Mesenchymal stem cells (MSCs) are capable of forming bone, cartilage and other mesenchymal tissues but are also important modulators of innate and adaptive immune responses. We have capitalized on these important functions to mitigate adverse responses when bone is exposed to pathogen-associated molecular patterns (PAMPs), damage-associated molecular patterns (DAMPs), or prolonged pro-inflammatory cytokines. Our goal was to optimize osteogenesis and mitigate persistent undesired inflammation by: 1. preconditioning MSCs by short term exposure to lipopolysaccharide (LPS) and Tumor Necrosis Factor alpha (TNF-α), 2. genetic modification of MSCs to overexpress Interleukin 4 (IL-4) either constitutively, or as NFκB-responsive IL-4 over-expression cells, and 3. training the MSCs (innate immune memory) by repeated stimulation with LPS.

In the first experiment, bone marrow MSCs and macrophages were isolated from femurs and tibias of C57BL/6 mice. MSCs (1×104 cells) were seeded in 24-well transwell plates in the bottom chamber with MSC growth medium. MSCs were treated with 20 ng/ml TNF-α and 1–20 μg/ml LPS for three days. Primary macrophages (2 × 103 cells) were seeded to the insert of a separate transwell plate and polarized into the M1 phenotype. At day four, MSCs and macrophages were washed and the inserts with M1 macrophages were moved to the plates containing preconditioned MSCs at the bottom of the well. Co-culture was carried out in MSC growth medium for 24h.

In the second experiment, bone marrow derived macrophages and MSCs were isolated from femora and tibiae of Balb/c male mice. 5×104 macrophages and 1×104 MSCs were seeded in the bottom well of the 24-well transwell plate. The upper chambers were seeded with unmodified MSCs, MSCs preconditioned with 20 ng/ml TNF-α and 20 mg/ml LPS for 3 days, NFκB-IL4 secreting MSCs (all 5×104 cells), or controls without MSCs. Co-culture was carried out in mixed osteogenic-macrophage media with clinically relevant polyethylene or titanium alloy particles.

In the third experiment, bone marrow MSCs and macrophages were collected from femurs and tibias of C57BL/6 male mice. The MSCs were stimulated by LPS, washed out for five days, and re-stimulated by LPS in co-culture with macrophages.

First, preconditioned MSCs enhanced anti-inflammatory M2 macrophage (Arginase 1 and CD206) expression, decreased pro-inflammatory M1 macrophage (TNF-α/IL-1Ra ratio) expression, and increased osteogenic markers (alkaline phosphatase expression and matrix mineralization) in co-culture. Second, NFκB-IL4 secreting MSCs decreased pro-inflammatory M1 (TNF-α), increased anti-inflammatory M2 (Arg1, IL-1ra) expression, and enhanced the expression of osteogenic factors Runx2 and alkaline phosphatase, in the presence of particles, compared to other groups.

Third, LPS-trained MSCs increased anti-inflammatory (Arginase1 and CD206), and decreased the proinflammatory (TNF-α, IL1b, iNOS, and IL6) marker expression in MSC/macrophage co-culture.

Transforming MSCs via the techniques of preconditioning, genetic modification, or training (innate immune memory) can modulate/convert a potentially injurious microenvironment to an anti-inflammatory pro-reconstructive milieu. These effects are highly relevant for bone healing in the presence of adverse stimuli. These concepts using transformed MSCs could also be extended to other organ systems subjected to potentially damaging agents.

Aim

Previous studies had indicated that interleukin-1 beta (IL-1β) gene single nucleotide polymorphisms (SNPs) associate with different inflammatory diseases. However, potential links between these polymorphisms and susceptibility to extremity chronic osteomyelitis (COM) in Chinese population remain unclear. This study aimed to investigate relationships between IL-1β gene polymorphisms (rs16944, rs1143627, rs1143634 and rs2853550) and the risk of developing extremity COM in Chinese population.

Aim

Diagnosis of clavicle osteomyelitis (OM) is often difficult with delayed treatment due to the lower incidence of this disease. The present study aimed to summarize clinical experience with clinical features and treatment of clavicle OM.