- 作者:Susana Solá ; a ; b ; susana.sola@ff.ul.pt ; Ana L. Morgadoa ; Cecí ; lia M.P. Rodriguesa ; b
- 关键词:Apaf-1 ; apoptosis protease activating factor-1 ; Bcl-2 ; B-cell lymphoma-2 ; CNS ; central nervous system ; ESCs ; embryonic stem cells ; IAPs ; inhibitor of apoptosis proteins ; IL-1¦Á/¦Â ; interleukin-1 ¦Á/¦Â ; iPSCs ; induced pluripotent stem cells ; miRNAs ; microR
- 刊名:Biochimica et Biophysica Acta (BBA)/General Subjects
- 出版年:2013
- 出版时间:January, 2013
- 年:2013
- 卷:1830
- 期:1
- 页码:2160-2166
- 全文大小:634 K
Background
Stem cell therapy is a strategy far from being satisfactory and applied in the clinic. Poor survival and differentiation levels of stem cells after transplantation or neural injury have been major problems. Recently, it has been recognized that cell death-relevant proteins, notably those that operate in the core of the executioner apoptosis machinery are functionally involved in differentiation of a wide range of cell types, including neural cells.Scope of review
This article will review recent studies on the mechanisms underlying the non-apoptotic function of mitochondrial and death receptor signaling pathways during neural differentiation. In addition, we will discuss how these major apoptosis-regulatory pathways control the decision between differentiation, self-renewal and cell death in neural stem cells and how levels of activity are restrained to prevent cell loss as final outcome.
Major conclusions
Emerging evidence suggests that, much like p53, caspases and Bcl-2 family members, the two prime triggers of cell death pathways, death receptors and mitochondria, may influence proliferation and differentiation potential of stem cells, neuronal plasticity, and astrocytic versus neuronal stem cell fate decision.
General significance
A better understanding of the molecular mechanisms underlying key checkpoints responsible for neural differentiation as an alternative to cell death will surely contribute to improve neuro-replacement strategies.