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W2274519180 abstract "Antibiotic-resistant bacterial infections are a major concern to public health. Phage therapy has been proposed as a promising alternative to antibiotics, but an increasing number of studies suggest that both of these antimicrobial agents in combination are more effective in controlling pathogenic bacteria than either alone. We advocate the use of phages in combination with antibiotics and present the evolutionary basis for our claim. In addition, we identify compelling challenges for the realistic application of phage–antibiotic combined therapy. Antibiotic-resistant bacterial infections are a major concern to public health. Phage therapy has been proposed as a promising alternative to antibiotics, but an increasing number of studies suggest that both of these antimicrobial agents in combination are more effective in controlling pathogenic bacteria than either alone. We advocate the use of phages in combination with antibiotics and present the evolutionary basis for our claim. In addition, we identify compelling challenges for the realistic application of phage–antibiotic combined therapy. The efficacy of new and old antibiotics could be preserved if combined with phages. Positive interactions have been observed between antibiotics and lytic phages in controlling bacterial pathogens both in vitro and in vivo. Phage–antibiotic combinations are capable of targeting multidrug-resistant bacteria but their underlying mechanisms remain to be discovered. Evolutionary biology provides a framework for understanding the interactions between antimicrobial agents and the successful management of bacterial pathogens, their resistance, and their virulence. Video Abstract https://www.cell.com/cms/asset/f4d1b750-0d2c-48be-8d04-ee92c399bb9f/mmc1.mp4 Loading ... (mp4, 42.57 MB) Download video The efficacy of new and old antibiotics could be preserved if combined with phages. Positive interactions have been observed between antibiotics and lytic phages in controlling bacterial pathogens both in vitro and in vivo. Phage–antibiotic combinations are capable of targeting multidrug-resistant bacteria but their underlying mechanisms remain to be discovered. Evolutionary biology provides a framework for understanding the interactions between antimicrobial agents and the successful management of bacterial pathogens, their resistance, and their virulence. group of microorganisms that adhere to each other, frequently embedded within a self-produced extracellular matrix. occurs when one of two or more species competing for the same resource or exposed to the same stressor disappears, thereby allowing the remaining competitor(s) to utilize the resource and repopulate the community. major component of the outer membrane of Gram-negative bacteria. Large molecules consisting of a lipid and a polysaccharide composed of an O-antigen, expressed as an outer core and inner core joined by a covalent bond. a phenomenon whereby antibiotics stimulate the production of phages by bacterial hosts under certain conditions. dormant variants of regular cells that form stochastically in microbial populations and are highly tolerant to antibiotics. proteins that cross a cellular membrane in bacteria and act as a pore through which molecules such as small metabolites or antibiotics can diffuse. the monitoring of the environment for other bacteria resulting in the coordination of gene expression. general bacterial stress response pathway that is induced by DNA damage caused by a wide range of stressors, including antibiotics. Effects of its activation include increased bacterial survival and antibiotic resistance, prophage activation, or the horizontal transfer of virulence factors." @default.
W2274519180 created "2016-06-24" @default.
W2274519180 creator A5023284458 @default.
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W2274519180 date "2016-04-01" @default.
W2274519180 modified "2023-10-12" @default.
W2274519180 title "Evolutionary Rationale for Phages as Complements of Antibiotics" @default.
W2274519180 cites W1480966304 @default.
W2274519180 cites W1489218935 @default.
W2274519180 cites W1869714721 @default.
W2274519180 cites W1894674272 @default.
W2274519180 cites W1964206937 @default.
W2274519180 cites W1968730805 @default.
W2274519180 cites W1971904844 @default.
W2274519180 cites W1973217153 @default.
W2274519180 cites W1974021748 @default.
W2274519180 cites W1981636515 @default.
W2274519180 cites W1982551127 @default.
W2274519180 cites W1985164462 @default.
W2274519180 cites W1988594072 @default.
W2274519180 cites W1994932350 @default.
W2274519180 cites W1995546925 @default.
W2274519180 cites W1996764065 @default.
W2274519180 cites W2009889907 @default.
W2274519180 cites W2010421805 @default.
W2274519180 cites W2012251902 @default.
W2274519180 cites W2013330518 @default.
W2274519180 cites W2015789053 @default.
W2274519180 cites W2016394370 @default.
W2274519180 cites W2016484793 @default.
W2274519180 cites W2018949401 @default.
W2274519180 cites W2020980395 @default.
W2274519180 cites W2021526043 @default.
W2274519180 cites W2040274090 @default.
W2274519180 cites W2040375736 @default.
W2274519180 cites W2060043032 @default.
W2274519180 cites W2066011090 @default.
W2274519180 cites W2069912803 @default.
W2274519180 cites W2075429778 @default.
W2274519180 cites W2078143319 @default.
W2274519180 cites W2079063568 @default.
W2274519180 cites W2079752712 @default.
W2274519180 cites W2086919865 @default.
W2274519180 cites W2101996554 @default.
W2274519180 cites W2103255912 @default.
W2274519180 cites W2103466597 @default.
W2274519180 cites W2104250926 @default.
W2274519180 cites W2112077920 @default.
W2274519180 cites W2118781326 @default.
W2274519180 cites W2119129125 @default.
W2274519180 cites W2123844970 @default.
W2274519180 cites W2127319233 @default.
W2274519180 cites W2135092459 @default.
W2274519180 cites W2135596527 @default.
W2274519180 cites W2137278228 @default.
W2274519180 cites W2140353364 @default.
W2274519180 cites W2145350205 @default.
W2274519180 cites W2157863243 @default.
W2274519180 cites W2159445822 @default.
W2274519180 cites W2169036128 @default.
W2274519180 cites W2170986922 @default.
W2274519180 cites W2172146785 @default.
W2274519180 cites W2332533458 @default.
W2274519180 cites W927563535 @default.
W2274519180 doi "https://doi.org/10.1016/j.tim.2015.12.011" @default.
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