Clonal Amniotic Fluid-Derived Stem Cells Express Characteristics of Both Mesenchymal and Neural Stem Cells1

Tsai, Ming‐Song; Hwang, Shiaw-Min; Tsai, Yieh-Loong; Cheng, Fu‐Chou; Lee, Jia-Ling; Chang, Yu-Jen

doi:10.1095/biolreprod.105.046029

Cited by 224 publications

(203 citation statements)

References 42 publications

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“…In recent years, several studies have demonstrated the ability to isolate amniotic membrane stem cells (AMSCs) and amniotic fluid stem cells (AFSCs) (In 't Anker et al 2003;Tsai et al 2004;Tsai et al 2006). These cells have phenotypes attributable to pluripotent cells and can differentiate into different cell types due to the three different embryonic layers (De Coppi et al 2007).…”

Section: Introductionmentioning

confidence: 99%

Isolation, characterization, and in vitro differentiation of ovine amniotic stem cells

et al. 2010

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Stem cell (SC) regenerative therapy represents an emerging strategy for the treatment of human diseases. Since amniotic fluid-derived cells have been recently proposed as a promising source of human SCs, the present research aimed to amplify in vitro and characterize ovine amniotic fluid-derived SCs collected from the membranes (AMSCs) or fluid (AFSCs). These cells were found to proliferate, express the pluripotent SC markers OCT-4 and TERT, and differentiate in both osteogenic and smooth muscle lineages in vitro. However, AMSCs presented an earlier down-regulation of SC markers and a faster rate of differentiation. Thus, AMSCs and AFSCs may represent sources of characterized pluripotent SCs that can be easily collected and amplified in vitro. These ovine SCs may be used in preclinical studies on large animals to develop future human therapies.

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Section: Introductionmentioning

confidence: 99%

Isolation, characterization, and in vitro differentiation of ovine amniotic stem cells

et al. 2010

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“…It remains to be seen whether these alternatives would lead to any advantage, or disadvantage, in clinical-grade processing. Also, it remains to be determined whether amniotic stem cells recently obtained by somewhat different methods and described as more primitive than purely mesenchymal are actually the same cells that we and others refer to as AMSCs, which have been shown to be able to give rise to cells from more than one germ layer [13,14].…”

Section: Discussionmentioning

confidence: 92%

Preclinical regulatory validation of a 3-stage amniotic mesenchymal stem cell manufacturing protocol

Steigman

Armant

Bayer-Zwirello

et al. 2008

Journal of Pediatric Surgery

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Purpose-Due to the 4-6-month interval between a diagnostic amniocentesis and birth, clinical application of amniotic mesenchymal stem cell (AMSC)-based therapies demands a 3-stage cell manufacturing process, including isolation/primary expansion, cryopreservation, and thawing/ secondary expansion. We sought to determine the feasibility and cell yield of such a staged cell manufacturing process, within regulatory guidelines. Methods-HumanAMSCs isolated from diagnostic amniocentesis samples (n=11) were processed under FDA-accredited Good Manufacturing Practice. Expanded cells were characterized by flow cytometry and cryopreserved for 3-5 months. Cell release criteria included: >90% CD29+, CD73+, and CD44+; <5% CD34+ and CD45+; negative mycoplasma QPCR and endotoxin assay; and ≥70% viability.Results-Isolation and ample expansion of AMSCs was achieved in 54.5% (6/11) of the samples. Early processing and at least a 2mL sample were necessary for reliable cell manufacturing. Cell yield before cryopreservation was 223.2±65.4×10 6 cells (44.6-fold expansion), plus a 14.7×10 6 -cell backup, after 36.3±7.8 days. Cell viability post-thaw was 88%. Expanded cells maintained a multipotent mesenchymal progenitor profile.Conclusions-Human amniotic mesenchymal stem cells can be manufactured in large numbers from diagnostic amniocentesis, by an accredited staged processing, under definite procurement guidelines. These data further support the viability of clinical trials of amniotic mesenchymal stem cell-based therapies.

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“…Our AFNSCs maintained or increased their expression of these markers during long-term cultivation in vitro. AF has been identified as an ideal source to isolate fetal multipotent stem cells (AFSCs) [24,39]. AFSCs also express some markers with mesenchymal stem cells, such as CD73, CD105, and CD117, and some pluripotent stem cell markers, such as Oct-4, Nanog, and Sox2.…”

Section: Figmentioning

confidence: 99%

Isolation of Human Neural Stem Cells from the Amniotic Fluid with Diagnosed Neural Tube Defects

Chang

Hsu

et al. 2015

Stem Cells and Development

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Human neural stem cells (NSCs) are particularly valuable for the study of neurogenesis process and have a therapeutic potential in treating neurodegenerative disorders. However, current progress in the use of human NSCs is limited due to the available NSC sources and the complicated isolation and culture techniques. In this study, we describe an efficient method to isolate and propagate human NSCs from the amniotic fluid with diagnosed neural tube defects (NTDs), specifically, anencephaly. These amniotic fluid-derived NSCs (AFNSCs) formed neurospheres and underwent long-term expansion in vitro. In addition, these cells showed normal karyotypes and telomerase activity and expressed NSC-specific markers, including Nestin, Sox2, Musashi-1, and the ATP-binding cassette G2 (ABCG2). AF-NSCs displayed typical morphological patterns and expressed specific markers that were consistent with neurons, astrocytes, oligodendrocytes, and dopaminergic neurons after proper induction conditions. Furthermore, grafted AF-NSCs improved the physiological functions in a rat stroke model. The ability to isolate and bank human NSCs from this novel source provides a unique opportunity for translational studies of neurological disorders.

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Clonal Amniotic Fluid-Derived Stem Cells Express Characteristics of Both Mesenchymal and Neural Stem Cells1

Cited by 224 publications

References 42 publications

Isolation, characterization, and in vitro differentiation of ovine amniotic stem cells

Isolation, characterization, and in vitro differentiation of ovine amniotic stem cells

Preclinical regulatory validation of a 3-stage amniotic mesenchymal stem cell manufacturing protocol

Isolation of Human Neural Stem Cells from the Amniotic Fluid with Diagnosed Neural Tube Defects

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