巨细胞病毒 UL51 基因中莱默泊韦耐药突变的首次临床描述及其对终止酶复合物结构的潜在影响。

First clinical description of letermovir resistance mutation in cytomegalovirus UL51 gene and potential impact on the terminase complex structure.

机构信息

Univ. Limoges, INSERM, CHU Limoges, RESINFIT, U1092, F-87000, Limoges, France.

CHU Limoges, Laboratoire de Bactériologie-Virologie-Hygiène, National Reference Center for Herpesviruses (NRCHV), F-87000, Limoges, France; CHU Limoges, UF9481 Bioinformatique, F-87000, Limoges, France.

出版信息

Antiviral Res. 2022 Aug;204:105361. doi: 10.1016/j.antiviral.2022.105361. Epub 2022 Jun 9.

DOI:10.1016/j.antiviral.2022.105361

PMID:35690130

Abstract

BACKGROUND

Letermovir (LMV) is a human cytomegalovirus (HCMV) terminase inhibitor indicated as prophylaxis for HCMV-positive stem-cell recipients. Its mechanism of action involves at least the viral terminase proteins pUL56, pUL89 and pUL51. Despite its efficiency, resistance mutations were characterized in vitro and in vivo, largely focused on pUL56. To date, mutations in pUL51 in clinical resistance remain to be demonstrated.

METHODS

The pUL51 natural polymorphism was described by sequencing 54 LMV-naive strains and was compared to UL51 HCMV genes from 16 patients non-responding to LMV therapy (prophylaxis or curative). Recombinant viruses were built by «en-passant» mutagenesis to measure the impact of the new mutations on antiviral activity and viral growth. Structure prediction was performed by homology modeling. The pUL51 final-model was analyzed and aligned with the atomic coordinates of the monomeric HSV-1 terminase complex (PDB:6M5R).

RESULTS

Among the 16 strains from treated-patients with LMV, 4 never described substitutions in pUL51 (D12E, 17del, A95V, V113L) were highlighted. These substitutions had no impact on viral fitness. Only UL51-A95V conferred 13.8-fold increased LMV resistance level by itself (IC50 = 29.246 ± 0.788).

CONCLUSION

As an isolated mutation in pUL51 in a clinical isolate can lead to LMV resistance, genotyping for resistance should involve sequencing of the pUL51, pUL56 and pUL89 genes. With terminase modelling, we make the hypothesis that LMV could bind to domains were UL56-L257I and UL51-A95V mutations were localized.

摘要

背景

洛韦莫司（LMV）是一种人巨细胞病毒（HCMV）终止酶抑制剂，用于预防 HCMV 阳性干细胞受者。其作用机制至少涉及病毒终止酶蛋白 pUL56、pUL89 和 pUL51。尽管其效率高，但已在体外和体内鉴定出耐药突变，主要集中在 pUL56 上。迄今为止，临床耐药性中 pUL51 的突变仍有待证明。

方法

通过对 54 株 LMV 初治株进行测序，描述了 pUL51 的天然多态性，并与 16 例对 LMV 治疗（预防或治疗）无反应的患者的 UL51 HCMV 基因进行了比较。通过“en-passant”诱变构建重组病毒，以测量新突变对抗病毒活性和病毒生长的影响。通过同源建模进行结构预测。对 pUL51 最终模型进行了分析，并与单体 HSV-1 终止酶复合物（PDB：6M5R）的原子坐标进行了对齐。

结果

在接受 LMV 治疗的 16 株患者株中，有 4 株从未在 pUL51 中描述过的取代（D12E、17del、A95V、V113L）被强调。这些取代对病毒适应性没有影响。只有 UL51-A95V 本身就使 LMV 耐药水平增加了 13.8 倍（IC50=29.246±0.788）。

结论

由于临床分离株中 pUL51 的孤立突变可导致 LMV 耐药，因此耐药性基因分型应包括 pUL51、pUL56 和 pUL89 基因的测序。通过终止酶建模，我们提出假设，LMV 可能与 UL56-L257I 和 UL51-A95V 突变所在的结构域结合。

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巨细胞病毒 UL51 基因中莱默泊韦耐药突变的首次临床描述及其对终止酶复合物结构的潜在影响。

First clinical description of letermovir resistance mutation in cytomegalovirus UL51 gene and potential impact on the terminase complex structure.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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