The Effects of Splenectomy on Pattern of Nitric Oxide Induction and Pathogenesis of Rodent Malaria Caused by Plasmodium berghei Infection

International Journal of Medical Laboratory Pub Date : 2019-02-10 DOI:10.18502/IJML.V6I1.505

M. Arbabi, Sara Soleimani Jevinani, H. Nahrevanian, Hossein Hooshyar, Ahmad Reza Esmaeili Rastaghi, Mahdi Delavari, F. Ghasemi

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引用次数: 1

Abstract

Background and Aims: The aim of this study is to clarify nitric oxide (NO)-production by spleen and the importance of spleen in malaria infection in murine model. Materials and Methods: Thirty outbred NMRI female mice were divided into four groups, Group I: No intervention (Healthy control), Group II: With splenectomy (Healthy test), Group III: No intervention, Inoculation of contaminated blood (Infected control), Group IV: With splenectomy, inoculation of contaminated blood (Infected test). The Parasitemia was counted every other day through Giemsa stain examination of animal blood. The parasitemia and survival rates, hepatosplenomegaly and body weight were recorded. After terminal anesthesia, plasma and liver/spleen suspensions were assessed by the Griess micro assay for measurement of NO-levels. Results: At the end of the experiment (on day 16), the parasitemia was 26.99±0.46 % among the group of non-splenectomized animals (Group III) compared with 31.25±0.72% among the group of splenectomized animals (Group IV). The average parasitemia among the groups at the end of the experiment was statistically significant (Group III, Group IV: p= 0.0002). Survival rate was statistically significant (p<0.0001). NO concentrations in plasma, liver and spleen were determined. The amount of NO in plasma increased significantly in the infected groups (p=0.0003). Conclusions: Although, splenectomy decreased immune function against rodent malaria, it did not solely changed the pattern of antimalarial activity via NO-pathway. It is concluded that NO possibly comes from several sources rather than spleen during rodent malaria disease and is released into circulation, which may replace NO shortage by splenic cells to combat malaria parasites.

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脾切除术对伯氏疟原虫感染所致鼠型疟疾一氧化氮诱导模式及发病机制的影响

背景与目的:本研究旨在阐明脾脏产生一氧化氮(NO)及脾脏在小鼠疟疾感染模型中的重要作用。材料与方法:将30只近交NMRI雌性小鼠分为4组，ⅰ组:不干预(健康对照组)，ⅱ组:脾切除(健康组)，ⅲ组:不干预，接种污染血(感染对照组)，ⅳ组:脾切除，接种污染血(感染组)。每隔一天进行动物血吉姆萨染色计数。记录寄生虫率、存活率、肝脾肿大及体重。终末麻醉后，血浆和肝/脾悬液采用Griess微法测定no水平。结果:实验结束时(第16天)，未去脾组(III组)的寄生虫率为26.99±0.46%，去脾组(IV组)的寄生虫率为31.25±0.72%，实验结束时各组平均寄生虫率差异有统计学意义(III组，IV组:p= 0.0002)。生存率有统计学意义(p<0.0001)。测定血浆、肝脏、脾脏NO浓度。感染组血浆NO含量显著升高(p=0.0003)。结论:脾切除术虽然降低了鼠对疟疾的免疫功能，但并不仅仅是通过no途径改变抗疟活性模式。因此，在啮齿动物疟疾发病过程中，一氧化氮可能不是来自脾脏，而是来自其他来源，并释放到血液循环中，从而取代脾脏细胞对一氧化氮的缺乏，从而对抗疟原虫。

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International Journal of Medical Laboratory

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