Authenticity analyses of Rhizoma Paridis using barcoding coupled with high resolution melting (Bar-HRM) analysis to control its quality for medicinal plant product

Rhizoma Paridis (Chonglou) is a precious traditional Chinese medicine. It originates from the dried rhizomes of both Paris polyphylla Smith var. yunnanensis (Franch.) Hand. -Mazz. and P. polyphylla Smith var. chinensis (Franch.) Hara, according to the Chinese Pharmacopoeia [1]. This medicine is most notably an ingredient of the hemostasis prescription ‘Yunnan Baiyao’ [2]. It plays an important clinical role in treating snake bites, fractures, parotitis, tumors, analgesia and traumatic bleeding. Recent pharmacological studies have indicated that Chonglou exhibits a variety of pharmacological activities, including anti-cancer, anti-inflammatory, antibacterial and immuno-regulatory activities [3]. Unfortunately, slow growth and over-harvesting for the past several years have led to a significant decline in Chonglou’s population and caused it to be listed as a vulnerable species by the IUCN (International Union for Conservation of Nature and Natural Resources). The lack of supply and subsequent high price can result in adulteration of Chonglou, including accidentally contamination, deliberately substitution or admixture with other species [4]. More specifically, Chonglou is often contaminated with several common adulterants: P. thibetica Franch, P. tengchongensis Y.H. Ji, C.J. Yang & Y.L. Huang, P. forrestii (Takht.) H. Li, P. mairei H. Lév, Tupistra spp., Trillium tschonoskii Maxim. and Polygonum paleaceum Wall. These adulterants are usually of poor quality and some might even be toxic. Contaminated with these plants can pose considerable health threat for the consumers [5]. It was reported that several Tupistra species can induce headache and vomiting [6]. Thus, Chonglou authenticity is not only an issue of medicinal quality but also of safety. A fast, reliable and robust method is urgently needed to be established for the herbal industry and regulatory agencies to identify Chonglou species from their adulterants.

With rapid advances in sequencing technologies, Herbgenomics provides an effective platform to support biological analyses of complex herbal products [7, 8]. It is now being widely applied to DNA-based herbal identification through the establishment of an herbal gene bank. DNA-based methods have gained popularity for unequivocal plant species identification because DNA molecules can be found in all tissues and they cannot be affected by environment or physiological factors [9‐13]. DNA barcoding, a method that use the sequence of a standard region of DNA for the purpose of species identification, has been recognized as a powerful tool for the identification of medicinal plants and their adulterants at the species level [4, 14‐17]. However, DNA sequencing of each individual sample is expensive, time consuming and cannot easily be applied to studies of large samples because of financial constraints [18]. High resolution melting (HRM) analysis is a closed-tube post-PCR analysis that can differentiate between samples even with a single base change in DNA sequences. This technique permits the genotyping and the quantification of adulterants and has been proved to be fast, reliable, low-cost in terms of consumables [19, 20]. Very recently, the Bar-HRM analysis has been introduced for species identification and authentication. The use of just Bar-HRM for species authentication and detection of adulteration in commercial products has been reported [21, 22]. To date, it has not been applied as a tool for the species authentication of Chonglou.

The goal of this research is to develop a rapid, scientifically rigorous and accurate method to identify and authenticate two types of Chonglou, namely P. polyphylla var. yunnanensis and P. polyphylla var. chinensis, from their adulterants. For that purpose, Bar-HRM analysis using universal DNA barcoding ITS2 region was conducted. The proposed methodology was further applied to differentiate ten herbal medicines labeled as Chonglou bought in market place. This will provide the first evidence for the utility of Bar-HRM analysis to test the authenticity of Chonglou sold in the local market place.

Species identification is critical to ensuring the quality of herbal medicine. HRM analysis is a method that measures the dissociation rates of double-stranded DNA into single-stranded DNA in increasing temperatures [26]. Minute difference in amplicon size or composition, even a simple nucleotide, can be detected. In general, different genotypes have their own unique transitions, including changes in curve shape and in the plots of their melting curves, which can be shown in their HRM profiles [24].

At present, several methods, such as high performance liquid chromatography (HPLC) and near infrared spectroscopy (NIR), have been introduced to discriminate the controversial Paris species [27, 28]. However, the HPLC method is relatively expensive and NIR spectroscopy suffers from low precision and tedious calibration, which is not ideal for the rapid screening of large numbers of samples. For these reasons, molecular biology-based analysis is becoming increasingly popular for the differentiation and identification of species in several scientific fields [29]. Among the various molecular biology techniques, DNA barcoding, ITS2, has been successfully applied to distinguish Paris species [23]. However, DNA sequencing technology is relatively expensive and time-consuming since the sequencing process is about 1–2 days. The use of Bar-HRM can overcome the cost and time issues (the whole process only takes 4 h). Moreover, this new approach has its own advantage compared with previously employed methods. The Bar-HRM analysis is performed in one completely “closed” tube and the results are available for analysis at the end of the run.

In this study, we have successfully applied Bar-HRM analysis for the rapid detection and identification of two major Paris species and their seven adulterants. The results indicated that Bar-HRM is a sensitive, fast, cheap, and reliable method for identifying and tracking herbal medicines. To validate the accuracy of polymorphisms detected by HRM analysis, the sequences of the reference plant specie were analyzed. Each PCR product was amplified and both strands were sequenced in opposite directions. Although the PCR products of Tupistra spp. were clearly visible as a single band on agarose gel, the sequence information of Tupistra spp. was not obtained, and there are no documented reports on its ITS2 sequences information in the GeneBank. The multi-copy of ITS2 region may lead to the failure of sequence. However, the HRM melting curves could be used to distinguish Chonglou from its adulterants clearly, included Tupistra spp. Considering these features, Bar-HRM can be a useful tool for quality control of herbal medicines in the supply chain of the natural health product industry (NHP) and medicine supervisory institutions. In conclusion, this study substantially contributes to the protection of public health worldwide.

The Bar-HRM analysis has been used in this study to differentiate Chonglou, namely P. polyphylla var. yunnanensis and P. polyphylla var. chinensis, from their adulterate species. Species-specific PCR amplification of the ITS2 region was performed to validate the results of HRM analysis. The difference between Chonglou species and their adulterants can be observed from their sequencing information. The proposed method has been proved to be accurate, reliable, rapid, cost-effective and robust for identifying Chonglou from its adulterants. Bar-HRM analysis is also feasible for high-throughput assays, and could be well applied to other herbal species in the future, ensuring the perceived value and quality of herbal medicines.