Control of tissue homeostasis by the extracellular matrix: Synthetic heparan sulfate as a promising therapeutic for periodontal health and bone regeneration.

IF 17.5 1区 医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE Periodontology 2000 Pub Date : 2024-02-01 Epub Date: 2023-08-24 DOI:10.1111/prd.12515
P A Miguez, E Bash, M L Musskopf, S A Tuin, A Rivera-Concepcion, I L C Chapple, J Liu
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Abstract

Proteoglycans are core proteins associated with carbohydrate/sugar moieties that are highly variable in disaccharide composition, which dictates their function. These carbohydrates are named glycosaminoglycans, and they can be attached to proteoglycans or found free in tissues or on cell surfaces. Glycosaminoglycans such as hyaluronan, chondroitin sulfate, dermatan sulfate, keratan sulfate, and heparin/heparan sulfate have multiple functions including involvement in inflammation, immunity and connective tissue structure, and integrity. Heparan sulfate is a highly sulfated polysaccharide that is abundant in the periodontium including alveolar bone. Recent evidence supports the contention that heparan sulfate is an important player in modulating interactions between damage associated molecular patterns and inflammatory receptors expressed by various cell types. The structure of heparan sulfate is reported to dictate its function, thus, the utilization of a homogenous and structurally defined heparan sulfate polysaccharide for modulation of cell function offers therapeutic potential. Recently, a chemoenzymatic approach was developed to allow production of many structurally defined heparan sulfate carbohydrates. These oligosaccharides have been studied in various pathological inflammatory conditions to better understand their function and their potential application in promoting tissue homeostasis. We have observed that specific size and sulfation patterns can modulate inflammation and promote tissue maintenance including an anabolic effect in alveolar bone. Thus, new evidence provides a strong impetus to explore heparan sulfate as a potential novel therapeutic agent to treat periodontitis, support alveolar bone maintenance, and promote bone formation.

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细胞外基质对组织稳态的控制:合成硫酸天门冬酰胺是牙周健康和骨再生的理想疗法。
蛋白聚糖是与碳水化合物/糖分子相关联的核心蛋白质,这些碳水化合物/糖分子的二糖组成变化很大,这决定了它们的功能。这些碳水化合物被命名为糖胺聚糖,它们可以附着在蛋白聚糖上,也可以游离在组织或细胞表面。透明质酸、硫酸软骨素、硫酸皮质素、硫酸角质素和肝素/硫酸肝素等糖胺聚糖具有多种功能,包括参与炎症、免疫、结缔组织结构和完整性。硫酸肝素是一种高度硫酸化的多糖,在牙周包括牙槽骨中含量丰富。最近有证据表明,硫酸肝素在调节损伤相关分子模式和各类细胞表达的炎症受体之间的相互作用方面发挥着重要作用。据报道,硫酸肝素的结构决定了它的功能,因此,利用同质且结构明确的硫酸肝素多糖来调节细胞功能具有治疗潜力。最近,人们开发出一种化学酶法,可以生产出许多结构明确的硫酸肝素碳水化合物。为了更好地了解这些寡糖的功能及其在促进组织稳态方面的潜在应用,我们对这些寡糖在各种病理炎症条件下的作用进行了研究。我们观察到,特定的大小和硫酸化模式可以调节炎症,促进组织维护,包括在牙槽骨中的同化作用。因此,新的证据为探索硫酸肝素作为治疗牙周炎、支持牙槽骨维护和促进骨形成的潜在新型治疗剂提供了强大的动力。
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来源期刊
Periodontology 2000
Periodontology 2000 医学-牙科与口腔外科
CiteScore
34.10
自引率
2.20%
发文量
62
审稿时长
>12 weeks
期刊介绍: Periodontology 2000 is a series of monographs designed for periodontists and general practitioners interested in periodontics. The editorial board selects significant topics and distinguished scientists and clinicians for each monograph. Serving as a valuable supplement to existing periodontal journals, three monographs are published annually, contributing specialized insights to the field.
期刊最新文献
Methods for 3D evaluation and quantification of gingival recessions and gingival margin changes: Advancements from conventional techniques. Periodontal and orthodontic management of impacted canines. Periodontal diseases in Africa. Autogenous platelet concentrates for treatment of intrabony defects—A systematic review with meta‐analysis Orthodontic management of uneven gingival margins in patients with healthy or reduced periodontium to improve smile aesthetics.
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