2008-2017 年中国-缅甸边境地区间日疟原虫潜在耐药分子标志物的多态性。
Polymorphisms of potential drug resistant molecular markers in Plasmodium vivax from China-Myanmar border during 2008‒2017.
机构信息
Department of Microbiology and Parasitology, Institute of Basic Medical Sciences Chinese Academy of Medical Sciences, School of Basic Medicine Peking Union Medical College, 5# Dong Dan San Tiao, Beijing, 100005, People's Republic of China.
NHC Key Laboratory of Systems Biology of Pathogens, Institute of Pathogen Biology, Chinese Academy of Medical Sciences and Peking Union Medical College, 9# Dong Dan San Tiao, Beijing, People's Republic of China.
出版信息
Infect Dis Poverty. 2022 Apr 25;11(1):43. doi: 10.1186/s40249-022-00964-2.
BACKGROUND
Plasmodium vivax remains the predominant species at the China-Myanmar border, imposing a major challenge to the recent gains in regional malaria elimination. To closely supervise the emerging of drug resistance in this area, we surveyed the variations in genes potentially correlated with drug resistance in P. vivax parasite and the possible drug selection with time.
METHODS
A total of 235 P. vivax samples were collected from patients suffering uncomplicated malaria at Yingjiang, Tengchong, and Longling counties, and Nabang port in China, Yunnan province, and Laiza sub-township in Myanmar, from 2008 to 2017. Five potential drug resistance genes were amplified utilizing nested-PCR and analyzed, including pvdhfr, pvdhps, pvmdr1, pvcrt-o, and pvk12. The Pearson's Chi-squared test or Fisher's exact test were applied to determine the statistical frequency differences of mutations between categorical data.
RESULTS
The pvdhfr F57I/L, S58R, T61M and S117T/N presented in 40.6%, 56.7%, 40.1%, and 56.0% of the sequenced P. vivax isolates, and these mutations significantly decreased with years. The haplotype formed by these quadruple mutations predominated in Yingjiang, Tengchong, Longling and Nabang. While a mutation H99S/R (56.6%) dominated in Laiza and increased with time. In pvdhps, the A383G prevailed in 69.2% of the samples, which remained the most prevalent haplotype. However, a significant decrease of its occurrence was also noticed over the time. The S382A/C and A553G existed in 8.4% and 30.8% of the isolates, respectively. In pvmdr1, the mutation Y976F occurred at a low frequency in 5/232 (2.2%), while T958M was fixed and F1076L was approaching fixed (72.4%). The K10 insertion was detected at an occurrence of 33.2% in pvcrt-o, whereas there was no significant difference among the sites or over the time. No mutation was identified in pvk12.
CONCLUSIONS
Mutations related with resistance to antifolate drugs are prevalent in this area, while their frequencies decrease significantly with time, suggestive of increased susceptibility of P. vivax parasite to antifolate drugs. Resistance to chloroquine (CQ) is possibly emerging. However, since the molecular mechanisms underneath CQ resistance is yet to be better understood, close supervision of clinical drug efficiency and continuous function investigation is urgently needed to alarm drug resistance.
背景
间日疟原虫仍然是中缅边境地区的主要疟原虫,对该地区最近消除疟疾的成果构成了重大挑战。为了密切监测该地区药物耐药性的出现,我们调查了与间日疟原虫寄生虫药物耐药性相关的潜在基因变异情况,以及随着时间的推移可能出现的药物选择。
方法
2008 年至 2017 年,从中国云南省盈江县、腾冲县和龙陵县,以及纳邦口岸和缅甸腊戍县,采集了 235 例患有无并发症疟疾的患者的间日疟原虫样本。利用巢式 PCR 扩增了 5 个潜在的耐药基因,并进行了分析,包括 pvdhfr、pvdhps、pvmdr1、pvcrt-o 和 pvk12。采用卡方检验或 Fisher 确切概率法分析分类资料中突变的统计学频率差异。
结果
测序的间日疟原虫分离株中,pvdhfr F57I/L、S58R、T61M 和 S117T/N 的出现频率分别为 40.6%、56.7%、40.1%和 56.0%,这些突变随着时间的推移显著减少。由这四个突变组成的单倍型在盈江、腾冲、龙陵和纳邦占主导地位。而 H99S/R(56.6%)突变在腊戍占主导地位,并随时间增加。在 pvdhps 中,A383G 在 69.2%的样本中占主导地位,是最常见的单倍型。然而,随着时间的推移,它的发生率也显著下降。S382A/C 和 A553G 分别存在于 8.4%和 30.8%的分离株中。在 pvmdr1 中,Y976F 突变的发生率为 5/232(2.2%),而 T958M 是固定的,F1076L 则接近固定(72.4%)。在 pvcrt-o 中检测到 K10 插入,发生率为 33.2%,但不同地点或随时间变化无显著差异。在 pvk12 中未发现突变。
结论
该地区存在抗叶酸药物耐药相关的突变,且其频率随时间显著下降,提示间日疟原虫寄生虫对抗叶酸药物的敏感性增加。氯喹(CQ)耐药可能正在出现。然而,由于氯喹耐药的分子机制尚未得到更好的理解,因此迫切需要密切监测临床药物疗效和持续功能研究,以警示耐药性。
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