Arampatzis Athanasios S, Tsave Olga, Kirchweger Benjamin, Zwirchmayr Julia, Papageorgiou Vassilios P, Rollinger Judith M, Assimopoulou Andreana N
Organic Chemistry Laboratory, School of Chemical Engineering, Aristotle University of Thessaloniki and Natural Products Research Centre of Excellence (NatPro-AUTH), Center for Interdisciplinary Research and Innovation of AUTh (CIRI-AUTh), Thessaloniki, Greece.
Division of Pharmacognosy, Department of Pharmaceutical Sciences, Faculty of Life Sciences, University of Vienna, Vienna, Austria.
Front Pharmacol. 2022 Jun 8;13:909285. doi: 10.3389/fphar.2022.909285. eCollection 2022.
Alkannin, shikonin (A/S) and their derivatives are naturally occurring hydroxynaphthoquinones biosynthesized in some species of the Boraginaceae family. These natural compounds have been extensively investigated for their biological properties over the last 40 years, demonstrating a plethora of activities, such as wound healing, regenerative, anti-inflammatory, antitumor, antimicrobial and antioxidant. This study aims to extend the current knowledge by investigating the effects of various A/S compounds on two model systems, namely on 3T3-L1 pre-adipocytes and the nematode . The former constitutes an established model for investigating anti-obesity and insulin-mimetic properties, while the latter has been widely used as a model organism for studying fat accumulation, lifespan and the anthelmintic potential. A set of chemically well-defined A/S derivatives were screened for their effect on pre-adipocytes to assess cell toxicity, cell morphology, and cell differentiation. The differentiation of pre-adipocytes into mature adipocytes was examined upon treatment with A/S compounds in the presence/absence of insulin, aiming to establish a structure-activity relationship. The majority of A/S compounds induced cell proliferation at sub-micromolar concentrations. The ester derivatives exhibited higher IC values, and thus, proved to be less toxic to 3T3-L1 cells. The parent molecules, A and S tested at 1 μM resulted in a truncated differentiation with a reduced number of forming lipids, whereas compounds lacking the side chain hydroxyl group projected higher populations of mature adipocytes. In mutant strain SS104, A/S enriched extracts were not able to inhibit the fat accumulation but resulted in a drastic shortage of survival. Thus, the set of A/S compounds were tested at 15 and 60 μg/ml in the wild-type strain N2 for their nematocidal activity, which is of relevance for the discovery of anthelmintic drugs. The most pronounced nematocidal activity was observed for naphthazarin and β,β-dimethyl-acryl-shikonin, followed by isovaleryl-shikonin. The latter 2 A/S esters were identified as the most abundant constituents in the mixture of A/S derivatives isolated from (L.) Tausch. Taken together, the findings show that the structural variations in the moiety of A/S compounds significantly impact the modulation of their biological activities in both model systems investigated in this study.
紫朱草素、紫草素(A/S)及其衍生物是紫草科某些植物中生物合成的天然羟基萘醌。在过去40年里,这些天然化合物因其生物学特性受到广泛研究,展现出大量活性,如伤口愈合、再生、抗炎、抗肿瘤、抗菌和抗氧化活性。本研究旨在通过研究各种A/S化合物对两个模型系统的影响来拓展现有知识,这两个模型系统分别是3T3-L1前脂肪细胞和线虫。前者是研究抗肥胖和胰岛素模拟特性的既定模型,而后者已被广泛用作研究脂肪积累、寿命和驱虫潜力的模式生物。筛选了一组化学性质明确的A/S衍生物对前脂肪细胞的影响,以评估细胞毒性、细胞形态和细胞分化。在用A/S化合物处理前脂肪细胞使其分化为成熟脂肪细胞的过程中,在有/无胰岛素的情况下进行了检测,旨在建立构效关系。大多数A/S化合物在亚微摩尔浓度下诱导细胞增殖。酯衍生物表现出更高的半数抑制浓度值,因此被证明对3T3-L1细胞毒性较小。在1μM浓度下测试的母体分子A和S导致分化受阻,形成的脂质数量减少,而缺乏侧链羟基的化合物则使成熟脂肪细胞数量增加。在突变株SS104中,富含A/S的提取物无法抑制脂肪积累,但导致存活率急剧下降。因此,在野生型菌株N2中以15和60μg/ml的浓度测试了这组A/S化合物的杀线虫活性,这对于发现驱虫药物具有重要意义。对于萘茜和β,β-二甲基丙烯酰紫草素,观察到最显著的杀线虫活性,其次是异戊酰紫草素。后两种A/S酯被确定为从(L.)陶施中分离出的A/S衍生物混合物中最丰富的成分。综上所述,研究结果表明,A/S化合物部分的结构变化显著影响其在本研究中所研究的两个模型系统中的生物活性调节。
