Emergence of ECSA-IOL E1-K211E/E2-V264A Lineage of Chikungunya virus during Malaysian 2021 outbreak.

IF 3.4 3区医学 Q2 INFECTIOUS DISEASES

BMC Infectious Diseases Pub Date : 2024-10-24 DOI:10.1186/s12879-024-10102-y

Jeevanathan Kalyanasundram, Zarina Mohd Zawawi, Khayri Azizi Kamel, Emmanuel Tiagaraj Aroidoss, Kavithambigai Ellan, Mohd Ishtiaq Anasir, Muhammad Afif Azizan, Murni Maya Sari Zulkifli, Rozainanee Mohd Zain

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引用次数: 0

Abstract

Background: Chikungunya cases was reported to be on the rise in Malaysia from 2019 to 2021. Although potential endemicity was described previously, genotype shift during 2008 outbreak originating from the 2004 Indian Ocean Islands outbreak presents the probability of current CHIKV spread from neighboring countries. This is due to the prevalence of the new IOL sub-lineage which consists of E1-226A wildtype or reverted strains that are circulating in the Indian subcontinent before spreading to neighboring Thailand during 2018-2019 outbreak.

Method: In this study, samples received mostly from the Tangkak, Johor were analyzed. A total 56 CHIKV positive serum samples received in 2021 by Institute of Medical Research Malaysia (IMR), were collected based on sample selection criteria. Selected samples were subjected to total RNA extraction, whole-genome sequencing as well as bioinformatic analysis such as phylogenetic, variant and mutation analysis.

Results: Based on the genomic and phylogenetic analysis, the CHIKV samples from 2021 outbreak were of ECSA-IOL genotype. Genome similarity analysis also revealed that these CHIKVs were highly similar to 2018-2019 outbreak strain from Thailand. In comparison to the 2008 outbreak CHIKV isolate, the current CHIKVs lacked the E1-A226V mutation and harbored the new E1-K211E/E2-V264A sub-linage mutation. Since the E1-K211E/E2-V264A mutation facilitates adaptation to Ae. aegypti as opposed to the E1-A226V mutation which improves adaptation to Ae. albopictus, the emergence 2021 CHIKV outbreak in Malaysia can be postulated due to vector shift. Interestingly, a novel nsP3-T441A/V mutation detected in this study, may also play a role in virus transmission, pathogenicity, fitness and vector adaptation.

Conclusion: In summary, the current CHIKV outbreak are strains originated from the Indian subcontinent through Thailand which may have capitalized on vector shifting by adapting to Ae. aegypti. The presence of novel nsP3-T441A/V mutation may also contribute to the spread of this virus across peninsular Malaysia.

查看原文本刊更多论文

2021 年马来西亚疫情爆发期间出现的基孔肯雅病毒 ECSA-IOL E1-K211E/E2-V264A 系。

背景：据报道，2019 年至 2021 年马来西亚的基孔肯雅病例将呈上升趋势。虽然以前曾描述过潜在的地方流行性，但在 2008 年疫情爆发期间，源于 2004 年印度洋群岛疫情爆发的基因型发生了转变，这表明目前 CHIKV 有可能从邻国传播。这是由于新的IOL亚系的流行，该亚系由E1-226A野生型或还原型毒株组成，这些毒株在印度次大陆流行，然后在2018-2019年疫情期间传播到邻国泰国：本研究分析了主要来自柔佛州唐卡的样本。根据样本选择标准，马来西亚医学研究所（IMR）于 2021 年共采集了 56 份 CHIKV 阳性血清样本。对所选样本进行了总 RNA 提取、全基因组测序以及系统发育、变异和突变分析等生物信息学分析：结果：根据基因组和系统发育分析，2021 年疫情中的 CHIKV 样本属于 ECSA-IOL 基因型。基因组相似性分析还显示，这些CHIKV与2018-2019年泰国疫情毒株高度相似。与2008年爆发的CHIKV分离株相比，目前的CHIKV缺乏E1-A226V突变，并携带新的E1-K211E/E2-V264A亚序列突变。由于 E1-K211E/E2-V264A 突变有利于适应埃及伊蚊，而 E1-A226V 突变则改善了对白喉伊蚊的适应，因此可以推测马来西亚出现的 2021 年 CHIKV 疫情是由于病媒转移所致。有趣的是，本研究中检测到的一种新型 nsP3-T441A/V 突变也可能在病毒传播、致病性、适应性和病媒适应性方面发挥作用：总之，目前爆发的 CHIKV 是源于印度次大陆、途经泰国的毒株，它们可能利用了病媒的转移，适应了埃及蚁。新型 nsP3-T441A/V 突变的存在也可能是导致该病毒在马来西亚半岛传播的原因之一。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BMC Infectious Diseases 医学-传染病学

CiteScore

6.50

自引率

0.00%

发文量

860

审稿时长

3.3 months

期刊介绍： BMC Infectious Diseases is an open access, peer-reviewed journal that considers articles on all aspects of the prevention, diagnosis and management of infectious and sexually transmitted diseases in humans, as well as related molecular genetics, pathophysiology, and epidemiology.