The Influence of Short Peptides on Cell Senescence and Neuronal Differentiation.

It has been previously shown that some short peptides are involved in various cellular processes, such as transcription modulation and regulation of differentiation mechanisms. In particular, the effect of peptides on the neuronal differentiation of human periodontal ligament stem cells has been demonstrated. The goal of this study was to assess the effect of KED, EDR, and AEDG short peptides in stimulating the transdifferentiation of fetal MSCs into induced neuronal cells and prevention of their senescence. We applied a novel in vitro technique for neuronal cell generation, which combines the use of microRNAs, transcription factors, and small molecules to transdifferentiate fetal mesenchymal stem cells into induced cortical neurons. It was shown that the application of AEDG and KED short peptides at the end of the transdifferentiation process decreases the expression of the cell cycle marker p21 by 15% and beta-galactosidase activity by 1.51-2.4 times. However, short peptides did not affect the expression levels of TUj-1 and LaminB1, whose expression also changes during neuronal differentiation. The experiments indicate the potential of AEDG and KED short peptides as modulators of neurogenesis and geroprotectors and suggest that they can be used as stimulators of neuronal differentiation.