RESUMEN
Mesenchymal stem cells (MSCs) are converted to neural cells using growth factors and chemicals. Although these neural cells are effective at modulating disease symptoms, they are less effective at replacing lost neural cells. Direct transdifferentiation seems to be a promising method for generating the required cells for regenerative medicine applications. Sox2 is a key transcription factor in neural progenitor (NP) fate determination and has been frequently used for transdifferentiating different cell types to NPs. Here, we demonstrated that the overexpression of a single transcription factor, Sox2, in human adipose tissue-derived mesenchymal stem cells (hAT-MSCs) led to the generation of induced NPs-like cells that were clonogenic, proliferative and passageable, and showed the potential to differentiate into three neural lineages. NPs are known as progenitors with the potential to differentiate into oligodendrocytes. In vivo, following transplantation into demyelinated adult mouse brains, they survived, differentiated and integrated into the adult brain while participating in the remyelination process and behavioral improvement. This report introduces a beneficial, low-cost and effective approach for generating NPs from an accessible adult source for autologous applications in treating neurodegenerative diseases, including remyelination therapies for multiple sclerosis and other demyelinating diseases.
RESUMEN
Increasingly in recent years, thyroid hormones (THs) have been considered to be important regulators of the immune system. However, their roles in host defense against viral infections are not clearly established. Therefore, this study was undertaken to examine proliferative activity and cytokine production by lymphocytes isolated from hyperthyroid and euthyroid Balb/c mice in response to herpes simplex virus-1 (HSV-1). Lymphocytes of hyperthyroid animals showed a significantly higher rate of proliferation and interferon (IFN)-γ production when compared with that by lymphocytes from euthyroid mice. In vitro thyroxine (T4) treatment was similarly effective in the potentiation of proliferation, but not IFNγ production, by euthyroid lymphocytes. Furthermore, the hyperthyroid state significantly attenuated ConA-, but not HSV-1-, induced interleukin (IL)-10 release; in vitro T4 treatment synergized this effect. These findings suggest that supra-physiologic TH levels (i.e. as occur in hyper-thyroid states) or in vitro TH treatment modulate T-helper (TH)1/TH2 lymphocyte responses and thereby amplifies host defenses against viral infections. One may also conclude that THs may have a potential application in viral immunization and/or treatment of viral infections.