Meng Lan-Hua, Ma Qing, Gong Bao-Cao, Yao Ying, Liu Xin-Dan, Ma Zhi-Guo, Cao Hui, Zhang Ying, Wu Meng-Hua
Research Center for Traditional Chinese Medicine of Lingnan (Southern China), Jinan University/Lingnan Resources Branch of National Engineering Research Center for Modernization of Traditional Chinese Medicine, Guangdong Provincial Key Laboratory of Traditional Chinese Medicine Informatization Guangzhou 510632, China.
China Resources Sanjiu Medicinal & Pharmaceutical Co., Ltd. Shenzhen 518110, China.
Zhongguo Zhong Yao Za Zhi. 2024 Jun;49(11):2889-2896. doi: 10.19540/j.cnki.cjcmm.20240315.102.
To determine the optimal harvesting period and rational medicinal parts of Zanthoxylum nitidum, the main effective components of cultivated Z. nitidum samples, which originate from various growth years, harvesting months, and different parts were analyzed and compared with the wild samples. HPLC was performed on a Kinetex C18 column(4. 6 mm×100 mm, 2. 6 μm) with the gradient elution of 0. 3% phosphoric acid solution-acetonitrile(80 ∶ 20) containing 0. 2% triethylamine. The flow rate was 1. 0 m L·min-1, and the detection wavelength was 273 nm. The column temperature was 30 ℃. Nitidine chloride and chelerythrine, the main effective components, were determined as the markers. The results showed there was no significant difference in the contents of the main effective components among the roots of wild and cultivated Z. nitidum, as well as the roots and roots + stems of cultivated Z. nitidum. The statistical results of HCA and PCA indicated that the roots and stems could be clearly distinguished, but no distinction could be made between wild and cultivated products, which was consistent with the results of the significance analysis. The total contents of nitidine chloride and chelerythrine in roots and stems of Z. nitidum of 1-6 years old were 0. 114%-0. 256% and 0. 030%-0. 133%, respectively. These results suggested a positive correlation between the content of the main effective components and the growth years. No significant difference was observed between the contents of samples harvested in different seasons, indicating that the harvest season had no effect on the content of the main effective components of the Z. nitidum samples. The total contents of nitidine chloride and chelerythrine of the dried Z. nitidum samples(excluding branches) from three plantation bases were 0. 308%±0. 123% in Yunfu, 0. 192%±0. 025% in Maoming, and 0. 197%±0. 052% in Nanning, respectively, and they were all not less than 0. 15%, or in other words, the roots(including fibrous roots, taproots, and underground stems) and stems(aboveground stems) of Z. nitidum transplanted for more than 2. 5 years can meet the medical requirements. This study demonstrates that the cultivated Z. nitidum could be used as a valid substitute for the wild Z. nitidum, which provides a guarantee for the sustainable development and the application of Z. nitidum resources. The stems and roots could be considered medicinal parts of Z. nitidum. It is recommended to revise the medicinal parts of Z. nitidum to dried roots and stems in the next edition of Chinese Pharmacopoeia, and the medicinal parts can be harvested all year round. In order to ensure the content of effective components and clinical effectiveness, the root and stem should be harvested for medical use after the seedlings of Z. nitidum have been transplanted for more than three years.
为确定两面针的最佳采收期和合理药用部位,对来源于不同生长年限、采收月份及不同部位的栽培两面针样品的主要有效成分进行分析,并与野生样品作比较。采用Kinetex C18柱(4.6 mm×100 mm,2.6 μm),以含0.2%三乙胺的0.3%磷酸溶液-乙腈(80∶20)进行梯度洗脱,流速为1.0 mL·min-1,检测波长为273 nm,柱温为30℃,以氯化两面针碱和白屈菜红碱这两种主要有效成分作为指标成分进行含量测定。结果表明,野生两面针与栽培两面针的根以及栽培两面针的根与根+茎之间,主要有效成分含量无显著差异。聚类分析(HCA)和主成分分析(PCA)的统计结果表明,根和茎能够被清晰区分,但野生品与栽培品之间无法区分,这与显著性分析结果一致。1-6年生两面针根和茎中氯化两面针碱和白屈菜红碱的总含量分别为0.114%-0.256%和0.030%-0.133%,结果表明主要有效成分含量与生长年限呈正相关。不同季节采收的样品含量无显著差异,表明采收季节对两面针样品主要有效成分含量无影响。来自三个种植基地的干燥两面针样品(不包括枝条)中,氯化两面针碱和白屈菜红碱的总含量在云浮为0.308%±0.123%,在茂名为0.192%±0.025%,在南宁为0.197%±0.052%,均不低于0.15%,即移栽2.5年以上的两面针的根(包括须根、主根和地下茎)和茎(地上茎)可满足药用要求。本研究表明,栽培两面针可作为野生两面针的有效替代品,并为两面针资源的可持续开发和应用提供了保障。茎和根均可作为两面针的药用部位,建议《中国药典》下一版将两面针的药用部位修订为干燥根和茎,且全年均可采收。为保证有效成分含量及临床疗效,两面针幼苗移栽三年以上后采收根和茎入药。
