SAN DIEGO -- In laboratory studies, e-cigarette vapors appeared to increase the aggressiveness of dangerous bacteria such as methicillin-resistant Staphylococcus aureus (MRSA), researchers reported here
MRSA resistance to neutrophil killing was doubled with vapor from low nicotine content e-cigarettes (P<0.05) or tripled (P<0.05) when exposed to high nicotine level e-cigarette vapor, said , of the University of California San Diego and the Veterans Affairs San Diego Healthcare System.
Action Points
- Note that this study was published as an abstract and presented at a conference. These data and conclusions should be considered to be preliminary until published in a peer-reviewed journal.
- The virulence of MRSA is increased by electronic cigarette vapor exposure, likely through several mechanisms.
She presented the research at the annual meeting of the American Thoracic Society.
"Regular cigarette smoke we all hate because it causes so many bad things and we were really hopeful that e-cigarettes would be a safer alternative," Crotty Alexander told ѻý. "However it is very hard to advise our patients in this era where we don't know the effects of e-cigarette smoking," she said.
She said that, while her work was done in the laboratory setting, other researchers are examining possible connections to human illness. Since MRSA generally colonizes in the nasopharynx, inhaled vapors would likely affect the bacteria.
What she did find in her experiments was that "the virulence of MRSA is increased by e-cigarette exposure." Crotty Alexander explained that e-cigarette vapors induce MRSA to produce acids as a defense mechanism within the first 3 hours of exposure, similar to the organisms' mechanism for defending against nitric oxide -- one of the components of innate immune responses to infection.
"Moreover, e-cigarette vapor exposure up-regulates MRSA biofilm formation, consistent with boosting virulence," she reported in her poster presentation. "In cellular killing assays, e-cigarette vapor-MRSA are able to avoid killing by both macrophages and neutrophils. This is due to e-cigarette vapor induced changes in surface charge, acid secretion, and biofilm formation."
To conduct the e-cigarette vapor experiments, the researchers grew MRSA in culture with vapor concentrations similar to inhalers on the market. They tested first for biochemical changes in the culture known to promote pathogen virulence and then introduced epithelial cell- and alveolar macrophage-killing assays.
Crotty Alexander suggested that one possible contribution to the increased virulence of MRSA was the rapid change in pH induced by e-cigarette vapor. Exposure changed the pH from 7.4 up to 8.4, making the environment very alkalotic for both bacterial and mammalian cells. This alkalosis stresses the cells, giving them a danger signal, leading to activation of defense mechanisms. The bacteria make their surface more positively charged, to avoid binding by the lethal antimicrobial peptides produced by human innate immune cells. The bacteria also form thicker biofilms, increasing their stickiness and making MRSA less vulnerable to chemical and cellular attack.
These changes make MRSA more virulent. However, when MRSA is exposed to regular cigarette smoke, their virulence is even greater. Cigarette smoke induces surface charge changes 10-fold greater than that of e-cigarette exposure, she said.
"So from our laboratory finding showing that its effects on bacteria aren't as severe as those caused by regular cigarette smoke, e-cigarette vapor still is not benign, and it is making these bacteria more aggressive," she said.
She said that, to her knowledge, her group is the first to study the relationship between e-cigarette vapors and microbial virulence.
"As healthcare professionals, we are always being asked by patients, 'Would this be better for me?'" Crotty Alexander said. "In the case of smoking e-cigarettes, I hated not having an answer. Our research shows that e-cigarettes are probably not safe to use. They might not be as bad as regular cigarette smoke, but nothing we are reporting supports the safe use of them."
Other investigators are studying effects of e-cigarette vapors on mechanisms that could lead to cancerous changes in airway cells.
Disclosures
Crotty Alexander had no relevant relationships with industry.
Primary Source
American Thoracic Society
Crotty Alexander L, et al "Electronic cigarette vapor exposure decreases staphylococcus aureus susceptibility to macrophage and neutrophil killing" ATS 2014; Abstract A6624.