然生成OA模型。将SAP-SP复合物或对照组(SAP、SP或生理盐水)注射到每个模型的关节腔中。我们进行了显微计算机断层扫描(Micro-CT)分析、组织学评估、免疫荧光分析和末端脱氧核苷酸转移酶三磷酸脱氧尿苷镍端标记(TUNEL)分析，并分析了每个OA模型中内在间充质干细胞(MSCs)的募集、巨噬细胞活性和炎症细胞因子。人滑膜细胞在注射了SAP-SP复合物或其他对照的人OA膝关节的滑膜液中培养。分析细胞增殖能力和炎性细胞因子水平。结果:在多种动物模型中，SAP-SP组均具有减轻炎症、抑制细胞凋亡、增强内源性间充质干细胞的作用。此外，在OA患者的滑膜细胞和滑膜液中检测了人类样本的炎症效应。在这项研究中，我们观察到SAP-SP在OA条件下具有抗炎作用，并通过募集内在MSCs来增加软骨再生，抑制OA的进展。结论:这些治疗效果已在多种OA模型中得到验证，包括兔、Dunkin Hartley豚鼠和人类滑膜细胞。因此，我们认为SAP-SP可能是一种有效的治疗OA的注射药物。在这篇论文中，我们报道了一种新型自组装肽(SAP)- P物质(SP)水凝胶在不同动物模型和人类滑膜细胞中的临床前研究，它具有抗炎作用，抑制细胞凋亡，内在间充质干细胞招募和软骨再生。

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来源期刊

Biomaterials Research Medicine-Medicine (miscellaneous)

CiteScore

10.20

自引率

3.50%

发文量

审稿时长

30 days

期刊介绍： Biomaterials Research, the official journal of the Korean Society for Biomaterials, is an open-access interdisciplinary publication that focuses on all aspects of biomaterials research. The journal covers a wide range of topics including novel biomaterials, advanced techniques for biomaterial synthesis and fabrication, and their application in biomedical fields. Specific areas of interest include functional biomaterials, drug and gene delivery systems, tissue engineering, nanomedicine, nano/micro-biotechnology, bio-imaging, regenerative medicine, medical devices, 3D printing, and stem cell research. By exploring these research areas, Biomaterials Research aims to provide valuable insights and promote advancements in the biomaterials field.