Human Leukocytes Adhere to, Penetrate, and Respond to Staphylococcus aureus Biofilms
JG Leid, ME Shirtliff, JW Costerton… - Infection and …, 2002 - Am Soc Microbiol
JG Leid, ME Shirtliff, JW Costerton, P Stoodley
Infection and immunity, 2002•Am Soc MicrobiolStaphylococcus aureus is a common pathogen responsible for nosocomial and community
infections. It readily colonizes indwelling catheters, forming microbiotic communities termed
biofilms. S. aureus bacteria in biofilms are protected from killing by antibiotics and the body's
immune system. For years, one mechanism behind biofilm resistance to attack from the
immune system's sentinel leukocytes has been conceptualized as a deficiency in the ability
of the leukocytes to penetrate the biofilm. We demonstrate here that under conditions …
infections. It readily colonizes indwelling catheters, forming microbiotic communities termed
biofilms. S. aureus bacteria in biofilms are protected from killing by antibiotics and the body's
immune system. For years, one mechanism behind biofilm resistance to attack from the
immune system's sentinel leukocytes has been conceptualized as a deficiency in the ability
of the leukocytes to penetrate the biofilm. We demonstrate here that under conditions …
Abstract
Staphylococcus aureus is a common pathogen responsible for nosocomial and community infections. It readily colonizes indwelling catheters, forming microbiotic communities termed biofilms. S. aureus bacteria in biofilms are protected from killing by antibiotics and the body's immune system. For years, one mechanism behind biofilm resistance to attack from the immune system's sentinel leukocytes has been conceptualized as a deficiency in the ability of the leukocytes to penetrate the biofilm. We demonstrate here that under conditions mimicking physiological shear, leukocytes attach, penetrate, and produce cytokines in response to maturing and fully matured S. aureus biofilm.
American Society for Microbiology