{"title":"植物中存在的蒽醌作为光动力法的光敏化合物:重要概述。","authors":"Vanya Mantareva, Diana Braikova, Irina Lazarova, Tsanislava Genova","doi":"10.31083/j.fbl2905168","DOIUrl":null,"url":null,"abstract":"<p><p>The review focuses on the recent knowledge on natural anthraquinones (AQs) of plant origin and their potential for application in an exclusive medicinal curative and palliative method named photodynamic therapy (PDT). Green approach to PDT is associated with photosensitizers (PS) from plants or other natural sources and excitation light in visible spectrum. The investigations of plants are of high research interests due to their unique health supportive properties as herbs and the high percentage availability to obtain compounds with medical value. Up-to-date many naturally occurring compounds with therapeutic properties are known and are still under investigations. Some natural quinones have already been evaluated and clinically approved as anti-tumor agents. Recent scientific interests are beyond their common medical applications but also in directions to their photo-properties as natural PSs. The study presents a systematic searches on the latest knowledge on AQ derivatives that are isolated from the higher plants as photosensitizers for PDT applications. The natural quinones have been recognized with functions of natural dyes since the ancient times. Lately, AQs have been explored due to their biological activity including the photosensitive properties useful for PDT especially towards medical problems with no other alternatives. The existing literature' overview suggests that natural AQs possess characteristics of valuable PSs for PDT. This method is based on an application of a photoactive compound and light arrangement in oxygen media, such that the harmful general cytotoxicity could be avoided. Moreover, the common anticancer and antimicrobial drug resistance has been evaluated with very low occurrence after PDT. Natural AQs have been focused the scientific efforts to further developments because of the high range of natural sources, desirable biocompatibility, low toxicity, minimal side effects and low accident of drug resistance, together with their good photosensitivity and therapeutic capacity. Among the known AQs, only hypericin has been studied in anticancer clinical PDT. Currently, the natural PSs are under intensive research for the future PDT applications for diseases without alternative effective treatments.</p>","PeriodicalId":73069,"journal":{"name":"Frontiers in bioscience (Landmark edition)","volume":null,"pages":null},"PeriodicalIF":3.3000,"publicationDate":"2024-04-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Plants-occurring Anthraquinones as Photosensitive Compounds for Photodynamic Method: A Critical Overview.\",\"authors\":\"Vanya Mantareva, Diana Braikova, Irina Lazarova, Tsanislava Genova\",\"doi\":\"10.31083/j.fbl2905168\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>The review focuses on the recent knowledge on natural anthraquinones (AQs) of plant origin and their potential for application in an exclusive medicinal curative and palliative method named photodynamic therapy (PDT). Green approach to PDT is associated with photosensitizers (PS) from plants or other natural sources and excitation light in visible spectrum. The investigations of plants are of high research interests due to their unique health supportive properties as herbs and the high percentage availability to obtain compounds with medical value. Up-to-date many naturally occurring compounds with therapeutic properties are known and are still under investigations. Some natural quinones have already been evaluated and clinically approved as anti-tumor agents. Recent scientific interests are beyond their common medical applications but also in directions to their photo-properties as natural PSs. The study presents a systematic searches on the latest knowledge on AQ derivatives that are isolated from the higher plants as photosensitizers for PDT applications. The natural quinones have been recognized with functions of natural