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Mesenchymal stem cells are multipotent adult stem cells that are present in multiple tissues, including umbilical cord, bone marrow and fat tissue. Mesenchymal stem cells can self-renew by dividing and can differentiate into multiple tissues including bone, cartilage, muscle and fat cells, and connective tissue.
Efficient production of MSC secretome for therapeutic applications remains a challenging task. Here, the authors present an approach whereby an acoustofluidic mechanobiological environment can form reproducible 3D MSC aggregates, allowing for secretome production with high efficiency.
Major depressive disorder is a major public health problem. Here, the authors illustrate that mesenchymal stromal cells exert antidepressant and anxiolytic effects through a pulmonary vagal→ nucleus tractus solitarius → 5-HT dorsal raphe nucleus neural pathway in murine depression models.
Adipogenesis of adipose progenitor cells is considered metabolically beneficial. Two laboratories have simultaneously discovered that adipose progenitors also give rise to structural WNT-regulated adipose tissue-resident (SWAT) cells during adipogenesis to maintain the progenitor pool.
New research shows that combining a hydrogel with nanozymes to modify the hypoxic, inflammatory joint environment in rheumatoid arthritis enables stem cells to promote osseointegration.
Coating mesenchymal stromal cells with a soft gel incorporating specific chemomechanical cues that enhance the production of collagenases enhances the ability of the cells to inhibit aberrant tissue remodelling in mice with fibrotic lungs.
De novo adipocyte differentiation ensures healthy adipose tissue expansion and protects against deleterious ectopic lipid deposition in the setting of overnutrition. Dong and Sun et al. identify a molecular brake on adipogenesis that may contribute to the development of insulin resistance in obesity.
