SOX9 as a predictor for neurogenesis potentiality of amniotic fluid stem cells

Pei Cih Wei, Angel Chao, Hsiu Huei Peng, An Shine Chao, Yao Lung Chang, Shuenn Dyh Chang, Hsin Shih Wang, Yu Jen Chang, Ming Song Tsai, Martin Sieber, Hua Chien Chen, Shu Jen Chen, Yun Shien Lee, Shiaw Min Hwang, Tzu Hao Wang*

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

7 Scopus citations

Abstract

Preclinical studies of amniotic fluid-derived cell therapy have been successful in the research of neurodegenerative diseases, peripheral nerve injury, spinal cord injury, and brain ischemia. Transplantation of human amniotic fluid stem cells (AFSCs) into rat brain ventricles has shown improvement in symptoms of Parkinson's disease and also highlighted the minimal immune rejection risk of AFSCs, even between species. Although AFSCs appeared to be a promising resource for cell-based regenerative therapy, AFSCs contain a heterogeneous pool of distinct cell types, rendering each preparation of AFSCs unique. Identification of predictive markers for neuron-prone AFSCs is necessary before such stemcell-based therapeutics can becomea reality. In an attempt to identifymarkers of AFSCs to predict their ability for neurogenesis, we performed a two-phase study. In the discovery phase of 23 AFSCs, we tested ZNF521/Zfp521, OCT6, SOX1, SOX2, SOX3, and SOX9 as predictive markers of AFSCs for neural differentiation. In the validation phase, the efficacy of these predictivemarkers was tested in independent sets of 18 AFSCs and 14 dental pulp stem cells (DPSCs). We found that high expression of SOX9 in AFSCs is associated with good neurogenetic ability, and these positive correlations were confirmed in independent sets of AFSCs and DPSCs. Furthermore, knockdown of SOX9 in AFSCs inhibited their neuronal differentiation. In conclusion, the discovery of SOX9 as a predictive marker for neuronprone AFSCs could expedite the selection of useful clones for regenerative medicine, in particular, in neurological diseases and injuries.

Original languageEnglish
Pages (from-to)1138-1147
Number of pages10
JournalStem Cells Translational Medicine
Volume3
Issue number10
DOIs
StatePublished - 02 10 2014

Bibliographical note

Publisher Copyright:
© 2014, AlphaMed Press.

Keywords

  • Amniotic fluid
  • Cell-based therapy
  • Neural differentiation
  • SOX9
  • Stem cells

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