Summary

소설 문화 모델은 인간 다 능성에 대한 태반 에어컨 미디어에서 젤라틴에 세포 전파 줄기

Published: August 03, 2015
doi:

Summary

This protocol provides a simple and efficient way to propagate human pluripotent stem cells (hPSCs) using only conditioned media derived from the human placenta in a gelatin-coated dish without additional exogenous supplementation or hPSC-specific synthetic substrata.

Abstract

The propagation of human pluripotent stem cells (hPSCs) in conditioned medium derived from human cells in feeder-free culture conditions has been of interest. Nevertheless, an ideal humanized ex vivo feeder-free propagation method for hPSCs has not been developed; currently, additional exogenous substrates including basic fibroblast growth factor (bFGF), a master hPSC-sustaining factor, is added to all of culture media and synthetic substrata such as Matrigel or laminin are used in all feeder-free cultures. Recently, our group developed a simple and efficient protocol for the propagation of hPSCs using only conditioned media derived from the human placenta on a gelatin-coated dish without additional exogenous supplementation or synthetic substrata specific to hPSCs. This protocol has not been reported previously and might enable researchers to propagate hPSCs efficiently in humanized culture conditions. Additionally, this model obviates hPSC contamination risks by animal products such as viruses or unknown proteins. Furthermore, this system facilitates easy mass production of hPSCs using the gelatin coating, which is simple to handle, dramatically decreases the overall costs of ex vivo hPSC maintenance.

Introduction

The goal of this protocol is the propagation of human pluripotent stem cells (hPSCs) including human embryonic stem cells (hESCs) and human induced pluripotent stem cells (iPSCs) in fully humanized ex vivo feeder-free conditions without requiring additional exogenous supplementation and synthetic substrates. To date, the development of ex vivo hPSC culture models, that enable the introduction of culture products to the clinic, has been a major concern in stem cell research. Specifically, two critical problems need to be addressed. First, a humanized ex vivo culture system for the propagation of hPSCs that obviates the risk of contamination by animal cell products is needed. Second, a feeder-free culture model is needed to facilitate easy and economic mass production of hPSCs. For therapeutic applications of hPSCs, it is necessary to identify the factors that regulate their self-renewal and differentiation.

Since Xu et al. initially reported the feasibility of using conditioned media (CM) derived from mouse embryonic fibroblasts (MEF) to grow hESCs on Matrigel1, many studies have examined optimal ex vivo propagation methods for hPSCs2-4. However, an ideal humanized ex vivo feeder-free hPSC propagation system has not been developed because current methods require additional exogenous substrates including bFGF and insulin, well-known hPSC-sustaining factors, in culture media5-7. Moreover, synthetic substrata such as Matrigel or laminin are used in all feeder-free cultures.

The rationale behind the development and use of this protocol is based on our previous studies showing that human placenta chorion cells excellently support the propagation of hPSCs without bFGF supplementation8-11. This protocol has a number of advantages including its simplicity with respect to handling and its cost-effectiveness, and it is a near-perfect humanized culture that enables hPSC propagation without exogenous synthetic substrates. The application of human placenta-derived CM (hPCCM) for hPSCs involves 3 steps. First, chorion cells are isolated from the human placenta and cultured. Second, hPCCM is produced from cultured cells. Third, hPSCs are cultured using hPCCM and their characteristics are confirmed.

This protocol will facilitate clinical applications of hPSCs and studies of the mechanisms of hPSC proliferation and attachment. In this paper, the protocol for the successful propagation of hPSCs in hPCCM on a gelatin-coated dish is presented.

Protocol

윤리 문 : 인간의 태반 연구는 고려 대학교 (AN09085-001)의 인간 연구를위한 임상 시험 심사위원회의 승인을 전향 적으로 실시 하였다. 모든 실험은 한국 대학 의료 센터에서 클린 무균 룸 시설에서 수행 하였다. 실험 설계 및 hPSCs를 사용 절차는 고려 대학교 병원의 임상 시험 심사위원회 (AN12277-003)에 의해 승인되었다. 악기, 문화 미디어, 그리고 요리 1. 준비 0.1 % 젤라틴…

Representative Results

이 hPSC 전파 방법의 이점은 인간 세포로부터 분비 된 요소를 사용한다는 것이다. 프로토콜에서 가장 ciritical 단계는 인간 태반 유래 세포의 분리 및 문화입니다. 이 요구 및 HPC 판 융모의 정확한 부분에서 정확한 해부. 한 인간 태반 유래 세포의 분리를위한 절차를 보여줍니다. 이 과정은 간단하고 세포의 분리를위한 편리하고 용이하게 1 시간 내에 수행 될 수있다. ?…

Discussion

이 모델은, 예컨대의 bFGF 또는 인슐린과 같은 외인성 재조합 성장 인자 첨가없이 인간화 피더가없는 배양 조건에서의 특성을 유지 인간화 미세 환경에서 hPSCs의 조작을 가능하게하면서 성공적 hPSCs를 전파하기 위해 개발되었다. 외인성 bFGF를 보충 일반적입니다 및 마트 리겔 또는 라미닌 등 하층의 응용 프로그램은 hPSCs (14)의 공급이없는 배양을 위해 필수적이다.

이 ?…

Divulgations

The authors have nothing to disclose.

Acknowledgements

저자는 태반 조직을 제공하기 위해 곧-철이 홍콩 (MD, 박사, 부교수, 산부인과학과, 의과 대학 고려 대학교)에 감사의 말씀을 전합니다. 이 작품은 한국의 국립 연구 재단 (NRF), 대한민국에서 보조금 (R1211902)에 의해 부분적으로 지원되었다.

Materials

Mitomycin-C Sigma-Aldrich Corporation M4287 10ug/ml
Mycoplasma detection kit TaKaRa Bio Inc. #6601
Matrigel BD Biosciences #354277
mTeSR1 STEMCELL Technologies Inc. #05850
Dispase Worthington Biochemical Corporation LS02100 1mg/ml
Gelatin Sigma-Aldrich Corporation G2500 0.10%
BM-Cyclin Roche 799 050 10ug/ml
RNeasy mini kit  Qiagen 74104
Nano Drop Spectrophotometer Thermo Fisher Scientific Inc
iQ SYBR Green qPCR Master Mix  Bio-Rad Laboratories #170-8882AP
ES Cell Characterization kit Chemicon International, Inc., SCR001
Power cDNA Synthesis Kit  iNtRON Biotechnology 25011
QIAamp® DNA Micro kit Qiagen 56304
AmpF/STR® Identifiler® PCR Amplification kit Applied Biosystems Inc. 4322288
Applied Biosystems® 3130xl Genetic Analyzer  Applied Biosystems Inc.

References

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Jung, J., Kim, B. S. A Novel Culture Model for Human Pluripotent Stem Cell Propagation on Gelatin in Placenta-conditioned Media. J. Vis. Exp. (102), e53204, doi:10.3791/53204 (2015).

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