Abstract
QSAR analysis of a set of previously synthesized phosphonium ionic liquids (PILs) tested against Gram-negative multidrug-resistant clinical isolate Acinetobacter baumannii was done using the Online Chemical Modeling Environment (OCHEM). To overcome the problem of overfitting due to descriptor selection, fivefold cross-validation with variable selection in each step of the model development was applied. The predictive ability of the classification models was tested by cross-validation, giving balanced accuracies (BA) of 76%-82%. The validation of the models using an external test set proved that the models can be used to predict the activity of newly designed compounds with a reasonable accuracy within the applicability domain (BA=83%-89%). The models were applied to screen a virtual chemical library with expected activity of compounds against MDR Acinetobacter baumannii. The eighteen most promising compounds were identified, synthesized, and tested. Biological testing of compounds was performed using the disk diffusion method in Mueller-Hinton agar. All tested molecules demonstrated high anti-A.baumannii activity and different toxicity levels. The developed classification SAR models are freely available online at http://ochem.eu/article/113921 and could be used by scientists for design of new more effective antibiotics.
Highlights
It is known that the persistent change of infectious human pathogens is connected with widespread and uncontrolled use of antibiotics, the lack of vaccination, a significant number of individuals with immune-mediated diseases, expansion of migration processes in society, development of new technologies, etc
Gram-negative bacteria Acinetobacter spp. are one of the most dangerous multidrug-resistant (MDR) ESKAPE pathogens for the human population.(Rice, 2010) In particular, different kinds of hospital-acquired infections caused by opportunistic microbe A. baumannii have increased in recent years
We investigated antibacterial activity of new phosphonium ionic liquids (PILs)
Summary
It is known that the persistent change of infectious human pathogens is connected with widespread and uncontrolled use of antibiotics, the lack of vaccination, a significant number of individuals with immune-mediated diseases, expansion of migration processes in society, development of new technologies, etc. Acinetobacter spp. are usually highly resistant to a number of commonly used antibiotics, including ampicillin, carbenicillin, cefoxitin, gentamicin, chloramphenicol.(Seifert et al, 1993; Vila et al, 1993) The multidrug resistance of these bacteria is mediated by all of the major resistance mechanisms that are known to occur in bacteria. These include the modification of target sites (the methylation of ribosomal RNA), enzymatic inactivation (β-lactamases, aminoglycosidases, tetraciclinases), and the slowing of drug influx and direct active efflux.(Dijkshoorn et al, 2007) extensive research and the development of new antibacterials for the prevention or treatment of MDR Acinetobacter infection are highly relevant and necessary
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
