鉴别两种亲缘关系密切的Tinospora的新质量评价方法的开发和验证:一种基于HPTLC和HPLC的-MS/MS快速评价方法。

Aboli Girme, Ganesh Saste, Arun Kumar Balasubramaniam, Chetana Ghule, Vallabh Mulay, Lal Hingorani
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引用次数: 0

摘要

背景:该物种的同域发生往往导致植物材料的不同聚集,传统使用的模糊历史,以及由于Tinospora(防己科)分类群内的相似性而导致的分类变化,这些都是引发开发强有力的分析方法以进行有效质量控制的必要性的一些原因,目的:建立一种新的基于HPTLC的两种非常相似的Tinospora指纹图谱,并用HPTLC-MS分析和鉴定区分Tinospora-crispa(TCP)和Tinospora-cordifolia(TCR)的化合物。通过高效液相色谱法和光电二极管阵列检测器(HPLC-PDA)对特定TCP和TCR分析标记物进行MS/MS表征的快速定量评估。方法:采用氯仿-甲苯-甲醇-甲酸(7:4:2:0.2,v/v/v)建立HPTLC法。TCP化合物可以通过连续柱色谱法进行鉴定和分离;进一步用于反相(RP)HPLC-PDA与LC-ESI-MS/MS偶联进行定量和确认。结果:指纹图谱在TCP茎中显示出明显的条带,通过HPTLC-MS技术进行间接图谱分析,证实其为clerodane-呋喃二萜类化合物。系统分离证实这些化合物为硼硼糖苷B和E。因此,开发了RP-HPLC-PDA方法,将这些硼硼糖苷和E与蒂诺孢子虫进行区分。定量方法得到了很好的验证,具有良好的线性(r2>0.99)和灵敏的LOD(0.49-3.71) mcg/mL)和定量限(1.48-11.23 mcg/mL),回收率(92.34-96.19%)。结论:一种新的经验证的HPLC-PDA方法在定量来自TCP的靶向分析标记物以区分TCR方面显示出良好的分辨率和可靠性(高达1.0%的掺假)。因此,基于HPTLC和HPLC-PDA的技术有助于基于MS/MS的表征,以鉴定和定量来自TCP(硼糖苷B和E)和TCR(蒂诺孢子虫)的分析标记。亮点:这篇新报道了HPTLC-MS系统地用于分离和鉴定Tinospora物种的分析标记,通过定量HPLC-PDA和MS/MS评估区分TCR和TCP。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development and Validation of Novel Quality Evaluation Methods to Differentiate Two Closely Related Species of Tinospora: A Rapid HPTLC- and HPLC-Based Assessment with MS/MS Characterization.

Background: The sympatric occurrence of the species that often resulted in different gatherings of plant material, ambiguous history on traditional use, and taxonomic flux due to similarities within the Tinospora (Menispermaceae) taxa are some of the reasons that triggered the necessity to develop robust analytical methods for efficient QC, especially to recognize dry and powder forms.

Objective: To develop novel HPTLC-based fingerprinting of two closely resembling Tinospora species followed by HPTLC-MS analysis and identification of compounds differentiating Tinospora crispa (TCP) and Tinospora cordifolia (TCR) and a rapid and quantitative assessment by HPLC with a photodiode array detector (HPLC-PDA) with MS/MS characterization of specific TCP and TCR analytical markers.

Methods: An HPTLC-based method was developed using chloroform-toluene-methanol-formic acid (7 + 4 + 2 + 0.2, by volume). The TCP compounds could be distinguished and isolated using successive column chromatography with complete characterization. Further these used in the reverse phase (RP)-HPLC-PDA coupled with LC-ESI (electrospray ionization)-MS/MS to quantify and confirmation in TCP and TCR.

Results: The fingerprinting showed distinct bands in TCP stems, confirmed as clerodane- furanoditerpenoids with indirect profiling by the HPTLC-MS technique. Systematic isolation confirmed these compounds as borapetosides B and E. Thus, the RP-HPLC-PDA method was developed for these borapetosides B and E, with tinosporide to differentiate these two species. The quantitation method was well validated with good linearity (r2 >0.99) with sensitive LOD (0.49-3.71 mcg/mL) and LOQ (1.48-11.23 mcg/mL) with recoveries of 92.34-96.19%.

Conclusion: A novel, validated HPLC-PDA method showed good resolution and reliability (up to 1% adulteration) in quantification for targeted major analytical markers from TCP to differentiate TCR. Thus, HPTLC and HPLC-PDA-based techniques are helpful with MS/MS-based characterization to identify and quantify these analytical markers from TCP (borapetoside B and E) and TCR (tinosporide) in dry and powder form.

Highlights: This article reports on the systemic use of HPTLC-MS for separating and identifying analytical markers in Tinospora species, distinguishing TCR and TCP with quantitative HPLC-PDA and MS/MS assessment.

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