dyes since the ancient times. Lately, AQs have been explored due to their biological activity including the photosensitive properties useful for PDT especially towards medical problems with no other alternatives. The existing literature' overview suggests that natural AQs possess characteristics of valuable PSs for PDT. This method is based on an application of a photoactive compound and light arrangement in oxygen media, such that the harmful general cytotoxicity could be avoided. Moreover, the common anticancer and antimicrobial drug resistance has been evaluated with very low occurrence after PDT. Natural AQs have been focused the scientific efforts to further developments because of the high range of natural sources, desirable biocompatibility, low toxicity, minimal side effects and low accident of drug resistance, together with their good photosensitivity and therapeutic capacity. Among the known AQs, only hypericin has been studied in anticancer clinical PDT. 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引用次数: 0
摘要
这篇综述重点介绍了有关源自植物的天然蒽醌(AQs)的最新知识,以及它们在一种名为光动力疗法(PDT)的独家药物治疗和缓解方法中的应用潜力。光动力疗法的绿色方法与植物或其他天然来源的光敏剂(PS)和可见光谱激发光有关。由于植物作为草本植物具有独特的保健特性,而且可获得具有医疗价值的化合物的比例很高,因此对植物的研究具有很高的研究兴趣。迄今为止,许多具有治疗特性的天然化合物已为人所知,并仍在研究之中。一些天然醌类化合物已经过评估,并被临床批准为抗肿瘤药物。最近,科学界对这些天然醌类化合物的兴趣已经超出了它们的普通医疗应用,而是转向了它们作为天然 PS 的光特性。本研究对从高等植物中分离出来的 AQ 衍生物作为光敏剂应用于光导透射疗法的最新知识进行了系统的搜索。天然醌类化合物自古以来就被认为具有天然染料的功能。最近,人们开始探索 AQs,因为它们具有生物活性,包括光敏特性,可用于光导放疗,尤其是针对没有其他替代品的医疗问题。现有文献综述表明,天然 AQ 具有用于光导疗法的宝贵 PS 的特性。这种方法以光活性化合物的应用和氧气介质中的光排列为基础,可以避免有害的一般细胞毒性。此外,在对常见的抗癌和抗菌药物耐药性进行评估后发现,PDT 的耐药性发生率非常低。天然 AQ 具有天然来源多、生物相容性好、毒性低、副作用小、耐药性低、光敏性好、治疗能力强等优点,因此一直是科学界进一步开发的重点。在已知的 AQs 中,只有金丝桃素已被用于抗癌临床 PDT 研究。目前,人们正在对天然 PS 进行深入研究,以便在未来将其应用于没有其他有效治疗方法的疾病的光透射疗法中。
Plants-occurring Anthraquinones as Photosensitive Compounds for Photodynamic Method: A Critical Overview.
The review focuses on the recent knowledge on natural anthraquinones (AQs) of plant origin and their potential for application in an exclusive medicinal curative and palliative method named photodynamic therapy (PDT). Green approach to PDT is associated with photosensitizers (PS) from plants or other natural sources and excitation light in visible spectrum. The investigations of plants are of high research interests due to their unique health supportive properties as herbs and the high percentage availability to obtain compounds with medical value. Up-to-date many naturally occurring compounds with therapeutic properties are known and are still under investigations. Some natural quinones have already been evaluated and clinically approved as anti-tumor agents. Recent scientific interests are beyond their common medical applications but also in directions to their photo-properties as natural PSs. The study presents a systematic searches on the latest knowledge on AQ derivatives that are isolated from the higher plants as photosensitizers for PDT applications. The natural quinones have been recognized with functions of natural dyes since the ancient times. Lately, AQs have been explored due to their biological activity including the photosensitive properties useful for PDT especially towards medical problems with no other alternatives. The existing literature' overview suggests that natural AQs possess characteristics of valuable PSs for PDT. This method is based on an application of a photoactive compound and light arrangement in oxygen media, such that the harmful general cytotoxicity could be avoided. Moreover, the common anticancer and antimicrobial drug resistance has been evaluated with very low occurrence after PDT. Natural AQs have been focused the scientific efforts to further developments because of the high range of natural sources, desirable biocompatibility, low toxicity, minimal side effects and low accident of drug resistance, together with their good photosensitivity and therapeutic capacity. Among the known AQs, only hypericin has been studied in anticancer clinical PDT. Currently, the natural PSs are under intensive research for the future PDT applications for diseases without alternative effective treatments.