印度东北部阿萨姆邦拉克希姆布尔地区青蒿素前时代临床分离株中与疫苗候选基因相关的基因多态性。

Genetic polymorphism of and vaccine candidate genes in pre-artemisinin era clinical isolates from Lakhimpur district in Assam, Northeast India.

作者信息

Sathishkumar Vinayagam, Nirmolia Tulika, Bhattacharyya Dibya Ranjan, Patgiri Saurav Jyoti

机构信息

ICMR-Regional Medical Research Centre, North East Region, Dibrugarh 786001, Assam, India.

出版信息

Access Microbiol. 2022 Apr 25;4(4):000350. doi: 10.1099/acmi.0.000350. eCollection 2022.

DOI:10.1099/acmi.0.000350

PMID:35812711

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9260089/

Abstract

BACKGROUND

Northeast India shares its international border with Southeast Asia and has a number of malaria endemic zones. Monitoring genetic diversity of malaria parasites is important in this area as drug resistance and increasing genetic diversity form a vicious cycle in which one favours the development of the other. This retrospective study was done to evaluate the genetic diversity patterns in strains circulating in North Lakhimpur area of Assam in the pre-artemisinin era and compare the findings with current diversity patterns.

METHODS

Genomic DNA extraction was done from archived blood spot samples collected in 2006 from malaria-positive cases in Lakhimpur district of Assam, Northeast India. Three antigenic markers of genetic diversity were studied - (block-2), (block-3) and the RII region of using nested PCR.

RESULTS

Allelic diversity was examined in 71 isolates and high polymorphism was observed. In eight genotypes were detected; K1 (single allele), MAD20 (six different alleles) and RO33 (single allele) allelic families were noted. Among genotypes, 22 distinct alleles were observed out of which FC27 had six alleles and IC/3D7 had 16 alleles. In RII region of nine genotypes were obtained. Expected heterozygosity ( ) values of the three antigenic markers were 0.72, 0.81 and 0.88, respectively. Multiplicity of infection (MOI) values noted were 1.28, 1.84 and 1.04 for and respectively.

CONCLUSION

Results suggest a high level of genetic diversity in ( of and ) and the RII region in Northeast India in the pre-artemisinin era when chloroqunine was the primary drug used for uncomplicated malaria. Comparison with current studies have revealed that the genetic diversity in these genes is still high in this region, complicating malaria vaccine research.

摘要

背景

印度东北部与东南亚接壤，有多个疟疾流行区。监测疟原虫的遗传多样性在该地区很重要，因为耐药性和不断增加的遗传多样性形成了一个恶性循环，其中一个会促进另一个的发展。这项回顾性研究旨在评估在青蒿素时代之前阿萨姆邦北拉克希姆布尔地区流行的疟原虫菌株的遗传多样性模式，并将研究结果与当前的多样性模式进行比较。

方法

从2006年收集的印度东北部阿萨姆邦拉克希姆布尔地区疟疾阳性病例的存档血斑样本中提取基因组DNA。使用巢式PCR研究了三个遗传多样性的抗原标记——（block-2）、（block-3）和疟原虫的RII区域。

结果

对71个分离株进行了等位基因多样性检测，观察到高度多态性。在中检测到8种基因型；注意到K1（单等位基因）、MAD20（6种不同等位基因）和RO33（单等位基因）等位基因家族。在基因型中，观察到22个不同的等位基因，其中FC27有6个等位基因，IC/3D7有16个等位基因。在疟原虫的RII区域获得了9种基因型。三个抗原标记的预期杂合度（）值分别为0.72、0.81和0.88。观察到的感染复数（MOI）值对于和分别为1.28、1.84和1.04。

结论

结果表明，在青蒿素时代之前，当氯喹是用于治疗非复杂性疟疾的主要药物时，印度东北部的疟原虫（的和）和RII区域存在高度的遗传多样性。与当前研究的比较表明，这些基因在该地区的遗传多样性仍然很高，这使疟疾疫苗研究变得复杂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a584/9260089/a659d89a55ff/acmi-4-0350-g001.jpg

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印度东北部阿萨姆邦拉克希姆布尔地区青蒿素前时代临床分离株中与疫苗候选基因相关的基因多态性。

Genetic polymorphism of and vaccine candidate genes in pre-artemisinin era clinical isolates from Lakhimpur district in Assam, Northeast India.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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