Golenda C F, Li J, Rosenberg R
Department of Entomology, Walter Reed Army Institute of Research, Washington, DC 20307-5100, USA.
Proc Natl Acad Sci U S A. 1997 Jun 24;94(13):6786-91. doi: 10.1073/pnas.94.13.6786.
The difficulty in controlling Plasmodium vivax, the most common cause of human malaria, has been complicated by growing drug resistance. We have established a method to cycle parasite generations in continuous culture using human blood cells. Chesson strain parasites were passaged from owl monkey erythrocytes to human reticulocytes in McCoy's 5A medium modified with L-glutamine with 25 mM Hepes buffer supplemented with 20% AB+ human serum. Reticulocytes were separated by differential centrifugation in homologous plasma from the peripheral blood of a hemochromatosis patient. Parasites were grown during each 48-hr cycle in a static candle jar environment until the beginning of schizogony, at about 36-40 hr, when reticulocytes were added and cultures transferred to a shaker for 10-12 hr. The addition of a concentration of 10% reticulocytes resulted in stabilizing parasite densities between 0.28 and 0.57 after cycle 3 and increasing the total number of parasites at least 2-fold with each generational cycle. Cultured parasites successfully infected an owl monkey. The morphology of cultured parasites was typical of P. vivax, with highly ameboid trophozoites evident; however, infected erythrocytes were enlarged and distorted on thin film preparations. The species identity of cultivated parasites was confirmed by analysis of the A and C 18S rRNA genes from genomic DNA and expression of only the A gene during erythrocytic asexual growth. The ability to culture P. vivax opens new opportunities to develop vaccines, test drugs, and clone parasites for genome sequencing.
间日疟原虫是人类疟疾最常见的病因,其控制难度因耐药性不断增强而变得复杂。我们建立了一种利用人类血细胞在连续培养中循环寄生虫世代的方法。切森株寄生虫在添加了L-谷氨酰胺、25 mM Hepes缓冲液和20% AB+人血清的改良 McCoy's 5A培养基中,从夜猴红细胞传代至人网织红细胞。网织红细胞通过在来自血色素沉着症患者外周血的同源血浆中进行差速离心分离。寄生虫在每个48小时周期内在静态烛缸环境中生长,直到裂殖生殖开始,大约在36 - 40小时,此时加入网织红细胞并将培养物转移至振荡器中培养10 - 12小时。添加浓度为10%的网织红细胞后,第3个周期后寄生虫密度稳定在0.28至0.57之间,并且每代周期寄生虫总数至少增加2倍。培养的寄生虫成功感染了一只夜猴。培养的寄生虫形态是间日疟原虫的典型形态,可见高度阿米巴样滋养体;然而,在薄血膜制备中,感染的红细胞会增大和变形。通过对基因组DNA中的A和C 18S rRNA基因进行分析以及在红细胞无性生长过程中仅A基因的表达,确认了培养寄生虫的物种身份。培养间日疟原虫的能力为开发疫苗、测试药物以及克隆寄生虫进行基因组测序开辟了新的机会。