在严重疟疾的小鼠模型中，红细胞易感性降低以及年轻疟原虫的宿主清除率增加减缓了疟原虫的生长。

Reduced erythrocyte susceptibility and increased host clearance of young parasites slows Plasmodium growth in a murine model of severe malaria.

作者信息

Khoury David S, Cromer Deborah, Best Shannon E, James Kylie R, Sebina Ismail, Haque Ashraful, Davenport Miles P

机构信息

Complex Systems in Biology Group, Centre for Vascular Research, UNSW Australia, Kensington NSW 2052, Australia.

Malaria Immunology Laboratory, QIMR Berghofer Medical Research Institute, Herston, Brisbane QLD 4006, Australia.

出版信息

Sci Rep. 2015 May 6;5:9412. doi: 10.1038/srep09412.

DOI:10.1038/srep09412

PMID:25944649

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5386191/

Abstract

The best correlate of malaria severity in human Plasmodium falciparum (Pf) infection is the total parasite load. Pf-infected humans could control parasite loads by two mechanisms, either decreasing parasite multiplication, or increasing parasite clearance. However, few studies have directly measured these two mechanisms in vivo. Here, we have directly quantified host clearance of parasites during Plasmodium infection in mice. We transferred labelled red blood cells (RBCs) from Plasmodium infected donors into uninfected and infected recipients, and tracked the fate of donor parasites by frequent blood sampling. We then applied age-based mathematical models to characterise parasite clearance in the recipient mice. Our analyses revealed an increased clearance of parasites in infected animals, particularly parasites of a younger developmental stage. However, the major decrease in parasite multiplication in infected mice was not mediated by increased clearance alone, but was accompanied by a significant reduction in the susceptibility of RBCs to parasitisation.

摘要

在人类恶性疟原虫（Pf）感染中，疟疾严重程度的最佳相关指标是总寄生虫负荷。感染Pf的人类可通过两种机制控制寄生虫负荷，要么减少寄生虫增殖，要么增加寄生虫清除率。然而，很少有研究在体内直接测量这两种机制。在此，我们直接定量了小鼠疟原虫感染期间宿主对寄生虫的清除情况。我们将来自疟原虫感染供体的标记红细胞（RBC）转移到未感染和已感染的受体中，并通过频繁采血追踪供体寄生虫的命运。然后，我们应用基于年龄的数学模型来表征受体小鼠体内的寄生虫清除情况。我们的分析表明，感染动物体内的寄生虫清除率增加，尤其是处于较年轻发育阶段的寄生虫。然而，感染小鼠体内寄生虫增殖的主要减少并非仅由清除率增加介导，而是伴随着红细胞对寄生的易感性显著降低。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b041/5386191/e4b67f37ecfd/srep09412-f1.jpg

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在严重疟疾的小鼠模型中，红细胞易感性降低以及年轻疟原虫的宿主清除率增加减缓了疟原虫的生长。

Reduced erythrocyte susceptibility and increased host clearance of young parasites slows Plasmodium growth in a murine model of severe malaria.

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