Tridepsides as potential bioactives: a review on their chemistry and the global distribution of their lichenic and non-lichenic natural sources.

IF 2.1 Q3 MYCOLOGY Frontiers in fungal biology Pub Date : 2023-04-19 eCollection Date: 2023-01-01 DOI:10.3389/ffunb.2023.1088966
Hooman Norouzi, Mohammad Sohrabi, Masoud Yousefi, Joel Boustie
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引用次数: 1

Abstract

Tridepsides, as fully oxidized polyketides, have been known to exist in lichens for more than a century. Recent studies have showed that these possible defensive lichenochemicals possess various biological activities. Also, a candidate biosynthetic gene cluster was recently reported for gyrophoric acid (GA), an important tridepside. The present study focused on biosynthesis, natural sources, biological activities, and bioanalytical methods of tridepside molecules. Our survey shows that, so far, lichenic tridepsides have been reported from 37 families, 111 genera, and 526 species of lichen. Because many of their species contain tridepsides, the families Parmeliaceae, Lobariaceae, and Peltigeraceae can be considered critical lichenic sources of tridepsides. Furthermore, several species of Hypotrachyna in Parmeliaceae family showed lichenic tridepsides, suggesting that this genus is a viable source of tridepsides. This research also explored tridepsides from non-lichenic sources, such as non-lichenized fungi, lichenicolous fungi, endophytes, parasites, and liverworts, which offer substantial potential as biotechnological sources to produce tridepsides, which are produced in small amounts in lichen thalli. Two lichenic tridepsides have also been detected in non-lichenic sources: GA and tenuiorin (TE). Additionally, no significant correlation was found between tridepside biosynthesis and geographical distribution patterns for several potentially tridepside-producing lichens. We further showed that GA is the most studied tridepside with various reported biological activities, including anticancer, wound healing, photoprotection, anti-aging, antioxidant, cardiovascular effect, DNA interaction, anti-diabetes, anti-Alzheimer’s, anti-bacterial, and antifungal. Last but not least, this study provides an overview of some bioanalytical methods used to analyze tridepsides over the past few years.

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三叶草苷作为潜在的生物活性物质:综述其化学性质及其地衣和非地衣天然来源的全球分布。
三萜苷是一种完全氧化的聚酮,在地衣中存在已经有一个多世纪了。最近的研究表明,这些可能具有防御作用的地衣化学物质具有多种生物活性。此外,最近报道了一个重要的三萜类化合物旋虫酸(GA)的候选生物合成基因簇。本研究的重点是三肽分子的生物合成、天然来源、生物活性和生物分析方法。我们的调查显示,到目前为止,已经报道了来自地衣37科、111属、526种的地衣三叉戟。由于它们的许多物种都含有三叉戟,Parmeliaceae、Lobariaceae和Peltigeraceae科可以被认为是三叉戟的重要地衣来源。此外,Parmeliaceae科的几个种的Hytrachyna显示出地衣三叉戟,这表明该属是三叉戟的一个可行来源。这项研究还探索了非地衣来源的三叉戟,如非地衣化真菌、地衣真菌、内生菌、寄生虫和苔类,它们作为生物技术来源提供了巨大的潜力,可以生产在地衣铊中少量产生的三叉戟。在非地衣来源中也检测到两种地衣三叉戟:GA和teniorin(TE)。此外,在几种可能产生三叉戟的地衣的三叉戟生物合成和地理分布模式之间没有发现显著的相关性。我们进一步表明,GA是研究最多的三肽,具有各种报道的生物活性,包括抗癌、伤口愈合、光保护、抗衰老、抗氧化、心血管作用、DNA相互作用、抗糖尿病、抗阿尔茨海默氏症、抗菌和抗真菌。最后但并非最不重要的是,这项研究概述了过去几年中用于分析三叉戟的一些生物分析方法。
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