Abstract
Bronchopulmonary dysplasia (BPD) is a devastating lung disorder of preterm infants as a result of an aberrant reparative response following exposures to various antenatal and postnatal insults. Despite sophisticated medical treatment in this modern era, the incidence of BPD remains unabated. The current strategies to prevent and treat BPD have met with limited success. The emergence of stem cell therapy may be a potential breakthrough in mitigating this complex chronic lung disorder. Over the last two decades, the human placenta and umbilical cord have gained increasing attention as a highly potential source of stem cells. Placenta-derived stem cells (PDSCs) and umbilical cord-derived stem cells (UCDSCs) display several advantages such as immune tolerance and are generally devoid of ethical constraints, in addition to their stemness qualities. They possess the characteristics of both embryonic and mesenchymal stromal/stem cells. Recently, there are many preclinical studies investigating the use of these cells as therapeutic agents in neonatal disease models for clinical applications. In this review, we describe the preclinical and clinical studies using PDSCs and UCDSCs as treatment in animal models of BPD. The source of these stem cells, routes of administration, and effects on immunomodulation, inflammation and regeneration in the injured lung are also discussed. Lastly, a brief description summarized the completed and ongoing clinical trials using PDSCs and UCDSCs as therapeutic agents in preventing or treating BPD. Due to the complexity of BPD, the development of a safe and efficient therapeutic agent remains a major challenge to both clinicians and researchers.
Highlights
TO STEM CELL BIOLOGYStem cell therapy has evolved tremendously since its first success story of bone marrow cells in regenerating a rodent’s infarcted myocardium [1]
We focused on stem cells harvested from placenta and umbilical cord that have demonstrated potential therapeutic value in Bronchopulmonary dysplasia (BPD)
human lung fibroblasts (HLF) transdifferentiation into myofibroblasts were inhibited, indicating that UC-mesenchymal stromal/stem cells (MSCs) could inhibit lung elastase activity. These findings showed that umbilical cord mesenchymal stromal/stem cells (UC-MSCs) could ameliorate aberrant elastin expression and deposition in the lung of hyperoxia-induced BPD models, possibly through the suppression of transforming growth factor-β (TGF-β) [151]
Summary
TO STEM CELL BIOLOGYStem cell therapy has evolved tremendously since its first success story of bone marrow cells in regenerating a rodent’s infarcted myocardium [1]. They reported that intravenous administration of EVs derived from both BM-MSCs and UC-MSCs in hypoxic mice model were able to inhibit influx of alveolar macrophages and pro-inflammatory cytokines, besides ameliorate lung vascular remodeling and pulmonary hypertension.
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