Morphological and ultrastructural changes in bacterial cells as an indicator of antibacterial mechanism of action

Efforts to reduce the global burden of bacterial disease and contend with escalating bacterial resistance are spurring innovation in antibacterial drug and biocide development and related technologies such as photodynamic therapy and photochemical disinfection. Elucidation of the mechanism of action...

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Bibliographic Details
Published in:Cellular and molecular life sciences : CMLS 2016-12, Vol.73 (23), p.4471-4492
Main Authors: Cushnie, T. P. Tim, O’Driscoll, Noëlle H., Lamb, Andrew J.
Format: Article
Language:English
Subjects:
Anti-Bacterial Agents - pharmacology
Bacteria
Bacteria - cytology
Bacteria - drug effects
Bacteria - ultrastructure
Bacterial diseases
Bacteriology
Biochemistry
Biochemistry, Molecular Biology
Biocides
Biomedical and Life Sciences
Biomedicine
Cell Behavior
Cell Biology
Cell Wall - drug effects
Cell Wall - metabolism
Cells
Cellular Biology
Chemical Sciences
Human health and pathology
Infectious diseases
Life Sciences
Microbiology and Parasitology
Morphology
Organelles - drug effects
Organelles - metabolism
Organelles - ultrastructure
Organic chemistry
Peptidoglycan - metabolism
Pharmaceutical sciences
Pharmacology
Photochemicals
Protoplasts - drug effects
Protoplasts - ultrastructure
Review
Subcellular Processes
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Summary:Efforts to reduce the global burden of bacterial disease and contend with escalating bacterial resistance are spurring innovation in antibacterial drug and biocide development and related technologies such as photodynamic therapy and photochemical disinfection. Elucidation of the mechanism of action of these new agents and processes can greatly facilitate their development, but it is a complex endeavour. One strategy that has been popular for many years, and which is garnering increasing interest due to recent technological advances in microscopy and a deeper understanding of the molecular events involved, is the examination of treated bacteria for changes to their morphology and ultrastructure. In this review, we take a critical look at this approach. Variables affecting antibacterial-induced alterations are discussed first. These include characteristics of the test organism (e.g. cell wall structure) and incubation conditions (e.g. growth medium osmolarity). The main body of the review then describes the different alterations that can occur. Micrographs depicting these alterations are presented, together with information on agents that induce the change, and the sequence of molecular events that lead to the change. We close by highlighting those morphological and ultrastructural changes which are consistently induced by agents sharing the same mechanism (e.g. spheroplast formation by peptidoglycan synthesis inhibitors) and explaining how changes that are induced by multiple antibacterial classes (e.g. filamentation by DNA synthesis inhibitors, FtsZ disruptors, and other types of agent) can still yield useful mechanistic information. Lastly, recommendations are made regarding future study design and execution.
ISSN:1420-682X
1420-9071
DOI:10.1007/s00018-016-2302-2