Recent development of hydrogen sulfide-releasing biomaterials as novel therapies: a narrative review.

Jingyu Fan, Elizabeth Pung, Yuan Lin, Qian Wang
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引用次数: 1

Abstract

Hydrogen sulfide (H2S) has been reported as an endogenous gasotransmitter that contributes to the modulation of a myriad of biological signalling pathways, which includes maintaining homeostasis in living organisms at physiological concentrations, controlling protein sulfhydration and persulfidation for signalling processes, mediating neurodegeneration, and regulating inflammation and innate immunity, etc. As a result, researchers are actively exploring effective approaches to evaluate the properties and the distribution of H2S in vivo. Furthermore, the regulation of the physiological conditions of H2S in vivo introduces the opportunity to further study the molecular mechanisms by which H2S regulates cellular functions. In recent years, many H2S-releasing compounds and biomaterials that can deliver H2S to various body systems have been developed to provide sustained and stable H2S delivery. Additionally, various designs of these H2S-releasing biomaterials have been proposed to aid in the normal conduction of physiological processes, such as cardioprotection and wound healing, by modulating different signalling pathways and cell functionalities. Using biomaterials as a platform to control the delivery of H2S introduces the opportunity to fine tune the physiological concentration of H2S in vivo, a key to many therapeutic applications. In this review, we highlight recent research works concerning the development and application of H2S-releasing biomaterials with a special emphasis to different release triggering conditions in in vivo studies. We believe that the further exploration of the molecular mechanisms underlying H2S donors and their function when incorporated with various biomaterials will potentially help us understand the pathophysiological mechanisms of different diseases and assist the development of H2S-based therapies.

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硫化氢释放生物材料作为新疗法的最新进展:述评。
据报道,硫化氢(H2S)是一种内源性气体递质,可以调节多种生物信号通路,包括维持生物体内生理浓度的稳态,控制信号过程中的蛋白质巯基化和过巯基化,介导神经退行性变,调节炎症和先天免疫等。因此,研究人员正在积极探索有效的方法来评估H2S在体内的性质和分布。此外,H2S对体内生理条件的调节为进一步研究H2S调节细胞功能的分子机制提供了机会。近年来,许多H2S释放化合物和生物材料已经被开发出来,可以将H2S输送到各种身体系统,以提供持续稳定的H2S输送。此外,这些硫化氢释放生物材料的各种设计已经被提出,通过调节不同的信号通路和细胞功能来帮助正常的生理过程传导,如心脏保护和伤口愈合。利用生物材料作为控制H2S输送的平台,可以微调体内H2S的生理浓度,这是许多治疗应用的关键。本文综述了近年来在h2s释放生物材料的开发和应用方面的研究进展,重点介绍了不同释放触发条件在体内研究中的应用。我们相信,进一步探索H2S供体的分子机制及其与各种生物材料结合时的功能,将有助于我们了解不同疾病的病理生理机制,并有助于H2S疗法的发展。
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
CiteScore
6.70
自引率
0.00%
发文量
9
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