The potential role of mesenchymal stem cells in modulating antiageing process.

Ageing and age-related diseases share some basic origin that largely converges on inflammation. Precisely, it boils down to a common pathway characterised by the appearance of a fair amount of proinflammatory cytokines known as inflammageing. Among the proposed treatment for antiageing, MSCs gained attention in recent years. Since mesenchymal stem cells (MSCs) can differentiate itself into a myriad of terminal cells, previously it was believed that these cells migrate to the site of injury and perform their therapeutic effect. However, with the more recent discovery of huge amounts of paracrine factors secreted by MSCs, it is now widely accepted that these cells do not engraft upon transplantation but rather unveil their benefits through excretion of bioactive molecules namely those involved in inflammatory and immunomodulatory activities. Conversely, the true function of these paracrine changes has not been thoroughly investigated all these years. Hence, this review will describe in detail on ways MSCs may capitalize its paracrine properties in modulating antiageing process. Through a comprehensive literature search various elements in the antiageing process, we aim to provide a novel treatment perspective of MSCs in antiageing related clinical conditions.

From banked human cord blood to induced pluripotent stem cells: New opportunities and promise in induced pluripotent stem cell banking (Review).

Umbilical cord blood (CB) is a valuable source of haematopoietic stem/progenitor cells (HSCs) and is known for the therapeutic use of these cells in treating blood disorders. However, challenges such as a high running cost and the increasing availability of treatment alternatives have made the effort to sustain CB banks difficult. This prompts the need to revisit the current CB banking initiatives to retain the relevance in this ever­changing era parallel to the fast­pacing development of cell­based therapeutic technology. Cellular reprogramming has shown to have successfully converted adult somatic cells into human induced pluripotent stem cells (hiPSCs), which promise wider applications in regenerative medicine, personalized treatment and tissue engineering. CB is the youngest, primitive adult cell source that has not been affected by any prior, acquired disorders. Hence, using CB as a source of candidate cells for generating hiPSCs may be a new opportunity for banking, albeit with challenges. The present review summarizes the rise and fall of CB usage and banking for clinical therapy, the considerations in reprogramming CB into hiPSCs, the safety concerns regarding the use of hiPSC­derived cells in clinical transplantation and the prospect of using CB­derived hiPSCs.

Headway and the remaining hurdles of mesenchymal stem cells therapy for bronchopulmonary dysplasia.

OBJECTIVE: Preterm infants are at a high risk of developing BPD. Although progression in neonatal care has improved, BPD still causes significant morbidity and mortality, which can be attributed to the limited therapeutic choices for BPD. This review discusses the potential of MSC in treating BPD as well as their hurdles and possible solutions. DATA SOURCES: The search for data was not limited to any sites but was mostly performed on all clinical trials available in ClinicalTrials.gov as well as on PubMed by applying the following keywords: lung injury, preterm, inflammation, neonatal, bronchopulmonary dysplasia and mesenchymal stem cells. STUDY SELECTIONS: The articles chosen for this review were collectively determined to be relevant and appropriate in discussing MSC not only as a potential treatment strategy for curbing the incidence of BPD but also including insights on problems regarding MSC treatment for BPD. RESULTS: Clinical trials regarding the use of MSC for BPD had good results but also illustrated insights on problems to be addressed in the future regarding the treatment strategy. Despite that, the clinical trials had mostly favourable reviews. CONCLUSION: With BPD existing as a constant threat and there being no permanent solutions, the idea of regenerative medicine such as MSC may prove to be a breakthrough strategy when it comes to treating BPD. The success in clinical trials led to the formulation of prospective MSC-derived products such as PNEUMOSTEM®, and there is the possibility of a stem cell medication and permanent treatment for BPD in the near future.