Gong-Xiang Chen1, Rong Zhang, Hong Wei Zhou. 1. 2nd Affiliated Hospital of Zhejiang University, Zhejiang University, Hangzhou, China. chengong218@163.com
Abstract
OBJECTIVES: To determine the distribution and heterogeneity of metallo-beta-lactamases (MBLs) responsible for imipenem resistance in Chryseobacterium meningosepticum. METHODS: Clinical C. meningosepticum isolates (n = 170) were collected from hospitals in Hangzhou, China. Production of MBLs was investigated by determination of imipenem MICs, and by using both a three-dimensional test and a 2-mercaptopropionic acid inhibitory test. Genes encoding BlaB and GOB MBLs were amplified by PCR, sequenced and compared with genes in GenBank. RESULTS: More than 95% of the 170 isolates showed high (MIC > 16 mg/L) or intermediate resistance to imipenem, but only 94 isolates (55%) were shown phenotypically to produce MBLs (imipenem MIC range, 8-256 mg/L), with MBL genes detected in 93 of these. Among them, 83 isolates had blaB alleles and 65 isolates had bla(GOB) alleles; 38 isolates possessed one MBL gene and 55 isolates contained two genes. The major blaB alleles encoded BlaB-2, -3 and -11, while the major bla(GOB) alleles encoded GOB-2, -4, -8 and -10. MBLs or their genes were not detected in 76 (45%) isolates, including many that were highly resistant to imipenem. CONCLUSIONS: High levels and rates of imipenem resistance in C. meningosepticum from Hangzhou often result from the presence of heterogeneous BlaB and/or GOB MBLs, although undefined carbapenem resistance mechanisms also exist. Susceptibility testing and screening for MBLs should be conducted in order to inform effective treatment for C. meningosepticum infections.
OBJECTIVES: To determine the distribution and heterogeneity of metallo-beta-lactamases (MBLs) responsible for imipenem resistance in Chryseobacterium meningosepticum. METHODS: Clinical C. meningosepticum isolates (n = 170) were collected from hospitals in Hangzhou, China. Production of MBLs was investigated by determination of imipenem MICs, and by using both a three-dimensional test and a 2-mercaptopropionic acid inhibitory test. Genes encoding BlaB and GOB MBLs were amplified by PCR, sequenced and compared with genes in GenBank. RESULTS: More than 95% of the 170 isolates showed high (MIC > 16 mg/L) or intermediate resistance to imipenem, but only 94 isolates (55%) were shown phenotypically to produce MBLs (imipenem MIC range, 8-256 mg/L), with MBL genes detected in 93 of these. Among them, 83 isolates had blaB alleles and 65 isolates had bla(GOB) alleles; 38 isolates possessed one MBL gene and 55 isolates contained two genes. The major blaB alleles encoded BlaB-2, -3 and -11, while the major bla(GOB) alleles encoded GOB-2, -4, -8 and -10. MBLs or their genes were not detected in 76 (45%) isolates, including many that were highly resistant to imipenem. CONCLUSIONS: High levels and rates of imipenem resistance in C. meningosepticum from Hangzhou often result from the presence of heterogeneous BlaB and/or GOB MBLs, although undefined carbapenem resistance mechanisms also exist. Susceptibility testing and screening for MBLs should be conducted in order to inform effective treatment for C. meningosepticum infections.
Authors: Muhammad Idrees; Muhammad Yasir Noorani; Kalim Ullah Altaf; Eid A Alatawi; Faris F Aba Alkhayl; Khaled S Allemailem; Ahmad Almatroudi; Murad Ali Khan; Muhammad Hamayun; Taimoor Khan; Syed Shujait Ali; Abbas Khan; Dong-Qing Wei Journal: Int J Environ Res Public Health Date: 2021-12-24 Impact factor: 3.390