[在皮肤感染患者的材料中检测到POT 106-77-113型和POT 106-255-121型的pvl产生MRSA的比较]。

Hitoshi Miyamoto, Shinobu Murakami, Minami Tamaki, Miyako Iyoda, Ayame Hyodo, Hisamichi Tauchi, Yasunori Takasuka
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引用次数: 0

摘要

显示POT型106-77-113的耐甲氧西林金黄色葡萄球菌(MRSA)菌株与USA300相关。此外,许多菌株产生Panton-Valentine Leukocidin (PVL)。截至2018年,106-77-113是我院分离到的最占优势的pot型产pvl菌;然而,2018年分离出1株106-255-121型POT菌株,此后,自2019年以来,该菌株的分离呈增加趋势。在这项研究中,我们通过使用下一代测序仪进行遗传分析,比较了2019年至2021年三年间门诊患者皮肤感染来源材料中检测到的两种产生pvl的菌株。选取106-77-113型(POT- a)和106-255-121型(POT- b)菌株各8株,检测PVL产率、药敏、多位点测序分型(MLST)、耐药基因和毒力基因。两组均具有相同的MLST谱(3-3-3 -1-1-4- 3),但在POT-B型菌株中检测到ARCC的单核苷酸突变,确定其与POT-A和POT-B型菌株的ST 8相似。只有POT-B型菌株携带aac(6′)-aph(2″)和erm(A)基因,与药敏试验结果一致。所有菌株均对GM和CAM耐药,d区试验阳性。另一方面,POT-A菌株对GM敏感,8株中有7株对CLDM和MINO敏感。然而,发现一种POT-A型菌株携带erm(C), tet(K)和tet(M)基因,并对CAM, CLDM和MINO具有抗性。两组分离株均含有ACME、lukF-PV、LukS-PV等17个基因,致病性无差异。我院2018年首次分离到1株106-255-121型POT,此后该型分离株数不断增加。本研究证实,106-255-121型毒株与106-77-113型毒株具有相同的毒力,并且也获得了耐药基因。
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[Comparison of PVL-producing MRSA Showing POT Type 106-77-113 and POT Type 106-255-121 Detected in Materials Derived from Patients with Skin Infections].

Methicillin-resistant Staphylococcus aureus (MRSA) strains showing POT type 106-77-113 have been associated with USA300. Additionally, many strains produce Panton-Valentine Leukocidin (PVL). Until 2018, 106-77-113 was the most dominant POT-type PVL-producing bacteria isolated in our hospital; however, in 2018, one strain with POT type 106-255-121 was isolated, and thereafter, since 2019, an increasing trend towards isolation of this strain has been observed. In this study, we compared two PVL-producing strains detected in skin infections-derived materials from outpatients during the three-year period between 2019 and 2021 through genetic analysis using next-generation sequencers. Eight, each of POT types 106-77-113 (POT-A) and 106-255-121 (POT-B), strains were included in this study, and PVL productivity, drug susceptibility, multi-locus sequencing typing (MLST), and resistance genes and virulence genes were detected. Both the groups shared the same MLST profile (3-3-1-1-4-4-3), but a single nucleotide mutation of ARCC was detected in POT-B type strain, which was determined to be similar to ST 8 of POT-A and POT-B type strains. Only POT-B type strains harbored aac(6')-aph(2″) and erm(A) genes, consistent with the results of drug susceptibility tests. All the strains were resistant to GM and CAM and were positive to D-zone test. On the other hand, the POT-A strains were sensitive to GM, and 7 of 8 strains were sensitive to CLDM and MINO. However, one POT-A type strain was found to harbor erm(C), tet(K), and tet(M) genes and was resistant to CAM, CLDM, and MINO. Both groups of isolates harbored 17 genes including ACME, lukF-PV, and LukS-PV, and no difference in pathogenicity was observed. In our hospital, one strain of POT type 106-255-121 was isolated for the first time in 2018, and the number of isolates of this type has been increasing since then. The present study confirms that POT type 106-255-121 strains have the same virulence as POT type 106-77-113 strains have and have also acquired a drug resistance gene.

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