Preparation, Modification, Quantitation, and Dentin Biomodification Activity of Selectively Enriched Proanthocyanidins.

IF 3.3 2区生物学 Q2 CHEMISTRY, MEDICINAL

Journal of Natural Products Pub Date : 2025-01-24 Epub Date: 2025-01-13 DOI:10.1021/acs.jnatprod.4c01213

Shu-Xi Jing, José Guilherme Neves, Walleska Liberato, Daneel Ferreira, Ana K Bedran-Russo, James B McAlpine, Shao-Nong Chen, Guido F Pauli

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引用次数: 0

Abstract

To date, quantitative analysis of proanthocyanidin (PAC) containing materials including plant extracts and fractions depends on colorimetric assays or phloroglucinolysis/thiolysis combined with UV-HPLC analysis. Such assays are of limited accuracy, particularly lack specificity, require extensive sample preparation and degradation, and need appropriate physical reference standards. To address this analytical challenge and toward our broader goal of developing new plant-sourced biomaterials that chemically and mechanically modulate the properties of dental tissue for clinical interventions, we have characterized 12 different PAC DESIGNER (Depletion and Enrichment of Select Ingredients Generating Normalized Extract Resources) materials. The DESIGNER approach is carried out by using either centrifugal partition chromatography (CPC) or size-exclusion chromatography (SEC) for the selective enrichment of trimeric and tetrameric PACs. Moreover, the rare but biologically interesting A-type PAC DESIGNERs can now be generated successfully from their natural AB-type PAC precursors via phenol-oxidative intramolecular coupling initiated by a mixture of the stable radicals, 2,2-diphenyl-1-picrylhydrazyl (DPPH) and 2,2,6,6-tetramethylpiperidine-1-oxyl (TEMPO). Furthermore, to ensure the quality and stability of PAC DESIGNER materials, we developed a quantitative analysis of the total PAC content of the DESIGNER materials in the form of a quantitative NMR (qNMR) method using a non-PAC internal calibrant combined with diol-HPLC. The total PAC content was, thus, determined to be in a range of 67.5-96.9% by qNMR. We highlight the complementarity of diol-HPLC and qNMR to accurately assess the amount of PACs across a range of concentrations and PAC stability in the DESIGNER materials. This quantitative methodology paves the way to generate standardized DESIGNER and other PAC-containing materials and to perform rigorous quality control for dental (pre)clinical studies of PACs.

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选择性富集原花青素的制备、修饰、定量和牙本质生物修饰活性。

迄今为止，含有植物提取物和组分的原花青素（PAC）的定量分析依赖于比色法或间苯三酚解/硫解结合UV-HPLC分析。这种检测方法的准确性有限，特别是缺乏特异性，需要大量的样品制备和降解，并且需要适当的物理参考标准。为了解决这一分析挑战，并朝着我们开发新的植物源生物材料的更广泛目标，这些生物材料可以化学和机械地调节临床干预牙齿组织的特性，我们对12种不同的PAC DESIGNER（消耗和富集选择成分产生标准化提取资源）材料进行了表征。DESIGNER方法采用离心分配色谱法（CPC）或粒径排除色谱法（SEC）选择性富集三聚体和四聚体PACs。此外，通过稳定自由基2,2-二苯基-1-picrylhydrazyl （DPPH）和2,2,6,6-四甲基哌啶-1-oxyl （TEMPO）的混合物引发的苯酚-氧化分子内偶联，现在可以成功地从天然ab型PAC前体中生成罕见但生物学上有趣的a型PAC设计器。此外，为了确保PAC DESIGNER材料的质量和稳定性，我们开发了一种定量核磁共振（qNMR）方法，使用非PAC内校准剂结合二醇-高效液相色谱对DESIGNER材料的PAC总含量进行定量分析。因此，通过qNMR测定总PAC含量在67.5-96.9%之间。我们强调了二醇- hplc和qNMR的互补性，以准确评估PAC在一定浓度范围内的数量和PAC在DESIGNER材料中的稳定性。这种定量方法为生成标准化的DESIGNER和其他含有pac的材料铺平了道路，并为pac的牙科（前）临床研究执行严格的质量控制。

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来源期刊

Journal of Natural Products 生物-药学

CiteScore

9.10

自引率

5.90%

发文量

294

审稿时长

2.3 months

期刊介绍： The Journal of Natural Products invites and publishes papers that make substantial and scholarly contributions to the area of natural products research. Contributions may relate to the chemistry and/or biochemistry of naturally occurring compounds or the biology of living systems from which they are obtained. Specifically, there may be articles that describe secondary metabolites of microorganisms, including antibiotics and mycotoxins; physiologically active compounds from terrestrial and marine plants and animals; biochemical studies, including biosynthesis and microbiological transformations; fermentation and plant tissue culture; the isolation, structure elucidation, and chemical synthesis of novel compounds from nature; and the pharmacology of compounds of natural origin. When new compounds are reported, manuscripts describing their biological activity are much preferred. Specifically, there may be articles that describe secondary metabolites of microorganisms, including antibiotics and mycotoxins; physiologically active compounds from terrestrial and marine plants and animals; biochemical studies, including biosynthesis and microbiological transformations; fermentation and plant tissue culture; the isolation, structure elucidation, and chemical synthesis of novel compounds from nature; and the pharmacology of compounds of natural origin.