Abstract
ABSTRACTPeriprosthetic joint infection (PJI) is a potentially devastating complication of orthopedic joint replacement surgery. PJI with associated osteomyelitis is particularly problematic and difficult to cure. Whether viable osteocytes, the predominant cell type in mineralized bone tissue, have a role in these infections is not clear, although their involvement might contribute to the difficulty in detecting and clearing PJI. Here, using Staphylococcus aureus, the most common pathogen in PJI, we demonstrate intracellular infection of human-osteocyte-like cells in vitro and S. aureus adaptation by forming quasi-dormant small-colony variants (SCVs). Consistent patterns of host gene expression were observed between in vitro-infected osteocyte-like cultures, an ex vivo human bone infection model, and bone samples obtained from PJI patients. Finally, we confirm S. aureus infection of osteocytes in clinical cases of PJI. Our findings are consistent with osteocyte infection being a feature of human PJI and suggest that this cell type may provide a reservoir for silent or persistent infection. We suggest that elucidating the molecular/cellular mechanism(s) of osteocyte-bacterium interactions will contribute to better understanding of PJI and osteomyelitis, improved pathogen detection, and treatment.
Highlights
Periprosthetic joint infection (PJI) is a potentially devastating complication of orthopedic joint replacement surgery
S. aureus was investigated because of its common association with bone infection and its well-characterized ability to exist in the quasidormant small-colony variant (SCV) lifestyle, which potentially contributes to a chronic disease state [16]
We demonstrate the presence of S. aureus antigens in viable osteocytes present in regions of infected PJI patient bone
Summary
Periprosthetic joint infection (PJI) is a potentially devastating complication of orthopedic joint replacement surgery. To investigate whether S. aureus is capable of penetrating human cancellous bone to contact osteocytes, fresh bone specimens were tested for susceptibility to bacterial infection ex vivo.
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