Abstract
Oxidative stress hinders tissue regeneration in cell therapy by inducing apoptosis and dysfunction in transplanted cells. N-acetyl-L-cysteine (NAC) reinforces cellular antioxidant capabilities by increasing a major cellular endogenous antioxidant molecule, glutathione, and promotes osteogenic differentiation. This study investigates the effects of pretreatment of osteoblast-like cells with NAC on oxidative stress-induced apoptosis and dysfunction and bone regeneration in local transplants. Rat femur bone marrow-derived osteoblast-like cells preincubated for 3 h with and without 5 mM NAC were cultured in a NAC-free osteogenic differentiation medium with continuous exposure to 50 μM hydrogen peroxide to induce oxidative stress. NAC preincubation prevented disruption of intracellular redox balance and alleviated apoptosis and negative impact on osteogenic differentiation, even under oxidative stress. Autologous osteoblast-like cells with and without NAC pretreatment in a collagen sponge vehicle were implanted in critical-size defects in rat femurs. In the third week, NAC-pretreated cells yielded complete defect closure with significantly matured lamellar bone tissue in contrast with poor bone healing by cells without pretreatment. Cell-tracking analysis demonstrated direct bone deposition by transplanted cells pretreated with NAC. Pretreatment of osteoblast-like cells with NAC enhances bone regeneration in local transplantation by preventing oxidative stress-induced apoptosis and dysfunction at the transplanted site.
Highlights
Local transplantation of mesenchymal stem cells (MSCs) is one of the effective therapies for bone regeneration in orthopedics and dentistry [1,2]
bone marrow-derived MSCs (BMSCs) were isolated from the femur of an 8-week-old Sprague Dawley (SD) rat (Nippon SLC, Shizuoka, Japan) and cultured for osteogenic induction in an osteogenic differentiation medium (ODM) for 2 weeks
The cells preincubated with 5 mM NAC for 6 h tended to develop cellular projections more than the cells preincubated with 5 mM NAC for 3 h or the cells without NAC preincubation
Summary
Local transplantation of mesenchymal stem cells (MSCs) is one of the effective therapies for bone regeneration in orthopedics and dentistry [1,2]. Transplantation of naive MSC is therapeutically purposed to modulate the regenerative microenvironment [4,5,6], whereas implantation of cultured osteoblasts derived from MSCs is explored to supply bone-forming cells with osteoinductive properties [7,8,9,10]. The effectiveness of cell transplantation on tissue regeneration still has room for improvement [11,12]. The reduced number of transplanted cells compromises the effectiveness of tissue regeneration [16,17]. Loss of viability of transplanted cells fails to track the fate of the transplanted cells in local tissue. Improvement of viability of transplanted cells would lead to enhancing the effectiveness of tissue regeneration and clarifying the cell fate after local transplantation
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