Searching for carbapenemases in zoo animals
Abstract
Searching for novel carbapenemases in zoo animals
Degree project, Programme in Medicine
Martin Thorslund
2018, Institute of Biomedicine, Gothenburg, Sweden
1.1 Introduction
Carbapenems, a class of “last resort” antibiotics, are threatened by resistant pathogens
producing carbapenemases. There is increasing evidence that the environmental/commensal
bacteria act as a source of antibiotic resistance genes that can be picked up by pathogens.
Sampling animal microbiota could increase the probability of finding genes that have the
potential to migrate the pathogens.
1.2 Aim
To screen for novel carbapenemases in the stool of animals never purposely exposed to
carbapenems.
1.3 Methods and results
By inoculating fecal samples from 43 zoo animals in meropenem-supplemented broths, 31
meropenem-resistant strains were isolated; the majority could be identified as opportunistic
bacteria by MALDI-TOF. Seventeen isolates were positive in Carba NP and imipenem-EDTA
synergy tests, indicating carriage of genes encoding carbapenemases of the metallo-β-
lactamase (MBL) class. Total DNA was isolated from meropenem-supplemented broths with
visible growth and sequenced. Through newly developed hidden Markov models, 19 novel
MBLs were found, 13 novel B1 and 6 novel B3 genes, by screening the sequenced DNA.
2
PCR could link 6 novel B1 and 3 novel B3 MBLs to specific isolates. Samples was also
pooled into five groups according to their animal origin, 11 novel B1s and 4 novel B3s could
be linked to one or more of these animal groups.
1.4 Conclusion/implications
MBLs were readily detectable in the gut flora of the sampled zoo animals, including
previously unknown ones, even though relatively selective methodology was applied. Their
presence in gut commensals/opportunists should reduce some barriers for transfer to
pathogens. Next step is to sequence the isolates to gain knowledge about mobility and
possibly origin of the novel carbapenemase genes found.
Degree
Student essay
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Date
2018-04-13Author
Thorslund, Martin
Keywords
Antibiotic resistance, Carbapenemases, Metallo-β-lactamases, Resistome
Language
eng