Open Chemistry (Jul 2021)

Optimization of Murrayafoline A ethanol extraction process from the roots of Glycosmis stenocarpa, and evaluation of its Tumorigenesis inhibition activity on Hep-G2 cells

  • Tran Quoc Toan,
  • Pham The Dan,
  • Nguyen Thanh Duong,
  • Luu Van Huyen,
  • Nghi Do Huu,
  • Duy Le Xuan,
  • Nguyen Phi Hung,
  • Nguyen Manh Cuong,
  • Luu Van Chinh,
  • Pham Minh Quan,
  • Huyen Vu Thi,
  • Pham Tri Nhut,
  • Pham Dung Thuy Nguyen

DOI
https://doi.org/10.1515/chem-2021-0067
Journal volume & issue
Vol. 19, no. 1
pp. 830 – 842

Abstract

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Glycosmis stenocarpa is a species of shrub found in the Northern provinces of Vietnam. Its roots contain different carbazolic derivatives, mainly Murrayafoline A (Mu-A), which exhibits valuable biological activities. In this study, we performed an extraction of Mu-A from the roots of G. stenocarpa and optimized this process using response surface methodology (RSM) according to a central composite design, with three independent parameters including extraction time (min), extraction temperature (°C), and solvent/material ratio (mL/g). Two dependent variables were the Mu-A content (mg/g raw materials) and extraction efficiency (%). The optimal conditions to extract Mu-A were found to be as follows: extraction temperature, 67°C; extraction time, 165 min; and solvent/material ratio, 5:1. Under these conditions, the Mu-A content and extraction efficiency were 38.94 ± 1.31 mg/g raw materials and 34.98 ± 1.18%, respectively. Mu-A exhibited antiproliferation and antitumor-promoting activity against the HepG-2 cell line. The present optimization work of Mu-A extraction from G. stenocarpa roots contributed to the attempt of designing a large-scale extraction process for the compound and further exploitation of its potential in vivo applications.

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