The ability of various strains of Staphylococcus to create biofilms and their effect on cells of the human body

Research on staphylococci research is important because of their ability to cause such severe infections as soft tissue infections, endocarditis, sepsis, toxic shock syndrome, and food poisoning. Coagulase-positive Staphylococcus aureus is the main infection agent of intrahospital infections. This agent has many factors of pathogenicity, which are well known. Among the coagulase-negative staphylococcus (CNS) strains, S. haemolyticus and S. epidermidis are clinically important, because they cause infections in patients with weakened immune system. The mechanisms of the CNS pathogenicity are understood insufficiently. The goal of this work was to evaluate the potential pathogenicity of clinical CNS strains based on their capacity to form biofilms and their character of interaction with the human cells through an example of HT-29 cell culture. The research was carried out on the laboratory strain S. aureus ATCC 29213 and clinical strains S. haemolyticus SH39 and S. epidermidis SE 36-1, which were isolated from neonatal autopsy materials. The visual tests of biofilm formation by each strain and testing the impact of the strains on HT-29 cell culture were carried out in this work. Two CNS species form biofilms with a higher rate than S. aureus. Upon incubation for 2 h of HT-29 cells with the staphylococcus strains tested in this work, adhesion of bacteria on the cells’ surfaces was observed. The adhesion was most pronounced in the case of S. aureus ATCC 29213 and S. haemolyticus SH39. Upon 3 h of incubation with S. aureus ATCC 29213 and S. haemolyticus SH39, the destruction of a monolayer of HT-29 cells was observed. The incubation for 24 h with three strains tested in this work caused the complete destruction of the monolayer of HT-29 cells. The maximal toxic effect on HT-29 cells was inherent in S. haemolyticus SH39 strain. The cumulative results obtained in this work indicate the presence of the pathogenicity factors in S. haemolyticus SH39 strain, and their molecular nature needs to be researched further.