从墨西哥城分离出的医院内多药耐药肺炎克雷伯菌菌株能在非生物表面形成强大的生物膜,但在人肺细胞上则不能。
Nosocomial, Multidrug-Resistant Klebsiella pneumoniae Strains Isolated from Mexico City Produce Robust Biofilms on Abiotic Surfaces but Not on Human Lung Cells.
作者信息
Ostria-Hernandez Martha Lorena, Juárez-de la Rosa Karla Cecilia, Arzate-Barbosa Patricia, Lara-Hernández Antonino, Sakai Fuminori, Ibarra J Antonio, Castro-Escarpulli Graciela, Vidal Jorge E
机构信息
1 Laboratorio de Bacteriología Médica, Departamento de Microbiología Escuela Nacional de Ciencias Biológicas, Instituto Politécnico Nacional , Ciudad de México, México.
2 Laboratorio de Bacteriología, Departamento de Análisis Clínicos, Instituto Nacional de Pediatría , Ciudad de México, México.
出版信息
Microb Drug Resist. 2018 May;24(4):422-433. doi: 10.1089/mdr.2017.0073. Epub 2017 Sep 15.
BACKGROUND
Klebsiella pneumoniae (Kpn) strains are a leading cause of hospital-acquired infections, including ventilator-associated pneumonia. Resistance to antibiotics, biofilm formation, and the production of certain fimbriae play an important role in the pathogenesis.
AIM
We investigated the genetic relatedness, antibiotic resistance, virulence potential, and ability to form biofilms of Kpn strains isolated from hospital-acquired infections (n = 76). Strains were isolated at three major hospitals serving the largest metropolitan urban area in Mexico City, Mexico.
RESULTS
Enterobacterial repetitive intergenic consensus (ERIC)-PCR demonstrated that clonal groups predominate in each hospital. Selected strains chosen from clonal groups (n = 47) were multidrug resistant (MDR, 83%), although the majority (∼70%) were susceptible to carbapenems. All strains produced robust biofilms on abiotic surfaces, and ∼90% harbored adhesin genes fimH, mrkA, and ecpA. The ultrastructure of biofilms was further studied by high-resolution confocal microscopy. The average height of Kpn biofilms on abiotic surfaces was ∼40 μm. We then assessed formation of biofilms on human lung cells, as a surrogate of lung infection. While Kpn strains formed robust biofilms on abiotic surfaces, studies on lung cells revealed attachment to human cells but scarce formation of biofilms. Gene expression studies revealed a differential temporal expression of an adhesin (ecpA) and a capsule (galF) gene when biofilms were formed on different substrates.
CONCLUSIONS
Kpn strains isolated from nosocomial infections in Mexico City are MDR, although the majority are still susceptible to carbapenems and form more robust biofilms on polystyrene in comparison to those formed on human cells.
背景
肺炎克雷伯菌(Kpn)菌株是医院获得性感染的主要原因,包括呼吸机相关性肺炎。对抗生素的耐药性、生物膜形成以及某些菌毛的产生在发病机制中起重要作用。
目的
我们调查了从医院获得性感染中分离出的肺炎克雷伯菌菌株(n = 76)的遗传相关性、抗生素耐药性、毒力潜力和形成生物膜的能力。这些菌株是在墨西哥墨西哥城最大都市地区的三家主要医院分离得到的。
结果
肠杆菌基因间重复一致序列(ERIC)-PCR表明,每个医院中克隆群占主导地位。从克隆群中选择的菌株(n = 47)大多为多重耐药(MDR,83%),尽管大多数(约70%)对碳青霉烯类药物敏感。所有菌株在非生物表面均能产生强大的生物膜,约90%携带黏附素基因fimH、mrkA和ecpA。通过高分辨率共聚焦显微镜进一步研究了生物膜的超微结构。肺炎克雷伯菌在非生物表面生物膜的平均高度约为40μm。然后,我们评估了在人肺细胞上生物膜的形成情况,以此作为肺部感染的替代模型。虽然肺炎克雷伯菌菌株在非生物表面能形成强大的生物膜,但对肺细胞的研究显示,它们能黏附于人体细胞,但生物膜形成较少。基因表达研究表明,当在不同底物上形成生物膜时,一种黏附素(ecpA)和一种荚膜(galF)基因的表达具有时间差异。
结论
从墨西哥城医院感染中分离出的肺炎克雷伯菌菌株具有多重耐药性,尽管大多数仍对碳青霉烯类药物敏感,且与在人体细胞上形成的生物膜相比,在聚苯乙烯上形成的生物膜更强。
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