Roobsoong Wanlapa, Tharinjaroen Chayada S, Rachaphaew Nattawan, Chobson Porpimon, Schofield Louis, Cui Liwang, Adams John H, Sattabongkot Jetsumon
Mahidol Vivax Research Unit, Faculty of Tropical Medicine, Mahidol University, Bangkok, Thailand.
Division of Clinical Microbiology, Department of Medical Technology, Faculty of Associated Medical Sciences, Chiang Mai University, Chiang Mai, Thailand.
Malar J. 2015 Aug 5;14:297. doi: 10.1186/s12936-015-0815-z.
The study of the biology, transmission and pathogenesis of Plasmodium vivax is hindered due to the lack of a robustly propagating, continuous culture of this parasite. The current culture system for P. vivax parasites still suffered from consistency and difficulties in long-term maintenance of parasites in culture and for providing sufficient biological materials for studying parasite biology. Therefore, further improvement of culture conditions for P. vivax is needed.
Clinical samples were collected from patients diagnosed with P. vivax in western Thailand. Leukocyte-depleted P. vivax infected blood samples were cultured in a modified McCoy's 5A medium at 5% haematocrit under hypoxic condition (5% O2, 5% CO2, and 90% N2). Reticulocytes purified from adult peripheral blood were added daily to maintain 4% reticulocytes. Parasites were detected by microscopic examination of Giemsa-stained smears and molecular methods.
The effects of culture variables were first analysed in order to improve the culture conditions for P. vivax. Through analysis of the sources of host reticulocytes and nutrients of culture medium, the culture conditions better supporting in vitro growth and maturation of the parasites were identified. Using this system, three of 30 isolates could be maintained in vitro for over 26 months albeit parasite density is low.
Based on the analysis of different culture variables, an improved and feasible protocol for continuous culture of P. vivax was developed.
由于缺乏一种能稳定传代的间日疟原虫连续培养体系,对间日疟原虫生物学、传播及发病机制的研究受到阻碍。目前的间日疟原虫培养系统在寄生虫培养的长期维持一致性以及为研究寄生虫生物学提供足够生物材料方面仍存在困难。因此,需要进一步优化间日疟原虫的培养条件。
从泰国西部被诊断为间日疟原虫感染的患者中采集临床样本。将去除白细胞的间日疟原虫感染血样在改良的 McCoy's 5A 培养基中,于 5% 血细胞比容、低氧条件(5% O₂、5% CO₂ 和 90% N₂)下进行培养。每天添加从成人外周血中纯化的网织红细胞,使其维持在 4%。通过对吉姆萨染色涂片进行显微镜检查和分子方法检测寄生虫。
首先分析培养变量的影响,以优化间日疟原虫的培养条件。通过分析宿主网织红细胞来源和培养基营养成分,确定了更有利于寄生虫体外生长和成熟的培养条件。使用该系统,30 个分离株中有 3 个能够在体外维持超过 26 个月,尽管寄生虫密度较低。
基于对不同培养变量的分析,开发了一种改进的、可行的间日疟原虫连续培养方案。