临床黄曲霉菌分离物中涉及 cyp51A 和 cyp51B 基因的唑类抗性研究

Polish journal of microbiology Pub Date : 2024-05-03 eCollection Date: 2024-06-01 DOI:10.33073/pjm-2024-001
Dhoha Ghorbel, Imen Amouri, Nahed Khemekhem, Sourour Neji, Houaida Trabelsi, Moez Elloumi, Hayet Sellami, Fattouma Makni, Ali Ayadi, Ines Hadrich
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引用次数: 0

摘要

本研究旨在探讨黄曲霉的唑类抗性机制,其中涉及cyp51A和cyp51B基因。采用实时逆转录酶 qPCR 方法测定了 34 株黄曲霉分离株的 cyp51A 和 cyp51B 基因的过表达情况。通过对这两个基因进行 PCR 测序,检测是否存在基因突变。药敏试验发现,所有菌株都对伏立康唑(VOR)敏感。14.7%和8.8%的分离株分别对伊曲康唑(IT)和泊沙康唑(POS)产生耐药性,其中5.8%产生交叉耐药性。对于双重耐药的分离物(IT/POS),cyp51A的表达量最多高出17倍。PCR 测序显示 cyp51A 存在 2 个突变:8 个分离株存在同义点突变(P61P),但不影响 CYP51A 蛋白的结构;另一个非同义突变(G206L)仅存在于 TN-33 株系(IT/POS 交叉抗性)中,导致蛋白质序列发生氨基酸变化。然而,我们注意到,在 Cyp51B 中,唯一的非同义突变(L177G)导致 TN-31 株蛋白序列中氨基酸的变化,而 TN-31 株表现出 IT/POS 交叉抗性。在 cyp51A 基因中发现了一个 67 bp 的短内含子,而在 cyp51B 基因中发现了三个分别为 54、53 和 160 bp 的短内含子。根据 PatchDock 软件提供的模型,非同义突变的存在并不影响 CYP51A 和 CYP51B 蛋白与抗真菌药物的相互作用。在我们的研究中,cyp51A 和 cyp51B 基因的过度表达是导致黄曲霉产生抗药性的主要机制。不过,其他抗性机制也可能参与其中。
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Investigation of Azole Resistance Involving cyp51A and cyp51B Genes in Clinical Aspergillus flavus Isolates.

This study aimed to investigate azole resistance mechanisms in Aspergillus flavus, which involve cyp51A and cyp51B genes. Real-time Reverse Transcriptase qPCR method was applied to determine the overexpression of cyp51A and cyp51B genes for 34 A. flavus isolates. PCR sequencing of these two genes was used to detect the presence of gene mutations. Susceptibility test found sensitivity to voriconazole (VOR) in all strains. 14.7% and 8.8% of isolates were resistant to itraconazole (IT) and posaconazole (POS), respectively, with a cross-resistance in 5.8%. For the double resistant isolates (IT/POS), the expression of cyp51A was up to 17-fold higher. PCR sequencing showed the presence of 2 mutations in cyp51A: a synonymous point mutation (P61P) in eight isolates, which did not affect the structure of CYP51A protein, and another non synonymous mutation (G206L) for only the TN-33 strain (cross IT/POS resistance) causing an amino acid change in the protein sequence. However, we noted in cyp51B the presence of the only non-synonymous mutation (L177G) causing a change in amino acids in the protein sequence for the TN-31 strain, which exhibits IT/POS cross-resistance. A short single intron of 67 bp was identified in the cyp51A gene, whereas three short introns of 54, 53, and 160 bp were identified in the cyp51B gene. According to the models provided by PatchDock software, the presence of non-synonymous mutations did not affect the interaction of CYP51A and CYP51B proteins with antifungals. In our study, the overexpression of the cyp51A and cyp51B genes is the primary mechanism responsible for resistance in A. flavus collection. Nevertheless, other resistance mechanisms can be involved.

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